diff --git a/rpi_data/Finals_Parser/.ipynb_checkpoints/FinalsParser-checkpoint.ipynb b/rpi_data/Finals_Parser/.ipynb_checkpoints/FinalsParser-checkpoint.ipynb
index a6ff23f54..60491805b 100644
--- a/rpi_data/Finals_Parser/.ipynb_checkpoints/FinalsParser-checkpoint.ipynb
+++ b/rpi_data/Finals_Parser/.ipynb_checkpoints/FinalsParser-checkpoint.ipynb
@@ -17,6 +17,7 @@
     "    - The current process assumes the finals document is named finals_by_subject.pdf and is in the same folder as this process\n",
     "    - The output is a csv file with format: ['Season', 'Year', 'Major', 'Course', 'Section', 'Start', 'End', 'Building', 'Room_Number']\n",
     "    - Use \"jupyter nbconvert --to script FinalsParser.ipynb\" to convert the .ipynb file to a .py\n",
+    "    - Run with \"python FinalsParser.py pathtoschedule.pdf\"\n",
     "\n",
     "TODO:\n",
     "\n",
@@ -26,7 +27,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 27,
+   "execution_count": 11,
    "id": "c5584e3c-8c4d-4656-8699-383826a60509",
    "metadata": {},
    "outputs": [],
@@ -37,12 +38,13 @@
     "import pandas as pd\n",
     "import re\n",
     "import calendar\n",
+    "import sys\n",
     "debug_mode = False"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 28,
+   "execution_count": 12,
    "id": "b89afdbc-6199-4ad8-bc03-467ea9a495ce",
    "metadata": {},
    "outputs": [],
@@ -78,15 +80,15 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 29,
+   "execution_count": 13,
    "id": "201b53c9-4435-4371-8463-cc06ec5a19dc",
    "metadata": {},
    "outputs": [],
    "source": [
     "def parser():\n",
-    "    files = [f for f in os.listdir('.') if os.path.isfile(f)]\n",
-    "    \n",
-    "    reader = PdfReader(\"finals_schedule.pdf\")\n",
+    "    if len(sys.argv) != 2:\n",
+    "        raise Exception(\"Include file path to finals pdf as argument\")\n",
+    "    reader = PdfReader(sys.argv[1])\n",
     "    number_of_pages = len(reader.pages)\n",
     "    \n",
     "    db_lines = []\n",
@@ -204,10 +206,11 @@
     "            done = False\n",
     "            for tmp_major in majors:\n",
     "                for section in sections:\n",
-    "                    if \"ALL\" in section:\n",
-    "                        start_time, end_time = handle_times(time1, time2, day, month, year)\n",
-    "                        db_lines.append([season, year, tmp_major, course, None, start_time, end_time, building, room])\n",
-    "                        all = True\n",
+    "                    for course in courses:\n",
+    "                        if \"ALL\" in section:\n",
+    "                            start_time, end_time = handle_times(time1, time2, day, month, year)\n",
+    "                            db_lines.append([season, year, tmp_major, course, None, start_time, end_time, building, room])\n",
+    "                            all = True\n",
     "                if all:\n",
     "                    done = True\n",
     "                    continue\n",
@@ -237,7 +240,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 30,
+   "execution_count": 14,
    "id": "c100e052-1d8a-432c-8fc2-0086cfd5d334",
    "metadata": {},
    "outputs": [],
@@ -259,7 +262,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 31,
+   "execution_count": 15,
    "id": "e54bdf1b-ba2d-42dc-afbf-39efdcbc02c0",
    "metadata": {},
    "outputs": [],
@@ -267,6 +270,16 @@
     "db_lines = parser()\n",
     "display_and_write_csv(db_lines)"
    ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": null,
+   "id": "8de91268-03fb-4f08-9e78-2c9fcb616ba1",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "os.system(f'send_finals_to_api.py out.csv')"
+   ]
   }
  ],
  "metadata": {
diff --git a/rpi_data/Finals_Parser/.ipynb_checkpoints/finals-checkpoint.pdf b/rpi_data/Finals_Parser/.ipynb_checkpoints/finals-checkpoint.pdf
deleted file mode 100644
index 8709ff296..000000000
Binary files a/rpi_data/Finals_Parser/.ipynb_checkpoints/finals-checkpoint.pdf and /dev/null differ
diff --git a/rpi_data/Finals_Parser/FinalsParser.ipynb b/rpi_data/Finals_Parser/FinalsParser.ipynb
index 49e3b1c2e..60491805b 100644
--- a/rpi_data/Finals_Parser/FinalsParser.ipynb
+++ b/rpi_data/Finals_Parser/FinalsParser.ipynb
@@ -17,6 +17,7 @@
     "    - The current process assumes the finals document is named finals_by_subject.pdf and is in the same folder as this process\n",
     "    - The output is a csv file with format: ['Season', 'Year', 'Major', 'Course', 'Section', 'Start', 'End', 'Building', 'Room_Number']\n",
     "    - Use \"jupyter nbconvert --to script FinalsParser.ipynb\" to convert the .ipynb file to a .py\n",
+    "    - Run with \"python FinalsParser.py pathtoschedule.pdf\"\n",
     "\n",
     "TODO:\n",
     "\n",
@@ -37,6 +38,7 @@
     "import pandas as pd\n",
     "import re\n",
     "import calendar\n",
+    "import sys\n",
     "debug_mode = False"
    ]
   },
@@ -84,9 +86,9 @@
    "outputs": [],
    "source": [
     "def parser():\n",
-    "    files = [f for f in os.listdir('.') if os.path.isfile(f)]\n",
-    "    \n",
-    "    reader = PdfReader(\"finals_schedule.pdf\")\n",
+    "    if len(sys.argv) != 2:\n",
+    "        raise Exception(\"Include file path to finals pdf as argument\")\n",
+    "    reader = PdfReader(sys.argv[1])\n",
     "    number_of_pages = len(reader.pages)\n",
     "    \n",
     "    db_lines = []\n",
@@ -268,6 +270,16 @@
     "db_lines = parser()\n",
     "display_and_write_csv(db_lines)"
    ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": null,
+   "id": "8de91268-03fb-4f08-9e78-2c9fcb616ba1",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "os.system(f'send_finals_to_api.py out.csv')"
+   ]
   }
  ],
  "metadata": {
diff --git a/rpi_data/Finals_Parser/FinalsParser.py b/rpi_data/Finals_Parser/FinalsParser.py
index 3f88ed764..466e15b30 100644
--- a/rpi_data/Finals_Parser/FinalsParser.py
+++ b/rpi_data/Finals_Parser/FinalsParser.py
@@ -13,6 +13,7 @@
 #     - The current process assumes the finals document is named finals_by_subject.pdf and is in the same folder as this process
 #     - The output is a csv file with format: ['Season', 'Year', 'Major', 'Course', 'Section', 'Start', 'End', 'Building', 'Room_Number']
 #     - Use "jupyter nbconvert --to script FinalsParser.ipynb" to convert the .ipynb file to a .py
+#     - Run with "python FinalsParser.py pathtoschedule.pdf"
 # 
 # TODO:
 # 
@@ -28,6 +29,7 @@
 import pandas as pd
 import re
 import calendar
+import sys
 debug_mode = False
 
 
@@ -57,9 +59,9 @@ def handle_times(start_text, end_text, day, month, year):
     # Construct and return the datetime object
     start_text = year + str(month_num) + day + str(start_nums[0]) + ":" + str(start_nums[1])
     end_text = year + str(month_num) + day + str(end_nums[0]) + ":" + str(end_nums[1])
-    text_fmt = '%Y%m%d%H:%M'
-    start_time = datetime.strptime(start_text, text_fmt)
-    end_time = datetime.strptime(end_text, text_fmt)
+    format = '%Y%m%d%H:%M'
+    start_time = datetime.strptime(start_text, format)
+    end_time = datetime.strptime(end_text, format)
     return start_time, end_time
 
 
@@ -67,9 +69,9 @@ def handle_times(start_text, end_text, day, month, year):
 
 
 def parser():
-    files = [f for f in os.listdir('.') if os.path.isfile(f)]
-    
-    reader = PdfReader("finals_schedule.pdf")
+    if len(sys.argv) != 2:
+        raise Exception("Include file path to finals pdf as argument")
+    reader = PdfReader(sys.argv[1])
     number_of_pages = len(reader.pages)
     
     db_lines = []
@@ -243,3 +245,9 @@ def display_and_write_csv(db_lines):
 db_lines = parser()
 display_and_write_csv(db_lines)
 
+
+# In[ ]:
+
+
+os.system(f'send_finals_to_api.py out.csv')
+
diff --git a/rpi_data/Finals_Parser/finals.pdf b/rpi_data/Finals_Parser/finals.pdf
deleted file mode 100644
index 8709ff296..000000000
Binary files a/rpi_data/Finals_Parser/finals.pdf and /dev/null differ
diff --git a/rpi_data/Finals_Parser/send_finals_to_api.py b/rpi_data/Finals_Parser/send_finals_to_api.py
new file mode 100644
index 000000000..c2083e983
--- /dev/null
+++ b/rpi_data/Finals_Parser/send_finals_to_api.py
@@ -0,0 +1,14 @@
+import sys
+import requests
+
+csv_loc = sys.argv[1]
+
+url = 'http://localhost:8080/api/finals-database-support'
+
+
+content = {
+        'file': (open(csv_loc, 'rb')),
+    }
+
+response = requests.post(url,files=content)
+print(response.text)
\ No newline at end of file
diff --git a/rpi_data/fall-2024.csv b/rpi_data/fall-2024.csv
index 5240c94a6..641f7052d 100644
--- a/rpi_data/fall-2024.csv
+++ b/rpi_data/fall-2024.csv
@@ -1,214 +1,228 @@
 course_name,course_type,course_credit_hours,course_days_of_the_week,course_start_time,course_end_time,course_instructor,course_location,course_max_enroll,course_enrolled,course_remained,course_department,course_start_date,course_end_date,semester,course_crn,course_level,course_section,short_name,full_name,description,raw_precoreqs,offer_frequency,prerequisites,corequisites,school
-BUILDING SCIENCES CAPSTONE,LEC,5,MR,4:00PM,5:50PM,John Clifford Loercher,Peoples Ave Complex J 3401,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69774,4530,01,ARCH-4530,Building Sciences Capstone,"This course offers the students the opportunity to demonstrate a comprehensive knowledge of issues and practices in an important subject within the building sciences through a self-initiated and faculty-directed independent design, research, or research/design project. This is required of all architecture undergraduates in the B.S. in Building Sciences program. This is a communication-intensive course.",Prerequisite or Corequisite: ARCH 4520,When Offered: Spring term annually.,['ARCH 4520'],['ARCH 4520'],Architecture
-FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Carla Leitao,Greene Building STU,80,52,28,ARCH,2024-08-28,2024-12-20,FALL 2024,67658,4910,01,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
-FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Edward Jeremy Keller,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,67659,4910,02,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
-FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Ryosuke Imaeda,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,67660,4910,03,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
-FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Caleb White,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,67661,4910,04,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
-FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Christianna Grace Bennett,Greene Building STU,20,1,19,ARCH,2024-08-28,2024-12-20,FALL 2024,69077,4910,05,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
-GLOBAL CHANGEMAKERS,LEC,3,,,,Ciro Najle,TBA,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69203,4972,50,ARCH-4972,Global Changemakers,,,,[],[],Architecture
+BUILDING SCIENCES CAPSTONE,LEC,5,MR,4:00PM,5:50PM,John Clifford Loercher,Peoples Ave Complex J 3401,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69774,4530,01,ARCH-4530,Building Sciences Capstone,"This course offers the students the opportunity to demonstrate a comprehensive knowledge of issues and practices in an important subject within the building sciences through a self-initiated and faculty-directed independent design, research, or research/design project. This is required of all architecture undergraduates in the B.S. in Building Sciences program. This is a communication-intensive course.",Prerequisite or Corequisite: ARCH 4520,When Offered: Spring term annually.,['ARCH 4520'],['ARCH 4520'],Architecture
+FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Carla Leitao,Russell Sage Laboratory 3705,80,14,66,ARCH,2024-08-28,2024-12-20,FALL 2024,67658,4910,01,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
+FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Ryosuke Imaeda,Greene Building STU,20,13,7,ARCH,2024-08-28,2024-12-20,FALL 2024,67660,4910,03,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
+FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Caleb White,Greene Building STU,20,15,5,ARCH,2024-08-28,2024-12-20,FALL 2024,67661,4910,04,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
+FINAL PROJECT DESIGN RESEARCH SEMINAR,LEC,3,M,10:00AM,12:50PM,Christianna Grace Bennett,Greene Building STU,20,15,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69077,4910,05,ARCH-4910,Final Project Design Research Seminar,"This seminar is the first required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program and as such serves as a prerequisite to the spring semester ARCH 4920. The Design Research Seminar provides a forum for readings and discussions as well as theoretical, historical, and disciplinary investigations as they relate to the respective Final Project instructor's thematic framework. The seminar also covers fundamentals related to standard methods of research and analysis. This 3-credit course is required of all architecture undergraduates in the B.Arch. program.",Prerequisites: ARCH 4790 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4790', 'ARCH 4830']","['ARCH 4790', 'ARCH 4830']",Architecture
+"LOOTED ART, PATRONS & CRIME",LEC,1,,,,Ciro Najle,TBA,5,5,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69203,4972,50,ARCH-4972,"Looted ART, Patrons & Crime",,,,[],[],Architecture
 CERAMIC ASSEMBLIES,LEC,2,F,12:00PM,1:50PM,John Rhett Russo,Low Center for Industrial Inn. 3130,3,0,3,ARCH,2024-08-28,2024-12-20,FALL 2024,68991,6967,02,ARCH-6967,Ceramic Assemblies,,,,[],[],Architecture
-STRUCTURES 1,LEC,3,TF,10:00AM,11:20AM,Marc Anthony Tatarsky,Academy Hall AUD,90,72,18,ARCH,2024-08-28,2024-12-20,FALL 2024,65332,2330,01,ARCH-2330,Structures 1,"Through in-class presentations, homework, exams, and worked problems, students will learn the basicprinciples of structural systems, when to apply them, and how they resist gravitational and lateral forces. In addition, students will learn the principles of statics and apply them to basic structural analyses of common structural elements. It is recognized that intuitions of building technologies are not acquired quickly but result from much study, observation, and practice. Structures 1 makes use of the approaches above to ensure that the beginning student is provided with a broad, solid base for future structural investigations. This course is required of all second-year architecture undergraduates in the B.Arch.",Prerequisite: ARCH 2510;except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
-STRUCTURES 1,LEC,3,TF,10:00AM,11:20AM,Ukwatte Lokuliyanage Indika Upendra Perera,Academy Hall AUD,45,0,45,ARCH,2024-08-28,2024-12-20,FALL 2024,69772,2330,03,ARCH-2330,Structures 1,"Through in-class presentations, homework, exams, and worked problems, students will learn the basicprinciples of structural systems, when to apply them, and how they resist gravitational and lateral forces. In addition, students will learn the principles of statics and apply them to basic structural analyses of common structural elements. It is recognized that intuitions of building technologies are not acquired quickly but result from much study, observation, and practice. Structures 1 makes use of the approaches above to ensure that the beginning student is provided with a broad, solid base for future structural investigations. This course is required of all second-year architecture undergraduates in the B.Arch.",Prerequisite: ARCH 2510;except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
+STRUCTURES 1,LEC,3,TF,10:00AM,11:20AM,Marc Anthony Tatarsky,Academy Hall AUD,90,38,52,ARCH,2024-08-28,2024-12-20,FALL 2024,65332,2330,01,ARCH-2330,Structures 1,"Through in-class presentations, homework, exams, and worked problems, students will learn the basicprinciples of structural systems, when to apply them, and how they resist gravitational and lateral forces. In addition, students will learn the principles of statics and apply them to basic structural analyses of common structural elements. It is recognized that intuitions of building technologies are not acquired quickly but result from much study, observation, and practice. Structures 1 makes use of the approaches above to ensure that the beginning student is provided with a broad, solid base for future structural investigations. This course is required of all second-year architecture undergraduates in the B.Arch.",Prerequisite: ARCH 2510;except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
+STRUCTURES 1,LEC,3,TF,10:00AM,11:20AM,Ukwatte Lokuliyanage Indika Upendra Perera,Academy Hall AUD,45,34,11,ARCH,2024-08-28,2024-12-20,FALL 2024,69772,2330,03,ARCH-2330,Structures 1,"Through in-class presentations, homework, exams, and worked problems, students will learn the basicprinciples of structural systems, when to apply them, and how they resist gravitational and lateral forces. In addition, students will learn the principles of statics and apply them to basic structural analyses of common structural elements. It is recognized that intuitions of building technologies are not acquired quickly but result from much study, observation, and practice. Structures 1 makes use of the approaches above to ensure that the beginning student is provided with a broad, solid base for future structural investigations. This course is required of all second-year architecture undergraduates in the B.Arch.",Prerequisite: ARCH 2510;except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
 BEDFORD SEMINAR,LEC,3,W,12:00PM,1:50PM,James Norman Richardson,Troy Building 2015,12,7,5,ARCH,2024-08-28,2024-12-20,FALL 2024,67203,4020,01,ARCH-4020,Bedford Seminar,"This interdisciplinary seminar consists of students from both the School of Architecture and Civil Engineering department. Presentation of a variety of structural typologies bears direct relation to practical experience and the necessity for constructive interdisciplinary discourse. Specific structural typologies are examined through historic and contemporary project examples that are critically deconstructed and critically analyzed with respect to their basic engineering principles and architectural concepts. Students will be exposed to the collaborative methods inherent within the architect/engineer relationship. The course consists of lectures concerning each topic, case studies, and presentations of relevant projects, an interdisciplinary design project and discussion of the projects and presentations with respect to interdisciplinary discourse. Content and delivery may vary by instructor. Taught with CIVL 4020.",Prerequisites/Corequisites: ARCH 2330 and ARCH 4330,When Offered: Fall and spring terms annually.,"['ARCH 2330', 'ARCH 4330']","['ARCH 2330', 'ARCH 4330']",Architecture
 ENVIRONMENTAL PARAMETRICS,LEC,3,T,11:00AM,1:10PM,Charles A. Portelli,Greene Building STU,20,8,12,ARCH,2024-08-28,2024-12-20,FALL 2024,68838,4170,80,ARCH-4170,Environmental Parametrics,"This course is an intensive workshop in parametric modeling with specialized focus on environmental simulation and sustainable design. Students learn tools to navigate the intersection of environmental design and computational workflows by mastering parametric modeling and optimization for sustainability. Students gain proficiency in using parametric applications as both an analytical tool and a generative design device. The course exposes students to feedback loops between environmental analysis and design decision, fostering performance-based design strategies. Students explore the integration of parametric modeling with building energy modeling and bioclimatic analysis. Project based exercises are developed to address ecological design principles and optimize systems for multivariable trade-offs. This course is designed for both graduate and undergraduate students seeking to advance their skills in environmentally-driven design through computational methods. By leveraging the course's resources and instructor's expertise, students develop a deeper understanding of the relationship between design choices and ecological impact. Environmental parametric is taught as a hybrid course, available online to students on campus and in person at the CASE center in New York City.",,When Offered: Fall and Spring terms annually,[],[],Architecture
-PROFESSIONAL PRACTICE 1,LEC,2,T,6:00PM,7:50PM,Katrina Pacheco,Russell Sage Laboratory 3101,60,30,30,ARCH,2024-08-28,2024-12-20,FALL 2024,65130,4540,01,ARCH-4540,Professional Practice 1,"This course is an introduction to professional responsibility and practice. Course topics include health, safety and welfare in design, life safety analysis, occupancy load and egress design, planning/ zoning site plan development, planning board approval process, project estimating, specifications, accessibility, Authorities Having Jurisdiction (AHJ), zoning variances, and design strategies that employ sustainability, resiliency and energy efficiency. This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisites/Corequisites: Corequisite: ARCH 4820,When Offered: Fall term annually.,['ARCH 4820'],['ARCH 4820'],Architecture
-PROFESSIONAL PRACTICE 1,LEC,2,R,6:00PM,6:50PM,Katrina Pacheco,Russell Sage Laboratory 3101,60,30,30,ARCH,2024-08-28,2024-12-20,FALL 2024,65130,4540,01,ARCH-4540,Professional Practice 1,"This course is an introduction to professional responsibility and practice. Course topics include health, safety and welfare in design, life safety analysis, occupancy load and egress design, planning/ zoning site plan development, planning board approval process, project estimating, specifications, accessibility, Authorities Having Jurisdiction (AHJ), zoning variances, and design strategies that employ sustainability, resiliency and energy efficiency. This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisites/Corequisites: Corequisite: ARCH 4820,When Offered: Fall term annually.,['ARCH 4820'],['ARCH 4820'],Architecture
-RESEARCH INVESTIGATIONS,LEC,4,F,10:00AM,1:50PM,Joshua William Hugo Draper,TBA,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,68056,4958,80,ARCH-4958,Research Investigations,,,,[],[],Architecture
-ENVIRONMENTAL PARAMETRICS,LEC,3,,,,Ciro Najle,TBA,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69066,4973,50,ARCH-4973,Environmental Parametrics,,,,[],[],Architecture
+PROFESSIONAL PRACTICE 1,LEC,2,T,6:00PM,7:50PM,Katrina Pacheco,Russell Sage Laboratory 3101,60,32,28,ARCH,2024-08-28,2024-12-20,FALL 2024,65130,4540,01,ARCH-4540,Professional Practice 1,"This course is an introduction to professional responsibility and practice. Course topics include health, safety and welfare in design, life safety analysis, occupancy load and egress design, planning/ zoning site plan development, planning board approval process, project estimating, specifications, accessibility, Authorities Having Jurisdiction (AHJ), zoning variances, and design strategies that employ sustainability, resiliency and energy efficiency. This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisites/Corequisites: Corequisite: ARCH 4820,When Offered: Fall term annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+PROFESSIONAL PRACTICE 1,LEC,2,R,6:00PM,6:50PM,Katrina Pacheco,Russell Sage Laboratory 3101,60,32,28,ARCH,2024-08-28,2024-12-20,FALL 2024,65130,4540,01,ARCH-4540,Professional Practice 1,"This course is an introduction to professional responsibility and practice. Course topics include health, safety and welfare in design, life safety analysis, occupancy load and egress design, planning/ zoning site plan development, planning board approval process, project estimating, specifications, accessibility, Authorities Having Jurisdiction (AHJ), zoning variances, and design strategies that employ sustainability, resiliency and energy efficiency. This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisites/Corequisites: Corequisite: ARCH 4820,When Offered: Fall term annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+RESEARCH INVESTIGATIONS,LEC,4,F,10:00AM,1:50PM,Joshua William Hugo Draper,TBA,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,68056,4958,80,ARCH-4958,Research Investigations,,,,[],[],Architecture
+WOMEN IN ARTS & ARCHITECTURE,LEC,3,,,,Ciro Najle,TBA,2,2,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69066,4973,50,ARCH-4973,Women In Arts & Architecture,,,,[],[],Architecture
 MATERIALS AND CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Marcus Carter,Darrin Communications Center 235,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,67421,5300,01,ARCH-5300,Materials And Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all first-year architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
-MATERIAL SYSTEMS & PRODUCTIONS,LEC,3,M,2:00PM,4:50PM,Joshua William Hugo Draper,TBA,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,68058,6340,80,ARCH-6340,Material Systems & Productions,"The goal of Material Systems and Production is threefold: to develop a fundamental understanding of materials through first principles, material classification, material production, and material impacts, to develop material models based on material properties and tests, and to develop criteria to make reasoned choices for the implementation of materials in the built environment. Students will engage in directed research projects through the lens of material with the intent of opportunistically identifying intrinsic material properties, exploiting production forming logics, and developing a prototype detail assembly for testing. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.",,When Offered: Fall term annually.,[],[],Architecture
-CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Jefferson A Ellinger,Low Center for Industrial Inn. 3112,30,1,29,ARCH,2024-08-28,2024-12-20,FALL 2024,65858,2350,01,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
-CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Lonn J. Combs,Darrin Communications Center 239,30,1,29,ARCH,2024-08-28,2024-12-20,FALL 2024,68679,2350,02,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
-CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Marcus Carter,Darrin Communications Center 330,90,76,14,ARCH,2024-08-28,2024-12-20,FALL 2024,69058,2350,03,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
-CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Emily Gruendel,Darrin Communications Center 232,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,69120,2350,04,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
-CITIES AND THEIR TERRITORIES,LEC,2,T,2:00PM,3:50PM,Christianna Grace Bennett,Ricketts Building 203,80,75,5,ARCH,2024-08-28,2024-12-20,FALL 2024,67828,4050,01,ARCH-4050,Cities And Their Territories,"This course focuses on design at the scale of cities and territories, examining the role of social equity & inclusion and ecological knowledge and responsibility as forces in the development of the built environment. This course will examine the ways that socio-economic, cultural, political, ecological, and technological factors impact urban form. Students will learn to communicate the role and responsibility of architects in ensuring equity and access to sites, buildings, and structures within urban and rural contexts. The course will also assess the dynamic between the built and natural environments, paths to mitigating climate change, professional and ecological responsibility, adaptation, resilience principles and advocacy activities at the scale of cities, territories and landscapes. Information literacy and the proper use of citations in scholarly writing are central to the course. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
-CITIES AND THEIR TERRITORIES,LEC,2,,,,TBA,TBA,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,69171,4050,02,ARCH-4050,Cities And Their Territories,"This course focuses on design at the scale of cities and territories, examining the role of social equity & inclusion and ecological knowledge and responsibility as forces in the development of the built environment. This course will examine the ways that socio-economic, cultural, political, ecological, and technological factors impact urban form. Students will learn to communicate the role and responsibility of architects in ensuring equity and access to sites, buildings, and structures within urban and rural contexts. The course will also assess the dynamic between the built and natural environments, paths to mitigating climate change, professional and ecological responsibility, adaptation, resilience principles and advocacy activities at the scale of cities, territories and landscapes. Information literacy and the proper use of citations in scholarly writing are central to the course. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
-CITIES AND THEIR TERRITORIES,LEC,2,,,,TBA,TBA,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,69604,4050,03,ARCH-4050,Cities And Their Territories,"This course focuses on design at the scale of cities and territories, examining the role of social equity & inclusion and ecological knowledge and responsibility as forces in the development of the built environment. This course will examine the ways that socio-economic, cultural, political, ecological, and technological factors impact urban form. Students will learn to communicate the role and responsibility of architects in ensuring equity and access to sites, buildings, and structures within urban and rural contexts. The course will also assess the dynamic between the built and natural environments, paths to mitigating climate change, professional and ecological responsibility, adaptation, resilience principles and advocacy activities at the scale of cities, territories and landscapes. Information literacy and the proper use of citations in scholarly writing are central to the course. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
-PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Matthew Joseph Lopez,Russell Sage Laboratory 2701,14,14,0,ARCH,2024-08-28,2024-12-20,FALL 2024,68685,4200,01,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth throughout an architect's career. Central to this course is the development of professional development skills in preparation for internships and a professional career in architecture, including the All-Institute ARCH AWAY experience. Students will have the ability to conceive, design, and construct a portfolio, using images and text, that integrates work examples exhibiting a diverse range of skills including, design studio, history theory, professional work, technical and environmental courses. Other skills covered include the design of a curriculum vitae tailored to architecture, and the allied design fields. This course provides an overview of how to establish an NCARB record and log AXP (experience credits), formulate a path to licensure including the AXP and the ARE (Architecture Registration Exam) and is coordinated with career development events, lectures, including Blast-off and the SoA career fair and formally introduces students to their NCARB mentor.",This course is required for 3rd year students,When Offered: Fall and spring terms annually.,[],[],Architecture
-PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Riley Studebaker,Russell Sage Laboratory 2707,14,14,0,ARCH,2024-08-28,2024-12-20,FALL 2024,68836,4200,02,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth throughout an architect's career. Central to this course is the development of professional development skills in preparation for internships and a professional career in architecture, including the All-Institute ARCH AWAY experience. Students will have the ability to conceive, design, and construct a portfolio, using images and text, that integrates work examples exhibiting a diverse range of skills including, design studio, history theory, professional work, technical and environmental courses. Other skills covered include the design of a curriculum vitae tailored to architecture, and the allied design fields. This course provides an overview of how to establish an NCARB record and log AXP (experience credits), formulate a path to licensure including the AXP and the ARE (Architecture Registration Exam) and is coordinated with career development events, lectures, including Blast-off and the SoA career fair and formally introduces students to their NCARB mentor.",This course is required for 3rd year students,When Offered: Fall and spring terms annually.,[],[],Architecture
-PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Adam Francis Petela,Russell Sage Laboratory 2112,14,14,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69603,4200,03,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth throughout an architect's career. Central to this course is the development of professional development skills in preparation for internships and a professional career in architecture, including the All-Institute ARCH AWAY experience. Students will have the ability to conceive, design, and construct a portfolio, using images and text, that integrates work examples exhibiting a diverse range of skills including, design studio, history theory, professional work, technical and environmental courses. Other skills covered include the design of a curriculum vitae tailored to architecture, and the allied design fields. This course provides an overview of how to establish an NCARB record and log AXP (experience credits), formulate a path to licensure including the AXP and the ARE (Architecture Registration Exam) and is coordinated with career development events, lectures, including Blast-off and the SoA career fair and formally introduces students to their NCARB mentor.",This course is required for 3rd year students,When Offered: Fall and spring terms annually.,[],[],Architecture
-ARCHITECTURE OF THE CITY,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69067,4974,50,ARCH-4974,Architecture Of The City,,,,[],[],Architecture
-DESIGN RESEARCH STUDIO,LEC,4,TR,2:00PM,5:50PM,Alexandros Tsamis,TBA,15,1,14,ARCH,2024-08-28,2024-12-20,FALL 2024,68059,6350,81,ARCH-6350,Design Research Studio,"This initial studio segment will explore variable phases of data collection, processing, and synthesis through explorative visualization methods. These methods will bear the complexity of mapping dynamic forces present in nature juxtaposed to cultural and economical factors. Course taught in New York City.",,When Offered: Fall term annually.,[],[],Architecture
-URBAN DATA 1,LEC,3,R,10:00AM,12:50PM,James Fleet Hower,TBA,12,10,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69745,4055,80,ARCH-4055,Urban Data 1,"Urban Data I examines the role of data representation and the use of web-based graphics and in contemporary design. This course teaches the power of combining the thought process and methods of an architect with increasingly sophisticated representational techniques that broaden the function of a traditional drawing. Students use publicly available datasets to interrogate a pressing urban problem. They research, represent, and propose design solutions using data they've collected to guide their decision-making process.",,When Offered: Fall annually,[],[],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman,Greene Building STU,50,0,50,ARCH,2024-08-28,2024-12-20,FALL 2024,67412,4770,01,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,50,48,2,ARCH,2024-08-28,2024-12-20,FALL 2024,67685,4770,03,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Edward Jeremy Keller,Greene Building STU,20,5,15,ARCH,2024-08-28,2024-12-20,FALL 2024,67686,4770,04,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,20,10,10,ARCH,2024-08-28,2024-12-20,FALL 2024,68689,4770,05,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,68693,4770,06,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69584,4770,07,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,M,2:00PM,5:50PM,Caleb White,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69910,4770,08,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+MATERIAL SYSTEMS & PRODUCTIONS,LEC,3,T,2:00PM,4:50PM,Joshua William Hugo Draper,TBA,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,68058,6340,80,ARCH-6340,Material Systems & Productions,"The goal of Material Systems and Production is threefold: to develop a fundamental understanding of materials through first principles, material classification, material production, and material impacts, to develop material models based on material properties and tests, and to develop criteria to make reasoned choices for the implementation of materials in the built environment. Students will engage in directed research projects through the lens of material with the intent of opportunistically identifying intrinsic material properties, exploiting production forming logics, and developing a prototype detail assembly for testing. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.",,When Offered: Fall term annually.,[],[],Architecture
+CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Jefferson A Ellinger,Low Center for Industrial Inn. 3112,30,17,13,ARCH,2024-08-28,2024-12-20,FALL 2024,65858,2350,01,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
+CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Lonn J. Combs,Darrin Communications Center 239,30,20,10,ARCH,2024-08-28,2024-12-20,FALL 2024,68679,2350,02,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
+CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Marcus Carter,Darrin Communications Center 330,90,21,69,ARCH,2024-08-28,2024-12-20,FALL 2024,69058,2350,03,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
+CONSTRUCTION SYSTEMS,LEC,2,W,12:00PM,1:50PM,Emily Gruendel,Darrin Communications Center 232,30,22,8,ARCH,2024-08-28,2024-12-20,FALL 2024,69120,2350,04,ARCH-2350,Construction Systems,"This course will provide a basic understanding of the components, assemblies, and processes used in building construction, with an emphasis in structural typologies, materials, and enclosure systems, including frames, load-bearing walls, and structural forms. Typologies will be analyzed through their different materials component (wood, steel, concrete, timber) and construction methods (prefab, formwork, assembly, form-finding). From this fundamental point of departure, the course will examine the construction systems as a composition of building elements (walls, floors, columns, etc.) as well construction methods (casting, laminating, bending, stacking, connecting). Additional coursework will analyze enclosure systems and building envelopes that extend the structural system or attach to it, creating an interior to control and mediate between external environmental factors and internal programmatic requirements. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2510; except M.Arch. students.,When Offered: Fall term annually.,['ARCH 2510'],['ARCH 2510'],Architecture
+CITIES AND THEIR TERRITORIES,LEC,2,T,2:00PM,3:50PM,Christianna Grace Bennett,Ricketts Building 203,80,40,40,ARCH,2024-08-28,2024-12-20,FALL 2024,67828,4050,01,ARCH-4050,Cities And Their Territories,"This course focuses on design at the scale of cities and territories, examining the role of social equity & inclusion and ecological knowledge and responsibility as forces in the development of the built environment. This course will examine the ways that socio-economic, cultural, political, ecological, and technological factors impact urban form. Students will learn to communicate the role and responsibility of architects in ensuring equity and access to sites, buildings, and structures within urban and rural contexts. The course will also assess the dynamic between the built and natural environments, paths to mitigating climate change, professional and ecological responsibility, adaptation, resilience principles and advocacy activities at the scale of cities, territories and landscapes. Information literacy and the proper use of citations in scholarly writing are central to the course. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
+CITIES AND THEIR TERRITORIES,LEC,2,T,2:00PM,3:50PM,Mary Kate Cahill,TBA,30,39,-9,ARCH,2024-08-28,2024-12-20,FALL 2024,69171,4050,02,ARCH-4050,Cities And Their Territories,"This course focuses on design at the scale of cities and territories, examining the role of social equity & inclusion and ecological knowledge and responsibility as forces in the development of the built environment. This course will examine the ways that socio-economic, cultural, political, ecological, and technological factors impact urban form. Students will learn to communicate the role and responsibility of architects in ensuring equity and access to sites, buildings, and structures within urban and rural contexts. The course will also assess the dynamic between the built and natural environments, paths to mitigating climate change, professional and ecological responsibility, adaptation, resilience principles and advocacy activities at the scale of cities, territories and landscapes. Information literacy and the proper use of citations in scholarly writing are central to the course. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
+PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Matthew Joseph Lopez,Russell Sage Laboratory 2701,18,14,4,ARCH,2024-08-28,2024-12-20,FALL 2024,68685,4200,01,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth throughout an architect's career. Central to this course is the development of professional development skills in preparation for internships and a professional career in architecture, including the All-Institute ARCH AWAY experience. Students will have the ability to conceive, design, and construct a portfolio, using images and text, that integrates work examples exhibiting a diverse range of skills including, design studio, history theory, professional work, technical and environmental courses. Other skills covered include the design of a curriculum vitae tailored to architecture, and the allied design fields. This course provides an overview of how to establish an NCARB record and log AXP (experience credits), formulate a path to licensure including the AXP and the ARE (Architecture Registration Exam) and is coordinated with career development events, lectures, including Blast-off and the SoA career fair and formally introduces students to their NCARB mentor.",This course is required for 3rd year students,When Offered: Fall and spring terms annually.,[],[],Architecture
+PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Riley Studebaker,Russell Sage Laboratory 2707,18,17,1,ARCH,2024-08-28,2024-12-20,FALL 2024,68836,4200,02,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth throughout an architect's career. Central to this course is the development of professional development skills in preparation for internships and a professional career in architecture, including the All-Institute ARCH AWAY experience. Students will have the ability to conceive, design, and construct a portfolio, using images and text, that integrates work examples exhibiting a diverse range of skills including, design studio, history theory, professional work, technical and environmental courses. Other skills covered include the design of a curriculum vitae tailored to architecture, and the allied design fields. This course provides an overview of how to establish an NCARB record and log AXP (experience credits), formulate a path to licensure including the AXP and the ARE (Architecture Registration Exam) and is coordinated with career development events, lectures, including Blast-off and the SoA career fair and formally introduces students to their NCARB mentor.",This course is required for 3rd year students,When Offered: Fall and spring terms annually.,[],[],Architecture
+PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Adam Francis Petela,Russell Sage Laboratory 2112,18,14,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69603,4200,03,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth throughout an architect's career. Central to this course is the development of professional development skills in preparation for internships and a professional career in architecture, including the All-Institute ARCH AWAY experience. Students will have the ability to conceive, design, and construct a portfolio, using images and text, that integrates work examples exhibiting a diverse range of skills including, design studio, history theory, professional work, technical and environmental courses. Other skills covered include the design of a curriculum vitae tailored to architecture, and the allied design fields. This course provides an overview of how to establish an NCARB record and log AXP (experience credits), formulate a path to licensure including the AXP and the ARE (Architecture Registration Exam) and is coordinated with career development events, lectures, including Blast-off and the SoA career fair and formally introduces students to their NCARB mentor.",This course is required for 3rd year students,When Offered: Fall and spring terms annually.,[],[],Architecture
+ARCHITECTURE OF THE CITY,LEC,3,,,,Ciro Najle,TBA,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69067,4974,50,ARCH-4974,Architecture Of The City,,,,[],[],Architecture
+DESIGN RESEARCH STUDIO,LEC,4,TR,2:00PM,5:50PM,Alexandros Tsamis,TBA,15,2,13,ARCH,2024-08-28,2024-12-20,FALL 2024,68059,6350,81,ARCH-6350,Design Research Studio,"This initial studio segment will explore variable phases of data collection, processing, and synthesis through explorative visualization methods. These methods will bear the complexity of mapping dynamic forces present in nature juxtaposed to cultural and economical factors. Course taught in New York City.",,When Offered: Fall term annually.,[],[],Architecture
+URBAN DATA 1,LEC,3,R,10:00AM,12:50PM,James Fleet Hower,TBA,12,9,3,ARCH,2024-08-28,2024-12-20,FALL 2024,69745,4055,80,ARCH-4055,Urban Data 1,"Urban Data I examines the role of data representation and the use of web-based graphics and in contemporary design. This course teaches the power of combining the thought process and methods of an architect with increasingly sophisticated representational techniques that broaden the function of a traditional drawing. Students use publicly available datasets to interrogate a pressing urban problem. They research, represent, and propose design solutions using data they've collected to guide their decision-making process.",,When Offered: Fall annually,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman,Greene Building STU,50,3,47,ARCH,2024-08-28,2024-12-20,FALL 2024,67412,4770,01,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,50,12,38,ARCH,2024-08-28,2024-12-20,FALL 2024,67685,4770,03,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Edward Jeremy Keller/Christopher S Perry,Greene Building STU,30,13,17,ARCH,2024-08-28,2024-12-20,FALL 2024,67686,4770,04,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,30,16,14,ARCH,2024-08-28,2024-12-20,FALL 2024,68689,4770,05,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,30,16,14,ARCH,2024-08-28,2024-12-20,FALL 2024,68693,4770,06,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,30,8,22,ARCH,2024-08-28,2024-12-20,FALL 2024,69584,4770,07,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Caleb White,Greene Building STU,20,1,19,ARCH,2024-08-28,2024-12-20,FALL 2024,69910,4770,08,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
 ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWF,2:00PM,5:50PM,Ciro Najle,Greene Building STU,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69064,4770,50,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-ARCHITECTURAL DESIGN STUDIO 5,LEC,5,TR,2:00PM,5:50PM,James Fleet Hower,Greene Building STU,12,12,0,ARCH,2024-08-28,2024-12-20,FALL 2024,68054,4770,80,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
-SENTIENT SPACES,LEC,2,F,2:00PM,4:00PM,Claire Eileen Moriarty,Troy Building 2015,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69782,4960,01,ARCH-4960,Sentient Spaces,,,,[],[],Architecture
-RENAISSANCE & BAROQUE ARCH,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69068,4975,50,ARCH-4975,Renaissance & Baroque Arch,,,,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MR,2:00PM,5:50PM,James Fleet Hower,Greene Building STU,12,8,4,ARCH,2024-08-28,2024-12-20,FALL 2024,68054,4770,80,ARCH-4770,Architectural Design Studio 5,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770 & ARCH 4780  are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770 & ARCH 4780, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+SENTIENT SPACES,LEC,2,F,2:00PM,4:00PM,Claire Eileen Moriarty,Low Center for Industrial Inn. 4040,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,69782,4960,01,ARCH-4960,Sentient Spaces,,,,[],[],Architecture
+RENAISSANCE & BAROQUE ARCH,LEC,3,,,,Ciro Najle,TBA,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69068,4975,50,ARCH-4975,Renaissance & Baroque Arch,,,,[],[],Architecture
 BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,John Clifford Loercher,Troy Building 2018,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69587,5320,01,ARCH-5320,Building Integration 1: Design,This course provides critical,Prerequisites/Corequisites: ARCH 5300 and ARCH 5310,When Offered: Fall term annually.,"['ARCH 5300', 'ARCH 5310']","['ARCH 5300', 'ARCH 5310']",Architecture
 BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Arta Yazdanseta,Carnegie Building 210,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,69838,5320,02,ARCH-5320,Building Integration 1: Design,This course provides critical,Prerequisites/Corequisites: ARCH 5300 and ARCH 5310,When Offered: Fall term annually.,"['ARCH 5300', 'ARCH 5310']","['ARCH 5300', 'ARCH 5310']",Architecture
+DOCTORAL SEMINAR 1,LEC,2,R,10:00AM,11:50AM,Jonas Braasch,Greene Building 204,5,2,3,ARCH,2024-08-28,2024-12-20,FALL 2024,69959,6910,01,ARCH-6910,Doctoral Seminar 1,"This seminar introduces a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",,When Offered: Fall and spring terms annually.,[],[],Architecture
 DOCTORAL SEMINAR 1,LEC,2,R,10:00AM,11:50AM,Alexandros Tsamis,TBA,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,68250,6910,80,ARCH-6910,Doctoral Seminar 1,"This seminar introduces a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",,When Offered: Fall and spring terms annually.,[],[],Architecture
-MATERIALS SYSTEMS & PRODUCTION,LEC,3,M,2:00PM,4:50PM,Joshua William Hugo Draper,TBA,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,68053,4580,80,ARCH-4580,Materials Systems & Production,"The goal of Material Systems and Production is threefold: to develop a fundamental understanding of materials through first principles, classification, production, and impacts, to develop models for material properties and testing, and to develop criteria to make reasoned choices for the implementation of materials in the built environment. Students will engage in directed research projects with the intent of opportunistically identifying intrinsic material properties, exploiting production-forming logics, and developing a prototype detail assembly for testing.  Course taught specifically at CASE in NYC",,When Offered: Spring term annually.,[],[],Architecture
-ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman,Greene Building STU,20,1,19,ARCH,2024-08-28,2024-12-20,FALL 2024,67655,4780,01,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
-ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,68699,4780,02,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
-ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,40,2,38,ARCH,2024-08-28,2024-12-20,FALL 2024,67656,4780,03,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+MATERIALS SYSTEMS & PRODUCTION,LEC,3,T,2:00PM,4:50PM,Joshua William Hugo Draper,TBA,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,68053,4580,80,ARCH-4580,Materials Systems & Production,"The goal of Material Systems and Production is threefold: to develop a fundamental understanding of materials through first principles, classification, production, and impacts, to develop models for material properties and testing, and to develop criteria to make reasoned choices for the implementation of materials in the built environment. Students will engage in directed research projects with the intent of opportunistically identifying intrinsic material properties, exploiting production-forming logics, and developing a prototype detail assembly for testing.  Course taught specifically at CASE in NYC",,When Offered: Spring term annually.,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,67655,4780,01,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,20,2,18,ARCH,2024-08-28,2024-12-20,FALL 2024,68699,4780,02,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,40,0,40,ARCH,2024-08-28,2024-12-20,FALL 2024,67656,4780,03,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWF,2:00PM,5:50PM,Edward Jeremy Keller,Greene Building STU,20,1,19,ARCH,2024-08-28,2024-12-20,FALL 2024,70063,4780,04,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
 ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,68690,4780,05,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
-ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,68694,4780,06,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
-ARCHITECTURAL DESIGN STUDIO 6,LEC,5,M,2:00PM,5:50PM,Caleb White,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69911,4780,08,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,20,1,19,ARCH,2024-08-28,2024-12-20,FALL 2024,68694,4780,06,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Caleb White,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69911,4780,08,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
 ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Ciro Najle,Greene Building STU,18,0,18,ARCH,2024-08-28,2024-12-20,FALL 2024,69065,4780,50,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
-ARCHITECTURAL DESIGN STUDIO 6,LEC,5,TR,2:00PM,5:50PM,James Fleet Hower,Greene Building STU,12,1,11,ARCH,2024-08-28,2024-12-20,FALL 2024,68055,4780,80,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MR,2:00PM,5:50PM,James Fleet Hower,Greene Building STU,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,68055,4780,80,ARCH-4780,Architectural Design Studio 6,"This is third year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including but not limited to, advanced fabrication, institutional & civic buildings, urban design, landscape architecture, community stakeholders. ARCH 4770  & ARCH 4780 are available at CASE NY, and the SoA Study Abroad programs. Students apply for this studio based on their personal interest and professional objectives. ARCH 4770  & ARCH 4780, are required for the degree. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,"['ARCH 4770', 'ARCH 4770', 'ARCH 4770']","['ARCH 4770', 'ARCH 4770', 'ARCH 4770']",Architecture
 INTRO RESTRATN OF HISTORIC BLD,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69798,4976,50,ARCH-4976,Intro Restratn Of Historic Bld,,,,[],[],Architecture
-URBAN DATA 1,LEC,3,R,10:00AM,12:50PM,James Fleet Hower,TBA,8,3,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69746,6055,80,ARCH-6055,Urban Data 1,"Urban Data I examines the role of data representation and the use of web-based graphics and in contemporary design. This course teaches the power of combining the thought process and methods of an architect with increasingly sophisticated representational techniques that broaden the function of a traditional drawing. Students use publicly available datasets to interrogate a pressing urban problem. They research, represent, and propose design solutions using data they've collected to guide their decision-making process.",,When Offered: Fall annually,[],[],Architecture
+URBAN DATA 1,LEC,3,R,10:00AM,12:50PM,James Fleet Hower,TBA,8,1,7,ARCH,2024-08-28,2024-12-20,FALL 2024,69746,6055,80,ARCH-6055,Urban Data 1,"Urban Data I examines the role of data representation and the use of web-based graphics and in contemporary design. This course teaches the power of combining the thought process and methods of an architect with increasingly sophisticated representational techniques that broaden the function of a traditional drawing. Students use publicly available datasets to interrogate a pressing urban problem. They research, represent, and propose design solutions using data they've collected to guide their decision-making process.",,When Offered: Fall annually,[],[],Architecture
 MASTER'S PROJECT,LEC,1-9,,,,Arta Yazdanseta,TBA,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69849,6980,01,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
-MASTER'S PROJECT,LEC,4,R,2:00PM,5:50PM,Edward Jeremy Keller/Christianna Grace Bennett,TBA,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,67220,6980,81,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
-MASTER'S PROJECT,LEC,1-9,,,,Dennis Robert Shelden,TBA,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69848,6980,82,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
-MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69850,6980,83,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
+MASTER'S PROJECT,LEC,1-9,R,2:00PM,5:50PM,Christianna Grace Bennett/Christopher S Perry,TBA,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,67220,6980,81,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
+MASTER'S PROJECT,LEC,1-9,,,,Dennis Robert Shelden,TBA,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69848,6980,82,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
 MASTER'S PROJECT,LEC,1-9,,,,Alexandros Tsamis,TBA,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69851,6980,84,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
-DESIGN PROGRAMMING 1,LEC,3,T,1:00PM,4:00PM,Dennis Robert Shelden,Peoples Ave Complex J 3402,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,69747,4065,01,ARCH-4065,Design Programming 1,"Design Programming 1 provides an accelerated introduction to computer programming for design professionals including instruction in 2D and 3D graphics, Web applications, and building data. The course provides an accelerated introduction to prevalent programming languages and constructs, graphics libraries and development environments. The course spans from an introduction to the basic concepts of general programming, object oriented programming and 2D graphics through basic web design, 3D graphics on the web building data modeling and web database integration. This class is oriented to students who are interested in going beyond simply using 2D and 3D programs, who want to better understand the technologies behind these tools, and access capabilities beyond those of simple scripting. Students develop a web based design modeling application targeting their domain of design interest over the course of the semester, as well as learning technical skills through weekly exercises.",,When Offered: Fall annually,[],[],Architecture
-ENTREPRENEURSHIP &ARCHITECTURE,LEC,2,M,10:00AM,11:50AM,Alec Walker/Daniel Stratford,Russell Sage Laboratory 3101,50,50,0,ARCH,2024-08-28,2024-12-20,FALL 2024,68831,4590,01,ARCH-4590,Entrepreneurship &ARCHITECTURE,"This course provides students with professional career skills, and entrepreneurial business models for collaborative teamwork and leadership. In this course students will discover and define business opportunities via a user-centered approach; learn to design, test, and refine products/services to address an ambiguous problem or opportunity; create and evaluate sustainable business models; communicate business opportunities to motivate investors, employees, and customers; and learn to contribute to successful startup team dynamics. This course is required of all third-year architecture undergraduates in the B.Arch. program.",none.,When Offered: Fall and Spring terms annually.,[],[],Architecture
-ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,67829,4790,01,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
-ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,68700,4790,02,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
-ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,57,54,3,ARCH,2024-08-28,2024-12-20,FALL 2024,69565,4790,03,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
-ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,20,2,18,ARCH,2024-08-28,2024-12-20,FALL 2024,68676,4790,06,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
-ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69173,4790,07,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
-RADICAL AMBIENCE,LEC,2,W,6:30PM,8:30PM,Edward Jeremy Keller,Jonsson-Rowland Science Center 1W01,9,9,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69839,4962,01,ARCH-4962,Radical Ambience,,,,[],[],Architecture
-TO ROME WITH LOVE,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69069,4977,50,ARCH-4977,To Rome With Love,,,,[],[],Architecture
-GRADUATE ENVIRONMENTAL PARAMETRICS,LEC,3,T,11:00AM,1:10PM,Charles A. Portelli,TBA,15,1,14,ARCH,2024-08-28,2024-12-20,FALL 2024,68839,6380,80,ARCH-6380,Graduate Environmental Parametrics,"This course is an intensive workshop in parametric modeling with specialized focus on environmental simulation and sustainable design. Students learn tools to navigate the intersection of environmental design and computational workflows by mastering parametric modeling and optimization for sustainability. Students gain proficiency in using parametric applications as both an analytical tool and a generative design device. The course exposes students to feedback loops between environmental analysis and design decision, fostering performance-based design strategies. Students explore the integration of parametric modeling with building energy modeling and bioclimatic analysis. Project based exercises are developed to address ecological design principles and optimize systems for multi-variable trade-offs. This course is designed for both graduate and undergraduate students seeking to advance their skills in environmentally-driven design through computational methods. By leveraging the course's resources and instructor's expertise, students develop a deeper understanding of the relationship between design choices and ecological impact. Environmental parametric is taught as a hybrid course, available online to students on campus and in person at the CASE center in New York City.  This course is required of all architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
-BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,John Clifford Loercher,Troy Building 2018,60,19,41,ARCH,2024-08-28,2024-12-20,FALL 2024,69577,4320,01,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
-BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Arta Yazdanseta,Carnegie Building 210,20,1,19,ARCH,2024-08-28,2024-12-20,FALL 2024,69578,4320,02,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
-BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Ukwatte Lokuliyanage Indika Upendra Perera,Russell Sage Laboratory 2707,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69579,4320,03,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
-BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Emir Aykut Pekdemir,Russell Sage Laboratory 3705,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69580,4320,04,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
-BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,TBA,TBA,20,0,20,ARCH,2024-08-28,2024-12-20,FALL 2024,69581,4320,05,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
-PROJECTING LIGHTSCAPES,LEC,2,T,10:00AM,12:00PM,Yael Erel,Russell Sage Laboratory 2704,9,1,8,ARCH,2024-08-28,2024-12-20,FALL 2024,68249,4963,01,ARCH-4963,Projecting Lightscapes,,,,[],[],Architecture
-HISTORY OF ITALIAN DESIGN,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69070,4978,50,ARCH-4978,History Of Italian Design,,,,[],[],Architecture
-DESIGN PROGRAMMING 1,LEC,3,T,1:00PM,4:00PM,Dennis Robert Shelden,Peoples Ave Complex J 3402,12,1,11,ARCH,2024-08-28,2024-12-20,FALL 2024,69748,6065,01,ARCH-6065,Design Programming 1,"Design Programming 1 provides an accelerated introduction to computer programming for design professionals including instruction in 2D and 3D graphics, Web applications, and building data. The course provides an accelerated introduction to prevalent programming languages and constructs, graphics libraries and development environments. The course spans from an introduction to the basic concepts of general programming, object oriented programming and 2D graphics through basic web design, 3D graphics on the web building data modeling and web database integration. This class is oriented to students who are interested in going beyond simply using 2D and 3D programs, who want to better understand the technologies behind these tools, and access capabilities beyond those of simple scripting. Students develop a web based design modeling application targeting their domain of design interest over the course of the semester, as well as learning technical skills through weekly exercises.",,When Offered: Fall annually,[],[],Architecture
+DESIGN PROGRAMMING 1,LEC,3,T,1:00PM,4:00PM,Dennis Robert Shelden,Peoples Ave Complex J 3402,12,2,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69747,4065,01,ARCH-4065,Design Programming 1,"Design Programming 1 provides an accelerated introduction to computer programming for design professionals including instruction in 2D and 3D graphics, Web applications, and building data. The course provides an accelerated introduction to prevalent programming languages and constructs, graphics libraries and development environments. The course spans from an introduction to the basic concepts of general programming, object oriented programming and 2D graphics through basic web design, 3D graphics on the web building data modeling and web database integration. This class is oriented to students who are interested in going beyond simply using 2D and 3D programs, who want to better understand the technologies behind these tools, and access capabilities beyond those of simple scripting. Students develop a web based design modeling application targeting their domain of design interest over the course of the semester, as well as learning technical skills through weekly exercises.",,When Offered: Fall annually,[],[],Architecture
+ENTREPRENEURSHIP &ARCHITECTURE,LEC,2,M,10:00AM,11:50AM,Alec Walker/Daniel Stratford,Russell Sage Laboratory 3101,50,56,-6,ARCH,2024-08-28,2024-12-20,FALL 2024,68831,4590,01,ARCH-4590,Entrepreneurship &ARCHITECTURE,"This course provides students with professional career skills, and entrepreneurial business models for collaborative teamwork and leadership. In this course students will discover and define business opportunities via a user-centered approach; learn to design, test, and refine products/services to address an ambiguous problem or opportunity; create and evaluate sustainable business models; communicate business opportunities to motivate investors, employees, and customers; and learn to contribute to successful startup team dynamics. This course is required of all third-year architecture undergraduates in the B.Arch. program.",none.,When Offered: Fall and Spring terms annually.,[],[],Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman,Greene Building STU,20,17,3,ARCH,2024-08-28,2024-12-20,FALL 2024,67829,4790,01,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,20,9,11,ARCH,2024-08-28,2024-12-20,FALL 2024,68700,4790,02,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,57,8,49,ARCH,2024-08-28,2024-12-20,FALL 2024,69565,4790,03,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Edward Jeremy Keller,Greene Building STU,20,5,15,ARCH,2024-08-28,2024-12-20,FALL 2024,70064,4790,04,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,20,6,14,ARCH,2024-08-28,2024-12-20,FALL 2024,68676,4790,06,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,20,2,18,ARCH,2024-08-28,2024-12-20,FALL 2024,69173,4790,07,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,MWR,2:00PM,5:50PM,Caleb White,Greene Building STU,30,10,20,ARCH,2024-08-28,2024-12-20,FALL 2024,70022,4790,08,ARCH-4790,Architectural Desgin Studio 7,"This fifth-year architectural design studio employs a design research format to investigate a range of contemporary topics of interest to the discipline, including advanced fabrication, institutional & civic buildings, urban design, landscape architecture, and community stakeholders. Students apply for this studio based on their personal interest and professional objectives. This course is offered in the fall semester and is required of all architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite: ARCH 4780 and ARCH 4830,When Offered: Fall term annually.,"['ARCH 4780', 'ARCH 4830']","['ARCH 4780', 'ARCH 4830']",Architecture
+RADICAL AMBIENCE,LEC,2,W,6:30PM,8:30PM,Edward Jeremy Keller,Greene Building 120,9,8,1,ARCH,2024-08-28,2024-12-20,FALL 2024,69839,4962,01,ARCH-4962,Radical Ambience,,,,[],[],Architecture
+TO ROME WITH LOVE,LEC,3,,,,Ciro Najle,TBA,7,7,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69069,4977,50,ARCH-4977,To Rome With Love,,,,[],[],Architecture
+GRADUATE ENVIRONMENTAL PARAMETRICS,LEC,3,T,11:00AM,1:10PM,Charles A. Portelli,TBA,15,0,15,ARCH,2024-08-28,2024-12-20,FALL 2024,68839,6380,80,ARCH-6380,Graduate Environmental Parametrics,"This course is an intensive workshop in parametric modeling with specialized focus on environmental simulation and sustainable design. Students learn tools to navigate the intersection of environmental design and computational workflows by mastering parametric modeling and optimization for sustainability. Students gain proficiency in using parametric applications as both an analytical tool and a generative design device. The course exposes students to feedback loops between environmental analysis and design decision, fostering performance-based design strategies. Students explore the integration of parametric modeling with building energy modeling and bioclimatic analysis. Project based exercises are developed to address ecological design principles and optimize systems for multi-variable trade-offs. This course is designed for both graduate and undergraduate students seeking to advance their skills in environmentally-driven design through computational methods. By leveraging the course's resources and instructor's expertise, students develop a deeper understanding of the relationship between design choices and ecological impact. Environmental parametric is taught as a hybrid course, available online to students on campus and in person at the CASE center in New York City.  This course is required of all architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
+BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,John Clifford Loercher,Troy Building 2018,60,11,49,ARCH,2024-08-28,2024-12-20,FALL 2024,69577,4320,01,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
+BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Arta Yazdanseta,Carnegie Building 210,20,7,13,ARCH,2024-08-28,2024-12-20,FALL 2024,69578,4320,02,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
+BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Ukwatte Lokuliyanage Indika Upendra Perera,TBA,20,8,12,ARCH,2024-08-28,2024-12-20,FALL 2024,69579,4320,03,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
+BUILDING INTEGRATION 1: DESIGN,LEC,3,R,10:00AM,12:50PM,Emir Aykut Pekdemir,TBA,20,4,16,ARCH,2024-08-28,2024-12-20,FALL 2024,69580,4320,04,ARCH-4320,Building Integration 1: Design,"This course provides critical technical knowledge and skills for students to critically address environmental building regulations and the practice of health safety and welfare in the design of the built environment. It prepares students with the necessary foundational knowledge to work collaboratively with adjacent expert professionals to foster an integrative design process and places emphasis on developing critical approaches to both active and passive building systems and building enclosures. The course will deliver material through lectures, software tutorials and skill building workshops and requires the students to have a baseline of established knowledge on the subjects. As such, this class cannot be taken without first passing the pre-requisite courses, Construction Systems (CS) and Environmental and Ecological Systems (EES). This course is required of all 4th year architecture undergraduates in the B.Arch. Program.",Prerequisite: ARCH 2350 and ARCH 2360; Corequisite: ARCH 4820,When Offered: Fall term annually.,"['ARCH 2350', 'ARCH 2360', 'ARCH 4820']","['ARCH 2350', 'ARCH 2360', 'ARCH 4820']",Architecture
+PROJECTING LIGHTSCAPES,LEC,2,T,10:00AM,11:50AM,Yael Erel,Russell Sage Laboratory 2704,9,3,6,ARCH,2024-08-28,2024-12-20,FALL 2024,68249,4963,01,ARCH-4963,Projecting Lightscapes,,,,[],[],Architecture
+HISTORY OF ITALIAN DESIGN,LEC,3,,,,Ciro Najle,TBA,4,4,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69070,4978,50,ARCH-4978,History Of Italian Design,,,,[],[],Architecture
+DESIGN PROGRAMMING 1,LEC,3,T,1:00PM,4:00PM,Dennis Robert Shelden,Peoples Ave Complex J 3402,12,2,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69748,6065,01,ARCH-6065,Design Programming 1,"Design Programming 1 provides an accelerated introduction to computer programming for design professionals including instruction in 2D and 3D graphics, Web applications, and building data. The course provides an accelerated introduction to prevalent programming languages and constructs, graphics libraries and development environments. The course spans from an introduction to the basic concepts of general programming, object oriented programming and 2D graphics through basic web design, 3D graphics on the web building data modeling and web database integration. This class is oriented to students who are interested in going beyond simply using 2D and 3D programs, who want to better understand the technologies behind these tools, and access capabilities beyond those of simple scripting. Students develop a web based design modeling application targeting their domain of design interest over the course of the semester, as well as learning technical skills through weekly exercises.",,When Offered: Fall annually,[],[],Architecture
 MASTER'S THESIS,LEC,2,,,,Arta Yazdanseta,TBA,5,0,5,ARCH,2024-08-28,2024-12-20,FALL 2024,68682,6990,01,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
 MASTER'S THESIS,LEC,2,W,9:00AM,11:00AM,Dennis Robert Shelden,TBA,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,68683,6990,02,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
 MASTER'S THESIS,LEC,2,,,,Joshua William Hugo Draper,TBA,5,0,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69840,6990,03,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
-MASTER'S THESIS,LEC,2,,,,TBA,TBA,5,0,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69841,6990,04,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
-MASTER'S THESIS,LEC,2,W,9:00AM,11:00AM,Alexandros Tsamis,TBA,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,66452,6990,80,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
-COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Marcus Carter,Greene Building STU,72,27,45,ARCH,2024-08-28,2024-12-20,FALL 2024,68992,4820,02,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
-COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Leandro Piazzi,Greene Building STU,12,3,9,ARCH,2024-08-28,2024-12-20,FALL 2024,68109,4820,03,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
-COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Jefferson A Ellinger,Greene Building STU,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,68993,4820,04,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
-COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Adam Francis Petela,Greene Building STU,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,69592,4820,06,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
-COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Emily Gruendel,Greene Building STU,12,2,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69593,4820,07,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,5,2,3,ARCH,2024-08-28,2024-12-20,FALL 2024,69841,6990,04,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+MASTER'S THESIS,LEC,2,,,,Ning Xiang,TBA,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,70021,6990,05,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+MASTER'S THESIS,LEC,2,W,9:00AM,11:00AM,Alexandros Tsamis,TBA,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,66452,6990,80,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Marcus Carter,Greene Building STU,72,8,64,ARCH,2024-08-28,2024-12-20,FALL 2024,68992,4820,02,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
+COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Leandro Piazzi,Greene Building STU,12,7,5,ARCH,2024-08-28,2024-12-20,FALL 2024,68109,4820,03,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
+COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Jefferson A Ellinger,Greene Building STU,12,7,5,ARCH,2024-08-28,2024-12-20,FALL 2024,68993,4820,04,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
+COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Adam Francis Petela,Greene Building STU,12,7,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69592,4820,06,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
+COMPREHENSIVE DESIGN STUDIO 1,LEC,5,MWR,2:00PM,5:50PM,Emily Gruendel,Greene Building STU,12,8,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69593,4820,07,ARCH-4820,Comprehensive Design Studio 1,"The focus of this studio is the design and programming of a civic building in an urban setting. In this course, ""students develop the ability to make design decisions within an architectural project while demonstrating synthesis of user requirements, regulatory requirements, site conditions, and accessible design, and consideration of the measurable environmental impacts of their design decisions."" NAAB (SC.5 Design Synthesis). This course is required of all fourth-year architecture undergraduates in the B.Arch. Program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisite:ARCH 2550 and ARCH 2830 Corequisite: ARCH 4540 and ARCH 4320,When Offered: Fall term annually.,"['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']","['ARCH 2550', 'ARCH 2830', 'ARCH 4540', 'ARCH 4320']",Architecture
 FASHION & ARCHITECTURE,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69071,4979,50,ARCH-4979,Fashion & Architecture,,,,[],[],Architecture
 ARCHITECTURE DISSERTATION,LEC,1-15,,,,Ning Xiang,TBA,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69785,9990,01,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
 ARCHITECTURE DISSERTATION,LEC,1-15,,,,Alexandros Tsamis,TBA,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,65482,9990,02,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
-ARCHITECTURE DISSERTATION,LEC,1-15,,,,Jonas Braasch,TBA,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,66453,9990,03,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,,,,Jonas Braasch,TBA,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,66453,9990,03,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
 ARCHITECTURE DISSERTATION,LEC,1-15,,,,Arta Yazdanseta,TBA,5,1,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69842,9990,04,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
 ARCHITECTURE DISSERTATION,LEC,1-15,,,,Dennis Robert Shelden,TBA,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,68677,9990,05,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
 ARCHITECTURE DISSERTATION,LEC,1-15,,,,TBA,TBA,5,0,5,ARCH,2024-08-28,2024-12-20,FALL 2024,68678,9990,06,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
-STRUCTURES 2,LEC,3,TF,12:00PM,1:20PM,Marc Anthony Tatarsky,Ricketts Building 211,63,63,0,ARCH,2024-08-28,2024-12-20,FALL 2024,67653,4330,01,ARCH-4330,Structures 2,"This course builds on the material presented in ARCH 2330, with the analysis and design of structures comprising steel, concrete, timber, and masonry. The theoretical concepts covered in the introductory course form the conceptual basis for work in Structures 2, with relevant new concepts/techniques covered. Students will explore load transfer in different structural assemblies and consider how seismic and other complex loading can impact architectural considerations. Innovative, non-normative structural systems are investigated and discussed. Design optimization approaches are introduced and explored as avenues to accomplish more optimum design conditions under increasingly strict design constraints. The course approach will involve in class presentations, homework, exams, worked problems, and case studies. This course is required of all third-year architecture undergraduates in the B.Arch. program.","Prerequisites: ARCH 2510 except M.Arch. students, ARCH 2350, ARCH 2330",When Offered: Fall and Spring terms annually.,"['ARCH 2330', 'ARCH 2510', 'ARCH 2350', 'ARCH 2330']","['ARCH 2330', 'ARCH 2510', 'ARCH 2350', 'ARCH 2330']",Architecture
-CERAMIC ASSEMBLIES,LEC,2,F,12:00PM,1:50PM,John Rhett Russo,Low Center for Industrial Inn. 3130,10,10,0,ARCH,2024-08-28,2024-12-20,FALL 2024,68990,4965,01,ARCH-4965,Ceramic Assemblies,,,,[],[],Architecture
+STRUCTURES 2,LEC,3,TF,12:00PM,1:20PM,Marc Anthony Tatarsky,Ricketts Building 211,63,62,1,ARCH,2024-08-28,2024-12-20,FALL 2024,67653,4330,01,ARCH-4330,Structures 2,"This course builds on the material presented in ARCH 2330, with the analysis and design of structures comprising steel, concrete, timber, and masonry. The theoretical concepts covered in the introductory course form the conceptual basis for work in Structures 2, with relevant new concepts/techniques covered. Students will explore load transfer in different structural assemblies and consider how seismic and other complex loading can impact architectural considerations. Innovative, non-normative structural systems are investigated and discussed. Design optimization approaches are introduced and explored as avenues to accomplish more optimum design conditions under increasingly strict design constraints. The course approach will involve in class presentations, homework, exams, worked problems, and case studies. This course is required of all third-year architecture undergraduates in the B.Arch. program.","Prerequisites: ARCH 2510 except M.Arch. students, ARCH 2350, ARCH 2330",When Offered: Fall and Spring terms annually.,"['ARCH 2330', 'ARCH 2510', 'ARCH 2350', 'ARCH 2330']","['ARCH 2330', 'ARCH 2510', 'ARCH 2350', 'ARCH 2330']",Architecture
+CERAMIC ASSEMBLIES,LEC,2,F,12:00PM,1:50PM,John Rhett Russo,Low Center for Industrial Inn. 3130,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,68990,4965,01,ARCH-4965,Ceramic Assemblies,,,,[],[],Architecture
 "HISTORY, THEORY, CRITICISM I",LEC,4,MR,10:00AM,11:20AM,David H Bell,Greene Building 117,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,67419,5100,01,ARCH-5100,"HISTORY, THEORY, Criticism I","This course will examine the spectrum of architectural phenomena and ideas without a specific chronology using examples ranging from antiquity to the contemporary world in western and non-western civilizations and produced in both vernacular and disciplinary cultures. An essential part of this course is to stimulate students' curiosity about architecture and the larger world and introduce them to key issues of architecture regarding space, form, critique, technology, aesthetics, societal and cultural contexts, etc. Particular emphasis will be given to the emergence of modernism in architecture. Crucial to the goals of this course is to encourage students to pursue and develop their own unique vision and voice in architecture throughout their education and practice. Fundamental to this process is making students aware of the necessity to challenge their own subjectivities, biases, and presuppositions. In addition to class meetings with ARCH 2150, this course meets regularly for recitation sessions. This course is required of all first-year architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
 THE ETHOS OF ARCHITECTURE,LEC,3,MR,10:00AM,11:20AM,David H Bell,Greene Building 117,90,71,19,ARCH,2024-08-28,2024-12-20,FALL 2024,67206,2150,01,ARCH-2150,The Ethos Of Architecture,"This course will examine the spectrum of architectural phenomena and ideas without a specific chronology using examples ranging from antiquity to the contemporary world in western and non-western civilizations and produced in both vernacular and disciplinary cultures. An essential part of this course is to stimulate students' curiosity about architecture and the larger world and introduce them to key issues of architecture regarding space, form, critique, technology, aesthetics, societal and cultural contexts, etc. Particular emphasis will be given to the emergence of modernism in architecture. Crucial to the goals of this course is to encourage students to pursue and develop their own unique vision and voice in architecture throughout their education and practice. Fundamental to this process is making students aware of the necessity to challenge their own subjectivities, biases, and presuppositions. This course is required of all architecture undergraduates in the B.Arch. program.",None.,When Offered: Fall term annually.,[],[],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Anthony Titus,Greene Building STU,70,41,29,ARCH,2024-08-28,2024-12-20,FALL 2024,67260,2800,02,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Anthony Titus,Greene Building STU,70,41,29,ARCH,2024-08-28,2024-12-20,FALL 2024,67260,2800,02,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Anthony Titus,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,67261,2800,03,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,6:00PM,7:50PM,Anthony Titus,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,67261,2800,03,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Walaid Sehwail,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69072,2800,04,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Walaid Sehwail,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69072,2800,04,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Walaid Sehwail,Greene Building STU,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,67262,2800,05,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,4:00PM,5:50PM,Walaid Sehwail,Greene Building STU,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,67262,2800,05,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Claire Eileen Moriarty,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,67684,2800,06,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Claire Eileen Moriarty,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,67684,2800,06,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Miguel Matos,Greene Building STU,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,69365,2800,07,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,6:00PM,7:50PM,Miguel Matos,Greene Building STU,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,69365,2800,07,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Miguel Matos,Greene Building STU,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,68829,2800,08,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,4:00PM,5:50PM,Miguel Matos,Greene Building STU,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,68829,2800,08,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,3:50PM,Kyle Reese Troyer,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69381,2800,13,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Kyle Reese Troyer,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69381,2800,13,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,3:50PM,Kyle Reese Troyer,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69445,2800,14,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,6:00PM,7:50PM,Kyle Reese Troyer,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69445,2800,14,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
-ARCHITECTURAL ACOUSTICS 1,LEC,4,F,2:00PM,5:50PM,David William Kahn,Greene Building 204,15,8,7,ARCH,2024-08-28,2024-12-20,FALL 2024,65323,4840,01,ARCH-4840,Architectural Acoustics 1,"This course provides an overview of the essentials for architectural acoustics design of performance and public spaces, including concert halls, theaters, museums, classrooms, sports arenas, courtrooms, and religious buildings. There are no prerequisites, but the course may be used as the starting point for a certificate in Architectural Acoustics, a concentration in an architecture student's professional electives, or the beginning of a master's degree in acoustics. The course covers basic principles of sound, room acoustics, sound absorption in rooms, sound isolation and privacy, acoustics of mechanical systems, and sound quality. After both Architectural Acoustics 1 and 2, the student should be prepared for a basic entry-level position in either acoustics in architecture or in acoustical consulting.",,When Offered: Fall term annually.,[],[],Architecture
-LATIN AMERICAN STUDIES,LEC,2,T,10:00AM,11:50AM,Selma Cohen,Carnegie Building 210,14,15,-1,ARCH,2024-08-28,2024-12-20,FALL 2024,68856,4966,01,ARCH-4966,Latin American Studies,,,,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Anthony Titus,Greene Building STU,70,9,61,ARCH,2024-08-28,2024-12-20,FALL 2024,67260,2800,02,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Anthony Titus,Greene Building STU,70,9,61,ARCH,2024-08-28,2024-12-20,FALL 2024,67260,2800,02,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Anthony Titus,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,67261,2800,03,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,4:00PM,5:50PM,Anthony Titus,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,67261,2800,03,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Walaid Sehwail,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69072,2800,04,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Walaid Sehwail,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69072,2800,04,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Walaid Sehwail,Greene Building STU,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,67262,2800,05,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,6:00PM,7:50PM,Walaid Sehwail,Greene Building STU,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,67262,2800,05,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Claire Eileen Moriarty,Greene Building STU,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,67684,2800,06,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Claire Eileen Moriarty,Greene Building STU,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,67684,2800,06,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Miguel Matos,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69365,2800,07,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,6:00PM,7:50PM,Miguel Matos,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69365,2800,07,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Miguel Matos,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,68829,2800,08,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,2:00PM,3:50PM,Miguel Matos,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,68829,2800,08,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,5:50PM,Claire Eileen Moriarty,Greene Building STU,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69978,2800,09,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,4:00PM,5:00PM,Claire Eileen Moriarty,Greene Building STU,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69978,2800,09,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,3:50PM,Kyle Reese Troyer,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69381,2800,13,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,4:00PM,5:50PM,Kyle Reese Troyer,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69381,2800,13,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,MR,2:00PM,3:50PM,Kyle Reese Troyer,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,69445,2800,14,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL DESIGN STUDIO 1,LEC,5,W,6:00PM,7:50PM,Kyle Reese Troyer,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,69445,2800,14,ARCH-2800,Architectural Design Studio 1,"This course introduces students to design as a way of thinking, creating, and making through a series of short projects. The projects stress critical and creative thinking and invention, interdisciplinary collaboration, observation and perception, communication and visualization. Using sketching, photography, model making, and computing students pursue open-ended investigations of form, space, materials, and the ideas that both generate and are generated by them. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Corequisite: ARCH 2520,When Offered: Fall term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ARCHITECTURAL ACOUSTICS 1,LEC,4,F,2:00PM,5:50PM,David William Kahn,Greene Building 204,15,9,6,ARCH,2024-08-28,2024-12-20,FALL 2024,65323,4840,01,ARCH-4840,Architectural Acoustics 1,"This course provides an overview of the essentials for architectural acoustics design of performance and public spaces, including concert halls, theaters, museums, classrooms, sports arenas, courtrooms, and religious buildings. There are no prerequisites, but the course may be used as the starting point for a certificate in Architectural Acoustics, a concentration in an architecture student's professional electives, or the beginning of a master's degree in acoustics. The course covers basic principles of sound, room acoustics, sound absorption in rooms, sound isolation and privacy, acoustics of mechanical systems, and sound quality. After both Architectural Acoustics 1 and 2, the student should be prepared for a basic entry-level position in either acoustics in architecture or in acoustical consulting.",,When Offered: Fall term annually.,[],[],Architecture
+LATIN AMERICAN STUDIES,LEC,2,T,10:00AM,11:50AM,Selma Cohen,Greene Building ,14,13,1,ARCH,2024-08-28,2024-12-20,FALL 2024,68856,4966,01,ARCH-4966,Latin American Studies,,,,[],[],Architecture
 BLDG INFORMATION MODELING,LEC,3,W,10:00AM,12:50PM,Dennis Robert Shelden,TBA,10,10,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69753,4966,80,ARCH-4966,Bldg Information Modeling,,,,[],[],Architecture
-ARCHITECTURAL MEDIA,LEC,2,R,12:00PM,1:50PM,Anthony Titus,Low Center for Industrial Inn. 4050,90,63,27,ARCH,2024-08-28,2024-12-20,FALL 2024,69332,2160,01,ARCH-2160,Architectural Media,"This course continues the inquiry begun in ARCH 2150 and focuses especially on the implications that various media and means of representation have on the breadth of concerns within the history, theory, and critical practices of architecture and especially the generation of architecture.  This course is required of all architecture undergraduates in the B.Arch. program.",None.,When Offered: Fall term annually.,[],[],Architecture
-ARCHITECTURAL MEDIA,LEC,2,R,12:00PM,1:50PM,Edwin Jhinang Liu,Low Center for Industrial Inn. 3130,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,69333,2160,02,ARCH-2160,Architectural Media,"This course continues the inquiry begun in ARCH 2150 and focuses especially on the implications that various media and means of representation have on the breadth of concerns within the history, theory, and critical practices of architecture and especially the generation of architecture.  This course is required of all architecture undergraduates in the B.Arch. program.",None.,When Offered: Fall term annually.,[],[],Architecture
+ARCHITECTURAL MEDIA,LEC,2,R,12:00PM,1:50PM,Anthony Titus,Low Center for Industrial Inn. 4050,90,23,67,ARCH,2024-08-28,2024-12-20,FALL 2024,69332,2160,01,ARCH-2160,Architectural Media,"This course continues the inquiry begun in ARCH 2150 and focuses especially on the implications that various media and means of representation have on the breadth of concerns within the history, theory, and critical practices of architecture and especially the generation of architecture.  This course is required of all architecture undergraduates in the B.Arch. program.",None.,When Offered: Fall term annually.,[],[],Architecture
+ARCHITECTURAL MEDIA,LEC,2,R,12:00PM,1:50PM,Edwin Jhinang Liu,Low Center for Industrial Inn. 3130,30,20,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69333,2160,02,ARCH-2160,Architectural Media,"This course continues the inquiry begun in ARCH 2150 and focuses especially on the implications that various media and means of representation have on the breadth of concerns within the history, theory, and critical practices of architecture and especially the generation of architecture.  This course is required of all architecture undergraduates in the B.Arch. program.",None.,When Offered: Fall term annually.,[],[],Architecture
+ARCHITECTURAL MEDIA,LEC,2,R,12:00PM,1:50PM,Matt Burgermaster,Darrin Communications Center 232,30,20,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69939,2160,03,ARCH-2160,Architectural Media,"This course continues the inquiry begun in ARCH 2150 and focuses especially on the implications that various media and means of representation have on the breadth of concerns within the history, theory, and critical practices of architecture and especially the generation of architecture.  This course is required of all architecture undergraduates in the B.Arch. program.",None.,When Offered: Fall term annually.,[],[],Architecture
+LANDSCAPE URBANISM,LEC,2,,,,Leandro Piazzi,TBA,1,1,0,ARCH,2024-08-28,2024-12-20,FALL 2024,70124,4941,10,ARCH-4941,Landscape Urbanism,,,,[],[],Architecture
+TALL BLDG STRUCTURES,LEC,2,,,,Gustavo Enrique Alberto Crembil,TBA,1,1,0,ARCH,2024-08-28,2024-12-20,FALL 2024,70125,4941,11,ARCH-4941,Tall Bldg Structures,,,,[],[],Architecture
 STRUCTURES 1,LEC,3,TF,10:00AM,11:20AM,Marc Anthony Tatarsky,Academy Hall AUD,15,3,12,ARCH,2024-08-28,2024-12-20,FALL 2024,67420,5140,01,ARCH-5140,Structures 1,"Through in-class presentations, homework, exams, and worked problems, students will learn the basic principles of structural systems, when to apply them, and how they resist gravitational and lateral forces. In addition, students will learn the principles of statics and apply them to basic structural analyses of common structural elements. It is recognized that intuitions of building technologies are not acquired quickly but result from much study, observation, and practice. ARCH 5140 makes use of the approaches above to ensure that the beginning student is provided with a broad, solid base for future structural investigations. This course is required of all first-year architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
-RESEARCH DESIGN SEMINAR,LEC,2,M,10:00AM,11:50AM,Joshua William Hugo Draper,TBA,20,3,17,ARCH,2024-08-28,2024-12-20,FALL 2024,67435,6810,80,ARCH-6810,Research Design Seminar,The principal objective of this introductory seminar is to provide students with the opportunity to learn the fundamentals of research design. Research design includes: (1) identifying and selecting focused research problems/opportunities/ideas; (2) documenting the state of the art in the selected research area; (3) identifying the critical resources and settings to carry out the research; (4) designing the research program including strategies and tactics for carrying out the research. It is hoped that the knowledge gained in the RD Seminar will assist students in the development of their own individual thesis proposals while they contribute to active research. B.Arch. students can only register for the 4000 level of this course and M. Arch. students must register only for the 6000 level of this course. This course is required of all architecture graduate students in the M. Arch. program.,,When Offered: Fall term annually.,[],[],Architecture
-MATERIALS AND DESIGN,LEC,2,W,10:00AM,11:50AM,Jefferson A Ellinger,Academy Hall AUD,80,59,21,ARCH,2024-08-28,2024-12-20,FALL 2024,69792,2510,01,ARCH-2510,Materials And Design,"Materials and Design introduces basic structural and material strategies and explores their creative and technical application to the architectural design process. The course establishes an understanding of the most common building materials including their physical properties, appropriate applications, and the implications of their uses in the larger context of embodied energy and material life cycles. Complementing performance characteristics, the phenomenology of materials is introduced as a key concept in architectural design. The performance of material assemblies, as synergy between form and material properties, is explored through analysis of architectural case studies. Design experiments are conducted that introduce such major concepts as structural loading, properties of sections, and resulting system performance. These experiments take the form of digital simulations and constructed scale models, with student documentation and reflection on their design processes. Students will study and analyze structural and material strategies in built works, communicating their findings through language, images, drawings, and diagrams. This course is required of all architecture undergraduates in the B.Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
-MATERIALS AND DESIGN,LEC,2,W,10:00AM,11:50AM,Leandro Piazzi,Academy Hall AUD,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,69794,2510,03,ARCH-2510,Materials And Design,"Materials and Design introduces basic structural and material strategies and explores their creative and technical application to the architectural design process. The course establishes an understanding of the most common building materials including their physical properties, appropriate applications, and the implications of their uses in the larger context of embodied energy and material life cycles. Complementing performance characteristics, the phenomenology of materials is introduced as a key concept in architectural design. The performance of material assemblies, as synergy between form and material properties, is explored through analysis of architectural case studies. Design experiments are conducted that introduce such major concepts as structural loading, properties of sections, and resulting system performance. These experiments take the form of digital simulations and constructed scale models, with student documentation and reflection on their design processes. Students will study and analyze structural and material strategies in built works, communicating their findings through language, images, drawings, and diagrams. This course is required of all architecture undergraduates in the B.Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,6:00PM,7:50PM,Adam Hassan Dayem,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69906,2820,01,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,90,65,25,ARCH,2024-08-28,2024-12-20,FALL 2024,67407,2820,02,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,90,65,25,ARCH,2024-08-28,2024-12-20,FALL 2024,67407,2820,02,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Benjamin Vanmuysen,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,67408,2820,03,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,6:00PM,7:50PM,Benjamin Vanmuysen,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,67408,2820,03,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Benjamin Vanmuysen,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,68898,2820,04,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Benjamin Vanmuysen,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,68898,2820,04,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,David H Bell,Greene Building STU,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,68675,2820,05,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,David H Bell,Greene Building STU,10,2,8,ARCH,2024-08-28,2024-12-20,FALL 2024,68675,2820,05,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69170,2820,07,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Ryosuke Imaeda,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69170,2820,07,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69370,2820,08,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69370,2820,08,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,David H Bell,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69371,2820,11,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,David H Bell,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69371,2820,11,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69372,2820,12,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69372,2820,12,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69373,2820,13,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69373,2820,13,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69382,2820,15,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Edwin Jhinang Liu,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69382,2820,15,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69407,2820,16,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69407,2820,16,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
-APPLIED PSYCHOACOUSTICS,LEC,3,T,10:00AM,12:50PM,Jonas Braasch,Greene Building 204,15,1,14,ARCH,2024-08-28,2024-12-20,FALL 2024,66454,4860,01,ARCH-4860,Applied Psychoacoustics,"Topics include the functional overview of the auditory system, loudness, pitch, and timbre perception, masking, binaural hearing, auditory scene analysis, multi-modal integration, and auditory perception in rooms. Required signal processing methods will be covered as well. Course taught with ARCH 6860.",,When Offered: Spring term annually.,[],[],Architecture
+RESEARCH DESIGN SEMINAR,LEC,2,M,10:00AM,11:50AM,Joshua William Hugo Draper,TBA,20,2,18,ARCH,2024-08-28,2024-12-20,FALL 2024,67435,6810,80,ARCH-6810,Research Design Seminar,The principal objective of this introductory seminar is to provide students with the opportunity to learn the fundamentals of research design. Research design includes: (1) identifying and selecting focused research problems/opportunities/ideas; (2) documenting the state of the art in the selected research area; (3) identifying the critical resources and settings to carry out the research; (4) designing the research program including strategies and tactics for carrying out the research. It is hoped that the knowledge gained in the RD Seminar will assist students in the development of their own individual thesis proposals while they contribute to active research. B.Arch. students can only register for the 4000 level of this course and M. Arch. students must register only for the 6000 level of this course. This course is required of all architecture graduate students in the M. Arch. program.,,When Offered: Fall term annually.,[],[],Architecture
+MATERIALS AND DESIGN,LEC,2,W,10:00AM,11:50AM,Jefferson A Ellinger,Academy Hall AUD,80,45,35,ARCH,2024-08-28,2024-12-20,FALL 2024,69792,2510,01,ARCH-2510,Materials And Design,"Materials and Design introduces basic structural and material strategies and explores their creative and technical application to the architectural design process. The course establishes an understanding of the most common building materials including their physical properties, appropriate applications, and the implications of their uses in the larger context of embodied energy and material life cycles. Complementing performance characteristics, the phenomenology of materials is introduced as a key concept in architectural design. The performance of material assemblies, as synergy between form and material properties, is explored through analysis of architectural case studies. Design experiments are conducted that introduce such major concepts as structural loading, properties of sections, and resulting system performance. These experiments take the form of digital simulations and constructed scale models, with student documentation and reflection on their design processes. Students will study and analyze structural and material strategies in built works, communicating their findings through language, images, drawings, and diagrams. This course is required of all architecture undergraduates in the B.Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
+MATERIALS AND DESIGN,LEC,2,W,10:00AM,11:50AM,Leandro Piazzi,Academy Hall AUD,30,16,14,ARCH,2024-08-28,2024-12-20,FALL 2024,69794,2510,03,ARCH-2510,Materials And Design,"Materials and Design introduces basic structural and material strategies and explores their creative and technical application to the architectural design process. The course establishes an understanding of the most common building materials including their physical properties, appropriate applications, and the implications of their uses in the larger context of embodied energy and material life cycles. Complementing performance characteristics, the phenomenology of materials is introduced as a key concept in architectural design. The performance of material assemblies, as synergy between form and material properties, is explored through analysis of architectural case studies. Design experiments are conducted that introduce such major concepts as structural loading, properties of sections, and resulting system performance. These experiments take the form of digital simulations and constructed scale models, with student documentation and reflection on their design processes. Students will study and analyze structural and material strategies in built works, communicating their findings through language, images, drawings, and diagrams. This course is required of all architecture undergraduates in the B.Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69906,2820,01,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,6:00PM,7:50PM,Adam Hassan Dayem,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,69906,2820,01,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,90,7,83,ARCH,2024-08-28,2024-12-20,FALL 2024,67407,2820,02,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,90,7,83,ARCH,2024-08-28,2024-12-20,FALL 2024,67407,2820,02,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Benjamin Vanmuysen,Greene Building STU,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,67408,2820,03,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,6:00PM,7:50PM,Benjamin Vanmuysen,Greene Building STU,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,67408,2820,03,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Benjamin Vanmuysen,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,68898,2820,04,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Benjamin Vanmuysen,Greene Building STU,10,6,4,ARCH,2024-08-28,2024-12-20,FALL 2024,68898,2820,04,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,David H Bell,Greene Building STU,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,68675,2820,05,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,David H Bell,Greene Building STU,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,68675,2820,05,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,69170,2820,07,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Ryosuke Imaeda,Greene Building STU,10,3,7,ARCH,2024-08-28,2024-12-20,FALL 2024,69170,2820,07,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,10,9,1,ARCH,2024-08-28,2024-12-20,FALL 2024,69370,2820,08,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,10,9,1,ARCH,2024-08-28,2024-12-20,FALL 2024,69370,2820,08,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,David H Bell,Greene Building STU,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69371,2820,11,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,David H Bell,Greene Building STU,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69371,2820,11,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,69372,2820,12,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,69372,2820,12,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,9,1,ARCH,2024-08-28,2024-12-20,FALL 2024,69373,2820,13,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Gustavo Enrique Alberto Crembil,Greene Building STU,10,9,1,ARCH,2024-08-28,2024-12-20,FALL 2024,69373,2820,13,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,69382,2820,15,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,2:00PM,3:50PM,Edwin Jhinang Liu,Greene Building STU,10,4,6,ARCH,2024-08-28,2024-12-20,FALL 2024,69382,2820,15,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,MR,2:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69407,2820,16,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+ARCHITECTURAL DESIGN STUDIO 3,LEC,5,W,4:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69407,2820,16,ARCH-2820,Architectural Design Studio 3,"This studio focuses on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building, site planning, accessibility, parking and topography. It also critically assesses the connections and inherent complexities between an institutional situation and workplace activity, in order to explore questions of public and private. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all second-year architecture undergraduates in the B.Arch. program. Any student receiving a second ‘D' in any design studio must repeat the second design studio and receive a grade of ‘C' or higher to proceed to the next design studio.",Prerequisites/Corequisites: Prerequisiste: ARCH 2810 and ARCH 2530 Corequisite: ARCH 2540,When Offered: Fall term annually.,"['ARCH 2810', 'ARCH 2530', 'ARCH 2540']","['ARCH 2810', 'ARCH 2530', 'ARCH 2540']",Architecture
+APPLIED PSYCHOACOUSTICS,LEC,3,T,10:00AM,12:50PM,Jonas Braasch,Greene Building 204,15,0,15,ARCH,2024-08-28,2024-12-20,FALL 2024,66454,4860,01,ARCH-4860,Applied Psychoacoustics,"Topics include the functional overview of the auditory system, loudness, pitch, and timbre perception, masking, binaural hearing, auditory scene analysis, multi-modal integration, and auditory perception in rooms. Required signal processing methods will be covered as well. Course taught with ARCH 6860.",,When Offered: Spring term annually.,[],[],Architecture
 STRUCTURES 2,LEC,3,TF,12:00PM,1:20PM,Marc Anthony Tatarsky,Ricketts Building 211,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,67434,5150,01,ARCH-5150,Structures 2,"This course builds on the material presented in ARCH 5140, with the analysis and design of structures comprising steel, concrete, timber, and masonry. The theoretical concepts covered in the introductory course form the conceptual basis for work in Structures 2, with relevant new concepts/techniques covered. Students will explore load transfer in different structural assemblies and consider how seismic and other complex loading can impact architectural considerations. Innovative, non-normative structural systems are investigated and discussed. Design optimization approaches are introduced and explored as avenues to accomplish more optimum design conditions under increasingly strict design constraints. The course approach will involve in-class presentations, homework, exams, worked problems, and case studies. This course is required of all second-year architecture graduate students in the M. Arch. program.",Prerequisite: ARCH 5140,When Offered: Fall term annually.,"['ARCH 5140', 'ARCH 5140']","['ARCH 5140', 'ARCH 5140']",Architecture
 SYSTEMS PROTOTYPING,LEC,3,W,10:00AM,1:00PM,TBA,Greene Building STU,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69734,6963,80,ARCH-6963,Systems Prototyping,,,,[],[],Architecture
-DIGITAL CONSTRUCTS I,LEC,2,W,2:00PM,3:50PM,Adam Hassan Dayem,Academy Hall AUD,72,18,54,ARCH,2024-08-28,2024-12-20,FALL 2024,67248,2520,01,ARCH-2520,Digital Constructs I,"This course will examine and teach methods of representation and the communication of design concepts. Skills taught will enable students to produce two-dimensional and three-dimensional digital models, as well as drawings from multiple perspectives. Students will understand virtual environments as they pertain to model making, drawing, scale, and materiality. Students will be introduced to digital modeling and graphic design softwares. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.  Students must pass this course in order to proceed to ARCH 2810.",Corequisites: ARCH 2800,When Offered: Fall term annually.,[],[],Architecture
-DIGITAL CONSTRUCTS I,LEC,2,W,4:00PM,5:50PM,Walaid Sehwail,Darrin Communications Center 235,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,68681,2520,02,ARCH-2520,Digital Constructs I,"This course will examine and teach methods of representation and the communication of design concepts. Skills taught will enable students to produce two-dimensional and three-dimensional digital models, as well as drawings from multiple perspectives. Students will understand virtual environments as they pertain to model making, drawing, scale, and materiality. Students will be introduced to digital modeling and graphic design softwares. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.  Students must pass this course in order to proceed to ARCH 2810.",Corequisites: ARCH 2800,When Offered: Fall term annually.,[],[],Architecture
-DIGITAL CONSTRUCTS I,LEC,2,W,4:00PM,5:50PM,Miguel Matos,Darrin Communications Center 239,30,0,30,ARCH,2024-08-28,2024-12-20,FALL 2024,69408,2520,06,ARCH-2520,Digital Constructs I,"This course will examine and teach methods of representation and the communication of design concepts. Skills taught will enable students to produce two-dimensional and three-dimensional digital models, as well as drawings from multiple perspectives. Students will understand virtual environments as they pertain to model making, drawing, scale, and materiality. Students will be introduced to digital modeling and graphic design softwares. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.  Students must pass this course in order to proceed to ARCH 2810.",Corequisites: ARCH 2800,When Offered: Fall term annually.,[],[],Architecture
-MODERNITY & ARCHITECTURE,LEC,3,F,12:00PM,2:50PM,Noah Bernard Chasin,West Hall AUD,80,73,7,ARCH,2024-08-28,2024-12-20,FALL 2024,68052,4120,01,ARCH-4120,Modernity & Architecture,"This course is an exploration of the idea of modernity as both a cultural phenomenon extending back to Enlightenment ideas of progress, technological framing of the world, scientific rationality, and historical consciousness. The course will identify the core concepts, values, theories, and practices that contributed to the rise of modernity in the western world and eventually on a global scale. The impact of Modernity will also be critically examined historically and theoretically as an artistic and architectural discourse unfolding in the 20th century and as a radical requestioning of the traditional concepts of program, construction, and aesthetics that are central to architectural discourse. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
-SONICS RESEARCH LAB 1,LEC,3,M,9:00AM,11:50AM,Ning Xiang,Greene Building 204,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,69742,4870,01,ARCH-4870,Sonics Research Lab 1,,,When Offered: Fall term annually.,[],[],Architecture
+DIGITAL CONSTRUCTS I,LEC,2,W,2:00PM,3:50PM,Adam Hassan Dayem,Academy Hall AUD,72,19,53,ARCH,2024-08-28,2024-12-20,FALL 2024,67248,2520,01,ARCH-2520,Digital Constructs I,"This course will examine and teach methods of representation and the communication of design concepts. Skills taught will enable students to produce two-dimensional and three-dimensional digital models, as well as drawings from multiple perspectives. Students will understand virtual environments as they pertain to model making, drawing, scale, and materiality. Students will be introduced to digital modeling and graphic design softwares. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.  Students must pass this course in order to proceed to ARCH 2810.",Corequisites: ARCH 2800,When Offered: Fall term annually.,[],[],Architecture
+DIGITAL CONSTRUCTS I,LEC,2,W,4:00PM,5:50PM,Walaid Sehwail,Darrin Communications Center 235,30,11,19,ARCH,2024-08-28,2024-12-20,FALL 2024,68681,2520,02,ARCH-2520,Digital Constructs I,"This course will examine and teach methods of representation and the communication of design concepts. Skills taught will enable students to produce two-dimensional and three-dimensional digital models, as well as drawings from multiple perspectives. Students will understand virtual environments as they pertain to model making, drawing, scale, and materiality. Students will be introduced to digital modeling and graphic design softwares. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.  Students must pass this course in order to proceed to ARCH 2810.",Corequisites: ARCH 2800,When Offered: Fall term annually.,[],[],Architecture
+DIGITAL CONSTRUCTS I,LEC,2,W,4:00PM,5:50PM,Miguel Matos,Darrin Communications Center 239,30,20,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69408,2520,06,ARCH-2520,Digital Constructs I,"This course will examine and teach methods of representation and the communication of design concepts. Skills taught will enable students to produce two-dimensional and three-dimensional digital models, as well as drawings from multiple perspectives. Students will understand virtual environments as they pertain to model making, drawing, scale, and materiality. Students will be introduced to digital modeling and graphic design softwares. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.  Students must pass this course in order to proceed to ARCH 2810.",Corequisites: ARCH 2800,When Offered: Fall term annually.,[],[],Architecture
+MODERNITY & ARCHITECTURE,LEC,3,F,12:00PM,2:50PM,Noah Bernard Chasin,West Hall AUD,80,75,5,ARCH,2024-08-28,2024-12-20,FALL 2024,68052,4120,01,ARCH-4120,Modernity & Architecture,"This course is an exploration of the idea of modernity as both a cultural phenomenon extending back to Enlightenment ideas of progress, technological framing of the world, scientific rationality, and historical consciousness. The course will identify the core concepts, values, theories, and practices that contributed to the rise of modernity in the western world and eventually on a global scale. The impact of Modernity will also be critically examined historically and theoretically as an artistic and architectural discourse unfolding in the 20th century and as a radical requestioning of the traditional concepts of program, construction, and aesthetics that are central to architectural discourse. This course is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4100,When Offered: Fall term annually.,['ARCH 4100'],['ARCH 4100'],Architecture
+SONICS RESEARCH LAB 1,LEC,3,M,9:00AM,11:50AM,Ning Xiang,Greene Building 204,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69742,4870,01,ARCH-4870,Sonics Research Lab 1,,,When Offered: Fall term annually.,[],[],Architecture
 ELEMENATARY ITALIAN,LEC,3,,,,Ciro Najle,TBA,0,0,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69799,4969,50,ARCH-4969,Elemenatary Italian,,,,[],[],Architecture
 GRAD DIGITAL CONSTRUCTS 1,LEC,2,W,2:00PM,3:50PM,James Fleet Hower,Greene Building STU,3,3,0,ARCH,2024-08-28,2024-12-20,FALL 2024,68901,5160,03,ARCH-5160,Grad Digital Constructs 1,This course focuses upon contemporary means of producing and communicating architectural ideas. Students will use digital methodologies through all phases of a project as well as advanced representation and digital fabrication techniques. The use of digital modeling as a sketch and iterative tool will be emphasized. Tools taught in ARCH 5160 will support software taught in ARCH 2530. This course is required of all first-year architecture graduate students in the M.Arch. program. Coordination of the relationship of course content to ARCH 5200 will be between the ARCH 5160 faculty instructor and the architectural design studio coordinator and faculty.,Prerequisites/Corequisites: Corequisite: ARCH 5200,When Offered: Fall term annually.,"['ARCH 5200', 'ARCH 5200']","['ARCH 5200', 'ARCH 5200']",Architecture
 ENGINEERING ACOUSTICS,LEC,3,W,10:00AM,12:50PM,Ning Xiang,Low Center for Industrial Inn. 3116,20,6,14,ARCH,2024-08-28,2024-12-20,FALL 2024,68060,6840,01,ARCH-6840,Engineering Acoustics,"Introductory materials of engineering acoustics for students with basic knowledge in mathematics (at least one level of first-year college). Much of the course material is taken from the textbook ""Acoustics for Engineers"" by Blauert and Xiang (2nd Ed.). The course includes mechanic and acoustic oscillations, the wave equations in fluids, governing equations for horns and ducts, spherical sound sources and arrays, piston membranes, diffraction and scattering, dissipation, reflection, refraction and absorption, isolation of air- and structure-borne sounds, noise propagation and noise control. B.S. and B.Arch. students can only register for the 4000 level of this course and M.S.Arch. Acoustics students must register only for the 6000 level of this course.",,When Offered: Fall term annually.,[],[],Architecture
-MODERN AND CONTEMPORARY ROME,LEC,3,,,,Ciro Najle,TBA,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69201,4970,50,ARCH-4970,Modern And Contemporary Rome,,,,[],[],Architecture
-PARAMETRICS OF THE ENVIRONMENT,LEC,2,T,11:00AM,1:10PM,Charles A. Portelli,TBA,15,2,13,ARCH,2024-08-28,2024-12-20,FALL 2024,68897,4970,80,ARCH-4970,Parametrics Of The Environment,,,,[],[],Architecture
-ENVIRONMENTAL HISTORY & THEORY,LEC,3,W,2:00PM,5:00PM,Tulay Atak,TBA,15,3,12,ARCH,2024-08-28,2024-12-20,FALL 2024,68057,6310,80,ARCH-6310,Environmental History & Theory,"This course has been conceived together with Material Systems and Productions and the Design Research Studio, such that each student will develop a complementary written analysis that critically situates the new material system that the student is developing in design studio within historical, socio-political, and economic flows. The written analysis will directly reference key themes contained within the required readings, lectures, and seminar discussions. Course taught in New York City.",,When Offered: Fall term annually.,[],[],Architecture
-APPLIED PSYCHOACOUSTICS,LEC,3,T,10:00AM,12:50PM,Jonas Braasch,Greene Building 204,15,5,10,ARCH,2024-08-28,2024-12-20,FALL 2024,66456,6860,01,ARCH-6860,Applied Psychoacoustics,"This course covers the fundamentals of psychoacoustics with a focus on Architectural Acoustics. Topics include the functional overview of the auditory system, loudness, pitch, timbre perception, masking, binaural hearing, auditory scene analysis, multi-modal integration, and auditory perception in rooms. Required signal processing methods will be covered as well. The graduate-level course requires an extensive individual project and more advanced analysis.",,When Offered: Fall term annually.,[],[],Architecture
-DIGITAL CONSTRUCTS 3,LEC,2,W,2:00PM,3:50PM,James Fleet Hower,Amos Eaton Hall 214,72,67,5,ARCH,2024-08-28,2024-12-20,FALL 2024,69409,2540,05,ARCH-2540,Digital Constructs 3,"This course introduces computational and procedural design approaches that are a logical extension to topics covered in ARCH 2530. Students will develop an understanding of computational logic through introductory design applications, both as advanced tooling and as generative design techniques. This course is offered in the fall semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2530; Corequisite: ARCH 2820,When Offered: Fall term annually.,"['ARCH 2530', 'ARCH 2530', 'ARCH 2820']","['ARCH 2530', 'ARCH 2530', 'ARCH 2820']",Architecture
-DIGITAL CONSTRUCTS 3,LEC,2,W,4:00PM,5:50PM,Benjamin Vanmuysen,Low Center for Industrial Inn. 3112,30,3,27,ARCH,2024-08-28,2024-12-20,FALL 2024,69410,2540,06,ARCH-2540,Digital Constructs 3,"This course introduces computational and procedural design approaches that are a logical extension to topics covered in ARCH 2530. Students will develop an understanding of computational logic through introductory design applications, both as advanced tooling and as generative design techniques. This course is offered in the fall semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2530; Corequisite: ARCH 2820,When Offered: Fall term annually.,"['ARCH 2530', 'ARCH 2530', 'ARCH 2820']","['ARCH 2530', 'ARCH 2530', 'ARCH 2820']",Architecture
-DIGITAL CONSTRUCTS 3,LEC,2,W,2:00PM,3:50PM,Kyle Reese Troyer,Amos Eaton Hall 215,30,2,28,ARCH,2024-08-28,2024-12-20,FALL 2024,69707,2540,07,ARCH-2540,Digital Constructs 3,"This course introduces computational and procedural design approaches that are a logical extension to topics covered in ARCH 2530. Students will develop an understanding of computational logic through introductory design applications, both as advanced tooling and as generative design techniques. This course is offered in the fall semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2530; Corequisite: ARCH 2820,When Offered: Fall term annually.,"['ARCH 2530', 'ARCH 2530', 'ARCH 2820']","['ARCH 2530', 'ARCH 2530', 'ARCH 2820']",Architecture
-ENGINEERING ACOUSTICS,LEC,3,W,10:00AM,12:50PM,Ning Xiang,Low Center for Industrial Inn. 3116,10,1,9,ARCH,2024-08-28,2024-12-20,FALL 2024,67844,4890,01,ARCH-4890,Engineering Acoustics,"Introductory materials of engineering acoustics for students with basic knowledge in mathematics (at least one level of first-year college). Much of the course material is taken from the textbook ""Acoustics for Engineers"" by Blauert and Xiang (2nd Ed.). The course includes mechanic and acoustic oscillations, the wave equations in fluids, governing equations for horns and ducts, spherical sound sources and arrays, piston membranes, diffraction and scattering, dissipation, reflection, refraction and absorption, isolation of air- and structure-borne sounds, noise propagation and noise control. B.S. and B.Arch. students can only register for the 4000 level of this course and M.S.Arch. Acoustics students must register only for the 6000 level of this course.","College-level calculus, complex functions, and partial differential equations are prerequisites.",When Offered: Fall term annually.,[],[],Architecture
-RESEARCH DESIGN SEMINAR,LEC,2,M,10:00AM,11:50AM,Joshua William Hugo Draper,TBA,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,69738,4956,80,ARCH-4956,Research Design Seminar,,,,[],[],Architecture
+MODERN AND CONTEMPORARY ROME,LEC,3,,,,Ciro Najle,TBA,18,5,13,ARCH,2024-08-28,2024-12-20,FALL 2024,69201,4970,50,ARCH-4970,Modern And Contemporary Rome,,,,[],[],Architecture
+ENVIRONMENTAL HISTORY & THEORY,LEC,3,W,2:00PM,5:00PM,Tulay Atak,TBA,15,4,11,ARCH,2024-08-28,2024-12-20,FALL 2024,68057,6310,80,ARCH-6310,Environmental History & Theory,"This course has been conceived together with Material Systems and Productions and the Design Research Studio, such that each student will develop a complementary written analysis that critically situates the new material system that the student is developing in design studio within historical, socio-political, and economic flows. The written analysis will directly reference key themes contained within the required readings, lectures, and seminar discussions. Course taught in New York City.",,When Offered: Fall term annually.,[],[],Architecture
+APPLIED PSYCHOACOUSTICS,LEC,3,T,10:00AM,12:50PM,Jonas Braasch,Greene Building 204,15,6,9,ARCH,2024-08-28,2024-12-20,FALL 2024,66456,6860,01,ARCH-6860,Applied Psychoacoustics,"This course covers the fundamentals of psychoacoustics with a focus on Architectural Acoustics. Topics include the functional overview of the auditory system, loudness, pitch, timbre perception, masking, binaural hearing, auditory scene analysis, multi-modal integration, and auditory perception in rooms. Required signal processing methods will be covered as well. The graduate-level course requires an extensive individual project and more advanced analysis.",,When Offered: Fall term annually.,[],[],Architecture
+DIGITAL CONSTRUCTS 3,LEC,2,W,2:00PM,3:50PM,James Fleet Hower,Amos Eaton Hall 214,72,24,48,ARCH,2024-08-28,2024-12-20,FALL 2024,69409,2540,05,ARCH-2540,Digital Constructs 3,"This course introduces computational and procedural design approaches that are a logical extension to topics covered in ARCH 2530. Students will develop an understanding of computational logic through introductory design applications, both as advanced tooling and as generative design techniques. This course is offered in the fall semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2530; Corequisite: ARCH 2820,When Offered: Fall term annually.,"['ARCH 2530', 'ARCH 2530', 'ARCH 2820']","['ARCH 2530', 'ARCH 2530', 'ARCH 2820']",Architecture
+DIGITAL CONSTRUCTS 3,LEC,2,W,4:00PM,5:50PM,Benjamin Vanmuysen,Low Center for Industrial Inn. 3112,30,29,1,ARCH,2024-08-28,2024-12-20,FALL 2024,69410,2540,06,ARCH-2540,Digital Constructs 3,"This course introduces computational and procedural design approaches that are a logical extension to topics covered in ARCH 2530. Students will develop an understanding of computational logic through introductory design applications, both as advanced tooling and as generative design techniques. This course is offered in the fall semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2530; Corequisite: ARCH 2820,When Offered: Fall term annually.,"['ARCH 2530', 'ARCH 2530', 'ARCH 2820']","['ARCH 2530', 'ARCH 2530', 'ARCH 2820']",Architecture
+DIGITAL CONSTRUCTS 3,LEC,2,W,2:00PM,3:50PM,Kyle Reese Troyer,Amos Eaton Hall 215,30,23,7,ARCH,2024-08-28,2024-12-20,FALL 2024,69707,2540,07,ARCH-2540,Digital Constructs 3,"This course introduces computational and procedural design approaches that are a logical extension to topics covered in ARCH 2530. Students will develop an understanding of computational logic through introductory design applications, both as advanced tooling and as generative design techniques. This course is offered in the fall semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2530; Corequisite: ARCH 2820,When Offered: Fall term annually.,"['ARCH 2530', 'ARCH 2530', 'ARCH 2820']","['ARCH 2530', 'ARCH 2530', 'ARCH 2820']",Architecture
+ENGINEERING ACOUSTICS,LEC,3,W,10:00AM,12:50PM,Ning Xiang,Low Center for Industrial Inn. 3116,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,67844,4890,01,ARCH-4890,Engineering Acoustics,"Introductory materials of engineering acoustics for students with basic knowledge in mathematics (at least one level of first-year college). Much of the course material is taken from the textbook ""Acoustics for Engineers"" by Blauert and Xiang (2nd Ed.). The course includes mechanic and acoustic oscillations, the wave equations in fluids, governing equations for horns and ducts, spherical sound sources and arrays, piston membranes, diffraction and scattering, dissipation, reflection, refraction and absorption, isolation of air- and structure-borne sounds, noise propagation and noise control. B.S. and B.Arch. students can only register for the 4000 level of this course and M.S.Arch. Acoustics students must register only for the 6000 level of this course.","College-level calculus, complex functions, and partial differential equations are prerequisites.",When Offered: Fall term annually.,[],[],Architecture
+RESEARCH DESIGN SEMINAR,LEC,2,M,10:00AM,11:50AM,Joshua William Hugo Draper,TBA,10,8,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69738,4956,80,ARCH-4956,Research Design Seminar,,,,[],[],Architecture
 "SPOLIA, ROMAN SINGULARITIES",LEC,3,,,,Ciro Najle,TBA,18,18,0,ARCH,2024-08-28,2024-12-20,FALL 2024,69202,4971,50,ARCH-4971,"SPOLIA, Roman Singularities",,,,[],[],Architecture
 GRADUATE ARCH DESIGN I,LEC,5,M,2:00PM,5:50PM,Caleb White,Greene Building STU,5,3,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69434,5200,01,ARCH-5200,Graduate Arch Design I,"This first graduate design studio addresses the fundamentals of architecture while focusing on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building and landscape. It also critically assesses the connections and inherent complexities between an institutional situation, workplace activity, and residential inhabitation in order to explore questions of publicness and privacy. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all first-year architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
 GRADUATE ARCH DESIGN I,LEC,5,W,6:00PM,7:50PM,Caleb White,Greene Building STU,5,3,2,ARCH,2024-08-28,2024-12-20,FALL 2024,69434,5200,01,ARCH-5200,Graduate Arch Design I,"This first graduate design studio addresses the fundamentals of architecture while focusing on the relationship between building and landscape in terms of conceptual, pragmatic, ideological, aesthetic, and functional issues. As such, it endeavors to examine critically the disciplinary boundary between building and landscape. It also critically assesses the connections and inherent complexities between an institutional situation, workplace activity, and residential inhabitation in order to explore questions of publicness and privacy. This studio also addresses the tectonic dimensions of construction and structure in architectural design. This course is required of all first-year architecture graduate students in the M. Arch. program.",,When Offered: Fall term annually.,[],[],Architecture
-BUILT ECOLOGIES 1,LEC,3,F,2:00PM,4:50PM,Emir Aykut Pekdemir,TBA,12,0,12,ARCH,2024-08-28,2024-12-20,FALL 2024,66451,6320,80,ARCH-6320,Built Ecologies 1,"Advanced graduate level course focusing on the collection, analysis, and application of data for the generation of criteria within the design process. Multiple scales will be investigated, from the material and product scale, to the building/architectural scale, and finally to the urban, regional, and global scales. Course taught in New York City.","Prerequisites for undergraduates: ARCH 2360 or equivalent or ARCH 4740 or equivalent, Corequisite for M.Arch. 1: ARCH 6610",When Offered: Fall term annually.,"['ARCH 2360', 'ARCH 4740', 'ARCH 6610']","['ARCH 2360', 'ARCH 4740', 'ARCH 6610']",Architecture
-SONICS RESEARCH LAB 1,LEC,3,M,9:00AM,11:50AM,Ning Xiang,Greene Building 204,10,5,5,ARCH,2024-08-28,2024-12-20,FALL 2024,68061,6870,01,ARCH-6870,Sonics Research Lab 1,,,When Offered: Fall term annually.,[],[],Architecture
+BUILT ECOLOGIES 1,LEC,3,F,2:00PM,4:50PM,Emir Aykut Pekdemir,TBA,12,1,11,ARCH,2024-08-28,2024-12-20,FALL 2024,66451,6320,80,ARCH-6320,Built Ecologies 1,"Advanced graduate level course focusing on the collection, analysis, and application of data for the generation of criteria within the design process. Multiple scales will be investigated, from the material and product scale, to the building/architectural scale, and finally to the urban, regional, and global scales. Course taught in New York City.","Prerequisites for undergraduates: ARCH 2360 or equivalent or ARCH 4740 or equivalent, Corequisite for M.Arch. 1: ARCH 6610",When Offered: Fall term annually.,"['ARCH 2360', 'ARCH 4740', 'ARCH 6610']","['ARCH 2360', 'ARCH 4740', 'ARCH 6610']",Architecture
+SONICS RESEARCH LAB 1,LEC,3,M,9:00AM,11:50AM,Ning Xiang,Greene Building 204,10,7,3,ARCH,2024-08-28,2024-12-20,FALL 2024,68061,6870,01,ARCH-6870,Sonics Research Lab 1,,,When Offered: Fall term annually.,[],[],Architecture
 BLDG INFORMATION MODELING,LEC,3,W,10:00AM,12:50PM,Dennis Robert Shelden,TBA,10,0,10,ARCH,2024-08-28,2024-12-20,FALL 2024,69737,6966,80,ARCH-6966,Bldg Information Modeling,,,,[],[],Architecture
-LIGHTING DESIGN,LEC,4,MR,10:00AM,11:50AM,Abhay Mohan Wadhwa/Jean Paul Freyssinier,Gurley Building ,30,8,22,LGHT,2024-08-28,2024-12-20,FALL 2024,69176,4230,01,LGHT-4230,Lighting Design,"A design studio that explores the roles of light in architecture and its application by design. Students conceive, evaluate, and synthesize solutions that contribute to successful lighting and architectural design.",,When Offered: Fall term annually.,[],[],Architecture
-PHYSICS OF LIGHT,LEC,3,MR,2:00PM,3:50PM,Nadarajah Narendran,Gurley Building ,30,4,26,LGHT,2024-08-28,2024-12-20,FALL 2024,69178,6830,01,LGHT-6830,Physics Of Light,"A comprehensive overview of the physics of light and its applications for lighting. The course uses a variety of instructional methodologies, including lectures, and individual student projects and presentations to cover various areas of lighting study. Topics include geometric optics, physical optics, and lighting calculations.",Prerequisites/Corequisites: Corequisite: LGHT 6835.,When Offered: Fall term annually.,['LGHT 6835'],['LGHT 6835'],Architecture
-PHYSICS OF LIGHT LABORATORY,LEC,1,MR,2:00PM,3:50PM,Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,25,2,23,LGHT,2024-08-28,2024-12-20,FALL 2024,69465,6835,01,LGHT-6835,Physics Of Light Laboratory,This laboratory course reiterates the important concepts learned in the Physics of Light class and provides hands on experience to instruct students in the use of different types of light meters and laboratory instruments.,Prerequisites/Corequisites: Corequisite: LGHT 6830.,When Offered: Upon availability of instructor.,['LGHT 6830'],['LGHT 6830'],Architecture
+LIGHTING DESIGN,LEC,4,MR,10:00AM,11:50AM,David Justin Cyr/Jean Paul Freyssinier/Abhay Mohan Wadhwa,Gurley Building ,30,7,23,LGHT,2024-08-28,2024-12-20,FALL 2024,69176,4230,01,LGHT-4230,Lighting Design,"A design studio that explores the roles of light in architecture and its application by design. Students conceive, evaluate, and synthesize solutions that contribute to successful lighting and architectural design.",,When Offered: Fall term annually.,[],[],Architecture
+PHYSICS OF LIGHT,LEC,3,MR,2:00PM,3:50PM,Nadarajah Narendran,Gurley Building ,30,3,27,LGHT,2024-08-28,2024-12-20,FALL 2024,69178,6830,01,LGHT-6830,Physics Of Light,"A comprehensive overview of the physics of light and its applications for lighting. The course uses a variety of instructional methodologies, including lectures, and individual student projects and presentations to cover various areas of lighting study. Topics include geometric optics, physical optics, and lighting calculations.",Prerequisites/Corequisites: Corequisite: LGHT 6835.,When Offered: Fall term annually.,['LGHT 6835'],['LGHT 6835'],Architecture
+PHYSICS OF LIGHT LABORATORY,LEC,1,MR,2:00PM,3:50PM,Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,25,3,22,LGHT,2024-08-28,2024-12-20,FALL 2024,69465,6835,01,LGHT-6835,Physics Of Light Laboratory,This laboratory course reiterates the important concepts learned in the Physics of Light class and provides hands on experience to instruct students in the use of different types of light meters and laboratory instruments.,Prerequisites/Corequisites: Corequisite: LGHT 6830.,When Offered: Upon availability of instructor.,['LGHT 6830'],['LGHT 6830'],Architecture
 HUMAN FACTORS IN LIGHTING,LEC,4,TF,10:00AM,11:50AM,Jean Paul Freyssinier,Gurley Building ,30,9,21,LGHT,2024-08-28,2024-12-20,FALL 2024,69177,4840,01,LGHT-4840,Human Factors In Lighting,"An introduction to lighting and human factors, including classical literature and contemporary studies and development of skills needed to conduct and evaluate human factors research. This course will also include an overview of relevant materials of the effects of light on human health.",,When Offered: Fall term annually.,[],[],Architecture
 MASTER'S PROJECT,LEC,3,,,,Jean Paul Freyssinier/Nadarajah Narendran/Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,0,0,0,LGHT,2024-08-28,2024-12-20,FALL 2024,68251,6980,02,LGHT-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Architecture
 MASTER'S PROJECT,LEC,3,,,,Jean Paul Freyssinier/Nadarajah Narendran/Ukwatte Lokuliyanage Indika Upendra Perera,TBA,10,3,7,LGHT,2024-08-28,2024-12-20,FALL 2024,69175,6980,04,LGHT-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Architecture
-PROGRAMMING FOR BIOMED ENGR,LEC,3,MR,10:00AM,11:20AM,Uwe Kruger,Low Center for Industrial Inn. 4034,24,24,0,BMED,2024-08-28,2024-12-20,FALL 2024,68799,2050,01,BMED-2050,Programming For Biomed Engr,"Introduction of number systems - decimal, binary and hexadecimal -; variable types including Boolean, integer, float, character and string; general overview of computer architecture and software, programming in ""C/C++"" including input/output, control statements, operators, functions, arrays, strings, classes, objects, inheritance, pointers, references, file processing, exceptions and operator overloading; overview of other programming languages including Matlab, R and Python; design of algorithms for applications that are relevant for biomedical engineering applications.",Prerequisites: ENGR 1100,When Offered: Fall and Spring terms annually,['ENGR 1100'],['ENGR 1100'],Engineering
+PROGRAMMING FOR BIOMED ENGR,LEC,3,MR,10:00AM,11:20AM,Uwe Kruger,Low Center for Industrial Inn. 4034,24,23,1,BMED,2024-08-28,2024-12-20,FALL 2024,68799,2050,01,BMED-2050,Programming For Biomed Engr,"Introduction of number systems - decimal, binary and hexadecimal -; variable types including Boolean, integer, float, character and string; general overview of computer architecture and software, programming in ""C/C++"" including input/output, control statements, operators, functions, arrays, strings, classes, objects, inheritance, pointers, references, file processing, exceptions and operator overloading; overview of other programming languages including Matlab, R and Python; design of algorithms for applications that are relevant for biomedical engineering applications.",Prerequisites: ENGR 1100,When Offered: Fall and Spring terms annually,['ENGR 1100'],['ENGR 1100'],Engineering
 PROGRAMMING FOR BIOMED ENGR,LEC,3,MR,10:00AM,11:20AM,Natalia Maldonado Martinez,Low Center for Industrial Inn. 3112,24,24,0,BMED,2024-08-28,2024-12-20,FALL 2024,68802,2050,02,BMED-2050,Programming For Biomed Engr,"Introduction of number systems - decimal, binary and hexadecimal -; variable types including Boolean, integer, float, character and string; general overview of computer architecture and software, programming in ""C/C++"" including input/output, control statements, operators, functions, arrays, strings, classes, objects, inheritance, pointers, references, file processing, exceptions and operator overloading; overview of other programming languages including Matlab, R and Python; design of algorithms for applications that are relevant for biomedical engineering applications.",Prerequisites: ENGR 1100,When Offered: Fall and Spring terms annually,['ENGR 1100'],['ENGR 1100'],Engineering
 BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,13,-1,BMED,2024-08-28,2024-12-20,FALL 2024,65075,4010,01,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
 BIOMEDICAL ENGINEERING LAB,LEC,4,W,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,12,13,-1,BMED,2024-08-28,2024-12-20,FALL 2024,65075,4010,01,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
-BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,11,1,BMED,2024-08-28,2024-12-20,FALL 2024,65076,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
-BIOMEDICAL ENGINEERING LAB,LEC,4,R,9:00AM,11:50AM,Monica Agarwal,Jonsson Engineering Center 5213,12,11,1,BMED,2024-08-28,2024-12-20,FALL 2024,65076,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,12,0,BMED,2024-08-28,2024-12-20,FALL 2024,65076,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,R,9:00AM,11:50AM,Monica Agarwal,Jonsson Engineering Center 5213,12,12,0,BMED,2024-08-28,2024-12-20,FALL 2024,65076,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
 BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,12,0,BMED,2024-08-28,2024-12-20,FALL 2024,65857,4010,03,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
 BIOMEDICAL ENGINEERING LAB,LEC,4,R,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,12,12,0,BMED,2024-08-28,2024-12-20,FALL 2024,65857,4010,03,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
 BIOMEDICAL ENGINEERING LAB,LEC,4,T,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,0,0,0,BMED,2024-08-28,2024-12-20,FALL 2024,65295,4010,04,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
 BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,0,0,0,BMED,2024-08-28,2024-12-20,FALL 2024,65295,4010,04,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
-MEDICAL IMAGING,LEC,3,TF,8:30AM,9:50AM,Ge Wang,Russell Sage Laboratory 4112,35,10,25,BMED,2024-08-28,2024-12-20,FALL 2024,69206,6590,01,BMED-6590,Medical Imaging,"This course serves as an in-depth overview to medical imaging modalities. First, individual modalities are introduced, including CT, MRI, PET, SPECT, and US. Then, multimodality systems are described. A balance is made among physical, mathematical, algorithmic, and architectural contents. Contemporary research and insights to improve the current systems are introduced throughout the course to inspire students and provide an understanding of newer tools under development.",Prerequisites: BMED 2300 or permission of instructor,When Offered: Fall term annually.,['BMED 2300'],['BMED 2300'],Engineering
-PERSPECTIVE BIOMOLECULAR SCI,LEC,1,W,3:00PM,3:50PM,Deepak Vashishth,TBA,25,11,14,BMED,2024-08-28,2024-12-20,FALL 2024,68106,6966,01,BMED-6966,Perspective Biomolecular Sci,,,,[],[],Engineering
-BIOMATERIALS SCI & ENGINEERING,LEC,4,MR,12:00PM,1:50PM,Andres Rene Munoz Rojas,Pittsburgh Building 4206,49,49,0,BMED,2024-08-28,2024-12-20,FALL 2024,67195,2100,01,BMED-2100,Biomaterials Sci & Engineering,"Presents structure-property relationships of implant materials including metals, polymers, ceramics, and composites, with an emphasis on mechanical and surface properties in the broader context of implant design. Biological performance of biomaterials, case studies of traditional implants-as well as emerging, tissue-engineered materials- are emphasized.",,When Offered: Spring term annually.,[],[],Engineering
+BIOMEDICAL FLUID MECHANICS,LEC,3,MR,8:30AM,9:50AM,Hisham S. Mohamed,Jonsson Engineering Center 4304,49,5,44,BMED,2024-08-28,2024-12-20,FALL 2024,68282,6580,01,BMED-6580,Biomedical Fluid Mechanics,"This course covers the dynamics of fluid flow in the human physiological system. Engineering principles and fluid dynamic concepts will be taught in the context of cardiovascular system. Topics include: pulsatile flow in arteries, vascular compliance and wave propagation, impedance, cardiac mechanics, dynamic coupling of ventricle and systemic circulation, blood flow in vein, coronary circulation, microcirculation, blood flow at complex geometries, imaging techniques in clinical hemodynamic assessment, fluid mechanics in designing and testing circulatory implants.",Prerequisite: BMED 4250 or ENGR 2250 and a basic knowledge of human physiology,When Offered: Fall term annually.,"['BMED 4250', 'ENGR 2250']","['BMED 4250', 'ENGR 2250']",Engineering
+BIOMATERIALS SCI & ENGINEERING,LEC,4,MR,12:00PM,1:50PM,Andres Rene Munoz Rojas,Pittsburgh Building 4206,49,48,1,BMED,2024-08-28,2024-12-20,FALL 2024,67195,2100,01,BMED-2100,Biomaterials Sci & Engineering,"Presents structure-property relationships of implant materials including metals, polymers, ceramics, and composites, with an emphasis on mechanical and surface properties in the broader context of implant design. Biological performance of biomaterials, case studies of traditional implants-as well as emerging, tissue-engineered materials- are emphasized.",,When Offered: Spring term annually.,[],[],Engineering
 INVESTIGATIVE MEDICINE I,LEC,1,,,,Douglas Martin Swank,TBA,5,0,5,BMED,2024-08-28,2024-12-20,FALL 2024,67883,4110,01,BMED-4110,Investigative Medicine I,"Students will be exposed to real time investigative biomedical research projects that are currently in development, taught the principles of research project development and exposed to clinical experiences at a level typically found in college graduates/post graduates who are entering medical school.",Restricted to 3rd Year RPI students who are in the combined B.S./M.D. Physician Scientist Program with Albany Medical College or 4th Year RPI students who are in the B.S./M.D. Physician Engineer Program with Albany Medical College.,When Offered: Fall term annually.,[],[],Engineering
+MEDICAL IMAGING,LEC,3,TF,8:30AM,9:50AM,Ge Wang,Russell Sage Laboratory 4112,35,8,27,BMED,2024-08-28,2024-12-20,FALL 2024,69206,6590,01,BMED-6590,Medical Imaging,"This course serves as an in-depth overview to medical imaging modalities. First, individual modalities are introduced, including CT, MRI, PET, SPECT, and US. Then, multimodality systems are described. A balance is made among physical, mathematical, algorithmic, and architectural contents. Contemporary research and insights to improve the current systems are introduced throughout the course to inspire students and provide an understanding of newer tools under development.",Prerequisites: BMED 2300 or permission of instructor,When Offered: Fall term annually.,['BMED 2300'],['BMED 2300'],Engineering
 BIOIMAGING/ BIOINSTRUMENTATION,LEC,4,TF,12:00PM,1:50PM,Xavier R. M. Intes,Darrin Communications Center 232,30,21,9,BMED,2024-08-28,2024-12-20,FALL 2024,67197,2300,01,BMED-2300,BIOIMAGING/ Bioinstrumentation,"This course serves as an introduction to biomedical instrumentation and imaging with focus on the acquisition and monitoring of vital signals. Basic principles for the selection and appropriate use of instruments for solving bioengineering and medical problems such as microscopy, magnetic resonance imaging, and ultrasounds, among others are addressed.",Prerequisite: PHYS 1200 or PHYS 1250,When Offered: Spring term annually.,"['PHYS 1200', 'PHYS 1250']","['PHYS 1200', 'PHYS 1250']",Engineering
-BIOSTATISTICS FOR LIFE SCIENCE APPLICATIONS,LEC,3,TF,12:00PM,1:20PM,Xun Wang,Lally Hall 104,49,27,22,BMED,2024-08-28,2024-12-20,FALL 2024,68262,4470,01,BMED-4470,Biostatistics For Life Science Applications,"Starting with the introduction of the probability distribution of one or two continuous random variables, basic concepts of mean, variance, covariance and correlation coefficient are covered. Description techniques discussed include stem-and-leaf plots, histograms, box plots, and probability plots. Confidence intervals for a single sample and for two samples are constructed on means and variances. The procedure of hypothesis testing is introduced conceptually followed by solving real-life biomedical problems. The design and performance of engineering experiments involving a single factor are discussed.",Prerequisites (MATH 2010 or (MATH 2011 and MATH 2012 )) and ENGR 2600,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2011', 'ENGR 2600']","['MATH 2010', 'MATH 2011', 'ENGR 2600']",Engineering
-BIOMECHANICS,LEC,4,TF,2:00PM,3:50PM,George Jiren Lee,Jonsson Engineering Center 5119,49,49,0,BMED,2024-08-28,2024-12-20,FALL 2024,67111,2540,01,BMED-2540,Biomechanics,"Application of mechanics to the study of normal, diseased, and traumatized musculo-skeletal system. Areas covered include determination of joint and muscle forces, mechanical properties of biological tissues, and structural analysis of bone-implant systems. Case studies are discussed to illustrate the role of biomechanics and biomaterials in the design of implants.",Prerequisite: ENGR 1100,When Offered: Spring term annually.,['ENGR 1100'],['ENGR 1100'],Engineering
-ENGINEERING MATH: DATA SCIENCE,LEC,3,TF,10:00AM,11:20AM,FNU Rahul,Darrin Communications Center 236,12,8,4,BMED,2024-08-28,2024-12-20,FALL 2024,69508,6420,01,BMED-6420,Engineering MATH: Data Science,"The course covers matrix algebra and decompositions, including eigenvalue and generalized eigenvalue problems, solving multivariate constraint and unconstraint optimization problems, gradient-based optimization for solving nonlinear optimization problems, and regression analysis. Concepts that are discussed include solving nonlinear optimization problems, first- and second-order gradient-based methods, estimating parameters for multiple linear regression and mechanistic first-principle models. The course also introduces important data science tasks: data analysis, regression, classification and presents application studies related to biomedical engineering.",None.,When Offered: Fall annually,[],[],Engineering
+BIOSTATISTICS FOR LIFE SCIENCE APPLICATIONS,LEC,3,TF,12:00PM,1:20PM,Xun Wang,Lally Hall 104,49,24,25,BMED,2024-08-28,2024-12-20,FALL 2024,68262,4470,01,BMED-4470,Biostatistics For Life Science Applications,"Starting with the introduction of the probability distribution of one or two continuous random variables, basic concepts of mean, variance, covariance and correlation coefficient are covered. Description techniques discussed include stem-and-leaf plots, histograms, box plots, and probability plots. Confidence intervals for a single sample and for two samples are constructed on means and variances. The procedure of hypothesis testing is introduced conceptually followed by solving real-life biomedical problems. The design and performance of engineering experiments involving a single factor are discussed.",Prerequisites (MATH 2010 or (MATH 2011 and MATH 2012 )) and ENGR 2600,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2011', 'ENGR 2600']","['MATH 2010', 'MATH 2011', 'ENGR 2600']",Engineering
+PERSPECTIVE BIOMOLECULAR SCI,LEC,1,W,3:00PM,3:50PM,Deepak Vashishth,TBA,25,12,13,BMED,2024-08-28,2024-12-20,FALL 2024,68106,6966,01,BMED-6966,Perspective Biomolecular Sci,,,,[],[],Engineering
+BIOMECHANICS,LEC,4,TF,2:00PM,3:50PM,George Jiren Lee,Jonsson Engineering Center 5119,49,47,2,BMED,2024-08-28,2024-12-20,FALL 2024,67111,2540,01,BMED-2540,Biomechanics,"Application of mechanics to the study of normal, diseased, and traumatized musculo-skeletal system. Areas covered include determination of joint and muscle forces, mechanical properties of biological tissues, and structural analysis of bone-implant systems. Case studies are discussed to illustrate the role of biomechanics and biomaterials in the design of implants.",Prerequisite: ENGR 1100,When Offered: Spring term annually.,['ENGR 1100'],['ENGR 1100'],Engineering
 MODELING OF BIOMEDICAL SYSTEMS,LEC,3,MR,10:00AM,11:20AM,Juergen Hahn,Greene Building 120,45,39,6,BMED,2024-08-28,2024-12-20,FALL 2024,67245,4200,01,BMED-4200,Modeling Of Biomedical Systems,"Introduction of mathematical and computational methods to model physiological systems in biomedical engineering. Mathematical methods include solution techniques for systems of algebraic equations, systems of partial and partial differential equations. Computational methods include finite difference, finite element, and lumped parameter methods. Computational methods are programmed using commercial programming software.","Prerequisites: BMED 2050, MATH 2400, and PHYS 1200","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2050', 'MATH 2400', 'PHYS 1200']","['BMED 2050', 'MATH 2400', 'PHYS 1200']",Engineering
+ENGINEERING MATH: DATA SCIENCE,LEC,3,TF,10:00AM,11:20AM,FNU Rahul,Darrin Communications Center 236,12,5,7,BMED,2024-08-28,2024-12-20,FALL 2024,69508,6420,01,BMED-6420,Engineering MATH: Data Science,"The course covers matrix algebra and decompositions, including eigenvalue and generalized eigenvalue problems, solving multivariate constraint and unconstraint optimization problems, gradient-based optimization for solving nonlinear optimization problems, and regression analysis. Concepts that are discussed include solving nonlinear optimization problems, first- and second-order gradient-based methods, estimating parameters for multiple linear regression and mechanistic first-principle models. The course also introduces important data science tasks: data analysis, regression, classification and presents application studies related to biomedical engineering.",None.,When Offered: Fall annually,[],[],Engineering
 ADV SYSTEMS PHYSIOLOGY,LEC,4,MR,2:00PM,3:50PM,Juergen Hahn/Peter Vincent,Darrin Communications Center 324,49,51,-2,BMED,2024-08-28,2024-12-20,FALL 2024,68063,4500,01,BMED-4500,Adv Systems Physiology,"Applications of control theory and systems techniques to physiology. Emphasis is on entire systems and their interactions rather than isolated phenomena. Areas covered include cardiac, respiratory, renal, and gastrointestinal systems. Includes laboratory on the application of engineering techniques in the study of physiological systems. This course is taught at Albany Medical Center and enrollment is limited to BME students.",Prerequisite: BIOL 2120 or equivalent,When Offered: Fall and spring terms annually.,['BIOL 2120'],['BIOL 2120'],Engineering
+BIOMED TRANSPORT PHENOMENA,LEC,4,TF,10:00AM,11:50AM,Mariah Somer Hahn,Russell Sage Laboratory 5510,49,42,7,BMED,2024-08-28,2024-12-20,FALL 2024,68808,4250,01,BMED-4250,Biomed Transport Phenomena,"Quantitative analysis of transport phenomena in physiological systems, including fluid mechanics, thermodynamics, and mass transfer. Fluid statics, mass and energy conservation, laminar and turbulent flow, microscale and macroscale analytical methods, mass transport with biochemical reactions, applications to transport in tissue and organs will be introduced.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ) and MATH 2400,"When Offered: Fall, Spring, and Summer terms annually","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 2400']",Engineering
 DRUG AND GENE DELIVERY,LEC,3,TF,10:00AM,11:20AM,Ryan James Gilbert,Voorhees Computing Center SO,35,14,21,BMED,2024-08-28,2024-12-20,FALL 2024,69506,6450,01,BMED-6450,Drug And Gene Delivery,"The course presents several aspects of drug and genes delivery including: 1) definitions of what drugs or gene are; 2) pharmacokinetics and pharmacodynamics; 3) biomaterial selection considerations; 4) bioactivity considerations; 5) physiological and biochemical barriers to drug delivery; 6) diffusion controlled, dissolution controlled, and osmotic controlled drug delivery systems; 7) polymeric delivery systems; 8) ligand-based targeting and physical targeting; 9) viral mediated gene delivery; 10) non-viral gene delivery; 11) polymers in gene delivery.","Prerequisites: BMED 2100 or equivalent, senior standing, or instructor permission",When Offered: Fall term annually.,['BMED 2100'],['BMED 2100'],Engineering
+BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,M,12:00PM,1:50PM,George Jiren Lee,Darrin Communications Center 330,30,26,4,BMED,2024-08-28,2024-12-20,FALL 2024,67246,4260,01,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,R,12:00PM,12:50PM,George Jiren Lee,Darrin Communications Center 330,30,26,4,BMED,2024-08-28,2024-12-20,FALL 2024,67246,4260,01,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,M,12:00PM,1:50PM,Hisham S. Mohamed,Low Center for Industrial Inn. 3039,30,30,0,BMED,2024-08-28,2024-12-20,FALL 2024,67247,4260,02,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,R,12:00PM,12:50PM,Hisham S. Mohamed,Low Center for Industrial Inn. 3039,30,30,0,BMED,2024-08-28,2024-12-20,FALL 2024,67247,4260,02,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+BIOMECHANICS II,LEC,4,MR,10:00AM,11:50AM,David Thomas Corr,Darrin Communications Center 236,25,16,9,BMED,2024-08-28,2024-12-20,FALL 2024,69731,4540,01,BMED-4540,Biomechanics Ii,"Examines biomechanics of human body movement through developing various models (e.g., lumped mass, planar rigid body, 3D) and exploring current techniques in Forward and Inverse Dynamic approaches. Topics are developed on a classical mechanics foundation, and simulations are constructed using software (e.g., OpenSIM) to describe normal movements, and investigate possible sources of abnormalities due to injury, disease, or dysfunction.","Prerequisites: BMED 2540 or equivalent, junior/senior standing, or instructor permission.",When Offered: Fall term annually.,['BMED 2540'],['BMED 2540'],Engineering
+BME SEMINAR,LEC,1,R,2:00PM,3:20PM,Christopher Michael Puleo,Carnegie Building 113,49,1,48,BMED,2024-08-28,2024-12-20,FALL 2024,67409,4960,01,BMED-4960,Bme Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+DISCUSSIONS IN GRADUATE RESEARCH,LEC,0,W,12:00PM,12:50PM,FNU Rahul,Academy Hall AUD,70,55,15,BMED,2024-08-28,2024-12-20,FALL 2024,67257,6800,01,BMED-6800,Discussions In Graduate Research,"This is a seminar based graduate level course that provides (a) a broad exposure to contemporary topics of research in biomedical engineering by recognized experts in the field and; (b) hands-on exposure on various aspects of professional development to Ph.D. students including conference/thesis presentations, writing scientific manuscripts and pre-doctoral and post-doctoral fellowship grant applications. Students are required to attend and participate in the departmental seminar and present their own research and grant proposals.",Graduate student status required.,When Offered: Fall and spring terms annually.,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Qun Wan,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,67171,6980,01,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,David Thomas Corr,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,66612,6980,02,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,4,,,,Uwe Kruger,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,67734,6980,03,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Edmund Francis Palermo,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,70018,6980,04,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Deepak Vashishth,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,67729,6980,08,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-BIOMED TRANSPORT PHENOMENA,LEC,4,TF,10:00AM,11:50AM,Mariah Somer Hahn,Russell Sage Laboratory 5510,49,46,3,BMED,2024-08-28,2024-12-20,FALL 2024,68808,4250,01,BMED-4250,Biomed Transport Phenomena,"Quantitative analysis of transport phenomena in physiological systems, including fluid mechanics, thermodynamics, and mass transfer. Fluid statics, mass and energy conservation, laminar and turbulent flow, microscale and macroscale analytical methods, mass transport with biochemical reactions, applications to transport in tissue and organs will be introduced.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ) and MATH 2400,"When Offered: Fall, Spring, and Summer terms annually","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 2400']",Engineering
-BME SEMINAR,LEC,1,R,2:00PM,3:20PM,Christopher Michael Puleo,Carnegie Building 113,49,0,49,BMED,2024-08-28,2024-12-20,FALL 2024,67409,4960,01,BMED-4960,Bme Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
-DISCUSSIONS IN GRADUATE RESEARCH,LEC,0,W,12:00PM,12:50PM,FNU Rahul,Academy Hall AUD,70,52,18,BMED,2024-08-28,2024-12-20,FALL 2024,67257,6800,01,BMED-6800,Discussions In Graduate Research,"This is a seminar based graduate level course that provides (a) a broad exposure to contemporary topics of research in biomedical engineering by recognized experts in the field and; (b) hands-on exposure on various aspects of professional development to Ph.D. students including conference/thesis presentations, writing scientific manuscripts and pre-doctoral and post-doctoral fellowship grant applications. Students are required to attend and participate in the departmental seminar and present their own research and grant proposals.",Graduate student status required.,When Offered: Fall and spring terms annually.,[],[],Engineering
+CELL BIOMECHANICS,LEC,3,TF,2:00PM,3:20PM,Qun Wan,Jonsson Engineering Center 4309,35,11,24,BMED,2024-08-28,2024-12-20,FALL 2024,68589,4550,01,BMED-4550,Cell Biomechanics,"This is an undergraduate/graduate course on the mechanics of biopolymers, cell cytoskeleton, cell membrane, the whole cell, and multicellular structures in the context of the modulation of cell function by mechanical stresses. Topics include state-of-the-art experimental techniques in cell biomechanics, and cutting-edge research in stem cell mechanobiology, cell motility, collective cell behavior, neurite growth, osteocyte sensing, cardiovascular diseases, and immunology.",Prerequisite: BMED 2540 or equivalent,When Offered: Fall term annually.,['BMED 2540'],['BMED 2540'],Engineering
 MASTER'S THESIS,LEC,1-9,,,,David Thomas Corr,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,66675,6990,01,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-9,,,,Deepak Vashishth,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,66362,6990,02,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-9,,,,Eric Howard Ledet,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,65283,6990,03,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -218,69 +232,62 @@ MASTER'S THESIS,LEC,1-9,,,,Robert J. Linhardt,TBA,10,0,10,BMED,2024-08-28,2024-1
 MASTER'S THESIS,LEC,1-9,,,,Xavier R. M. Intes,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,66840,6990,11,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-9,,,,Ryan James Gilbert,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,67114,6990,12,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-9,,,,Mariah Somer Hahn,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,67131,6990,13,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,M,12:00PM,1:50PM,George Jiren Lee,Russell Sage Laboratory 3303,30,28,2,BMED,2024-08-28,2024-12-20,FALL 2024,67246,4260,01,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,R,12:00PM,12:50PM,George Jiren Lee,Russell Sage Laboratory 3303,30,28,2,BMED,2024-08-28,2024-12-20,FALL 2024,67246,4260,01,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,M,12:00PM,1:50PM,Hisham S. Mohamed,Troy Building 2012,30,28,2,BMED,2024-08-28,2024-12-20,FALL 2024,67247,4260,02,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,R,12:00PM,12:50PM,Hisham S. Mohamed,Troy Building 2012,30,28,2,BMED,2024-08-28,2024-12-20,FALL 2024,67247,4260,02,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-BIOMECHANICS II,LEC,4,MR,10:00AM,11:50AM,David Thomas Corr,Darrin Communications Center 236,25,15,10,BMED,2024-08-28,2024-12-20,FALL 2024,69731,4540,01,BMED-4540,Biomechanics Ii,"Examines biomechanics of human body movement through developing various models (e.g., lumped mass, planar rigid body, 3D) and exploring current techniques in Forward and Inverse Dynamic approaches. Topics are developed on a classical mechanics foundation, and simulations are constructed using software (e.g., OpenSIM) to describe normal movements, and investigate possible sources of abnormalities due to injury, disease, or dysfunction.","Prerequisites: BMED 2540 or equivalent, junior/senior standing, or instructor permission.",When Offered: Fall term annually.,['BMED 2540'],['BMED 2540'],Engineering
+BIOSTATISTICS FOR LIFE SCIENCE APPLICATIONS,LEC,3,TF,12:00PM,1:20PM,Xun Wang,Lally Hall 104,49,18,31,BMED,2024-08-28,2024-12-20,FALL 2024,68263,6470,01,BMED-6470,Biostatistics For Life Science Applications,"Starting with the introduction of the probability distribution of one or two continuous random variables, basic concepts of mean, variance, covariance, and correlation coefficient are covered. Description techniques discussed include stem-and-leaf plots, histograms, box plots, and probability plots. Confidence intervals for a single sample and for two samples are constructed on means and variances. The procedure of hypothesis testing is introduced conceptually followed by solving real-life biomedical problems. The design and performance of engineering experiments involving a single factor are discussed.",,When Offered: Fall term annually.,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Suvranu De,TBA,5,0,5,BMED,2024-08-28,2024-12-20,FALL 2024,66841,9990,01,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Elizabeth Blaber,TBA,10,5,5,BMED,2024-08-28,2024-12-20,FALL 2024,68301,9990,02,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Eric Howard Ledet,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,65192,9990,03,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Xavier R. M. Intes,TBA,10,7,3,BMED,2024-08-28,2024-12-20,FALL 2024,66352,9990,04,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Ryan James Gilbert,TBA,10,3,7,BMED,2024-08-28,2024-12-20,FALL 2024,65231,9990,05,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Deepak Vashishth,TBA,10,5,5,BMED,2024-08-28,2024-12-20,FALL 2024,65407,9990,06,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Deepak Vashishth,TBA,10,4,6,BMED,2024-08-28,2024-12-20,FALL 2024,65407,9990,06,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Jonathan C Newell,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,65451,9990,07,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Deanna Marie Thompson,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,65551,9990,08,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Stanley M. Dunn,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,68873,9990,09,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Christopher Michael Puleo,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,65937,9990,10,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Stanley M. Dunn,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,68873,9990,09,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Christopher Michael Puleo,TBA,10,2,8,BMED,2024-08-28,2024-12-20,FALL 2024,65937,9990,10,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Qun Wan,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,69384,9990,11,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Douglas Martin Swank,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,66363,9990,12,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,FNU Rahul,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,69904,9990,13,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Mariah Somer Hahn,TBA,10,2,8,BMED,2024-08-28,2024-12-20,FALL 2024,66964,9990,14,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Juergen Hahn,TBA,10,3,7,BMED,2024-08-28,2024-12-20,FALL 2024,66965,9990,15,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Qun Wan,TBA,10,5,5,BMED,2024-08-28,2024-12-20,FALL 2024,66966,9990,16,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Ge Wang,TBA,10,3,7,BMED,2024-08-28,2024-12-20,FALL 2024,67092,9990,17,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Qun Wan,TBA,10,6,4,BMED,2024-08-28,2024-12-20,FALL 2024,66966,9990,16,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Ge Wang,TBA,10,4,6,BMED,2024-08-28,2024-12-20,FALL 2024,67092,9990,17,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Andres Rene Munoz Rojas,TBA,10,2,8,BMED,2024-08-28,2024-12-20,FALL 2024,67721,9990,19,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,David Thomas Corr,TBA,10,4,6,BMED,2024-08-28,2024-12-20,FALL 2024,65974,9990,20,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Pingkun Yan,TBA,10,6,4,BMED,2024-08-28,2024-12-20,FALL 2024,67895,9990,21,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Pingkun Yan,TBA,10,7,3,BMED,2024-08-28,2024-12-20,FALL 2024,67895,9990,21,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Robert J. Linhardt,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,67904,9990,22,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Jonathan Dordick,TBA,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,69026,9990,23,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Edmund Francis Palermo,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,69039,9990,24,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Uwe Kruger,TBA,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,69084,9990,25,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-CELL BIOMECHANICS,LEC,3,TF,2:00PM,3:20PM,Qun Wan,Jonsson Engineering Center 4309,35,11,24,BMED,2024-08-28,2024-12-20,FALL 2024,68589,4550,01,BMED-4550,Cell Biomechanics,"This is an undergraduate/graduate course on the mechanics of biopolymers, cell cytoskeleton, cell membrane, the whole cell, and multicellular structures in the context of the modulation of cell function by mechanical stresses. Topics include state-of-the-art experimental techniques in cell biomechanics, and cutting-edge research in stem cell mechanobiology, cell motility, collective cell behavior, neurite growth, osteocyte sensing, cardiovascular diseases, and immunology.",Prerequisite: BMED 2540 or equivalent,When Offered: Fall term annually.,['BMED 2540'],['BMED 2540'],Engineering
-BIOSTATISTICS FOR LIFE SCIENCE APPLICATIONS,LEC,3,TF,12:00PM,1:20PM,Xun Wang,Lally Hall 104,49,18,31,BMED,2024-08-28,2024-12-20,FALL 2024,68263,6470,01,BMED-6470,Biostatistics For Life Science Applications,"Starting with the introduction of the probability distribution of one or two continuous random variables, basic concepts of mean, variance, covariance, and correlation coefficient are covered. Description techniques discussed include stem-and-leaf plots, histograms, box plots, and probability plots. Confidence intervals for a single sample and for two samples are constructed on means and variances. The procedure of hypothesis testing is introduced conceptually followed by solving real-life biomedical problems. The design and performance of engineering experiments involving a single factor are discussed.",,When Offered: Fall term annually.,[],[],Engineering
-BME SEMINAR,LEC,1,R,2:00PM,3:20PM,Christopher Michael Puleo,Carnegie Building 113,10,0,10,BMED,2024-08-28,2024-12-20,FALL 2024,67410,6960,01,BMED-6960,Bme Seminar,New courses or special course offerings are given under this number from time to time. Graduate students in biomedical engineering may pursue special interests under this number when sponsored by a biomedical engineering faculty member and with the permission of the department.,,When Offered: By individual arrangement.,[],[],Engineering
-BIOMEDICAL FLUID MECHANICS,LEC,3,MR,8:30AM,9:50AM,Hisham S. Mohamed,Jonsson Engineering Center 4304,49,14,35,BMED,2024-08-28,2024-12-20,FALL 2024,67055,4580,01,BMED-4580,Biomedical Fluid Mechanics,"This course covers the dynamics of fluid flow in human physiological system. Engineering principles and fluid dynamic concepts will be taught in the context of cardiovascular system. Topics include: pulsatile flow in arteries, vascular compliance and wave propagation, impedance, cardiac mechanics, dynamic coupling of ventricle and systemic circulation, blood flow in vein, coronary circulation, microcirculation, blood flow at complex geometries, imaging techniques in clinical hemodynamic assessment, fluid mechanics in designing and testing circulatory implants.",Prerequisite: BMED 4250 or ENGR 2250 and a basic knowledge of human physiology,When Offered: Fall term annually.,"['BMED 4250', 'ENGR 2250']","['BMED 4250', 'ENGR 2250']",Engineering
-COMM BMED INN/ENTREP BUS FDMT,LEC,3,F,9:00AM,11:50AM,Johan Maharjan,Carnegie Building 210,15,1,14,BMED,2024-08-28,2024-12-20,FALL 2024,69476,6961,01,BMED-6961,Comm Bmed INN/ENTREP Bus Fdmt,,,,[],[],Engineering
-MEDICAL IMAGING,LEC,3,TF,8:30AM,9:50AM,Ge Wang,Russell Sage Laboratory 4112,35,8,27,BMED,2024-08-28,2024-12-20,FALL 2024,69205,4590,01,BMED-4590,Medical Imaging,"This course serves as an in-depth overview to medical imaging modalities. First, individual modalities are introduced, including CT, MRI, PET, SPECT, and US. Then, multimodality systems are described. A balance is made among physical, mathematical, algorithmic and architectural contents. Contemporary research and insights to improve the current systems are introduced throughout the course to inspire students and provide an understanding of newer tools under development.",Prerequisites: BMED 2300 or approval of instructor,When Offered: Fall term annually.,['BMED 2300'],['BMED 2300'],Engineering
-BIOMEDICAL INSTRUMENTATION,LEC,3,TF,10:00AM,11:20AM,Monica Agarwal,Ricketts Building 208,20,11,9,BMED,2024-08-28,2024-12-20,FALL 2024,69507,4430,01,BMED-4430,Biomedical Instrumentation,"This course introduces students to concepts related to design, operation, evaluation, and optimization of biomedical instrumentation. Students learn the basic principles of how physical devices interface with biological systems for measuring, characterizing, and manipulating cells, tissues, organs, or an entire organism. These measurements are central to the biomedical field; whether enabling a physician or health care professional to monitor, diagnose, and treat patients, or, by supporting discovery in translational and fundamental biomedical engineering fields.This course introduces students to concepts related to design, operation, evaluation, and optimization of biomedical instrumentation. Students learn the basic principles of how physical devices interface with biological systems for measuring, characterizing, and manipulating cells, tissues, organs, or an entire organism. These measurements are central to the biomedical field; whether enabling a physician or health care professional to monitor, diagnose, and treat patients, or, by supporting discovery in translational and fundamental biomedical engineering fields.",Prerequisites/Corequisites: BMED 2300,When Offered: Fall annually,['BMED 2300'],['BMED 2300'],Engineering
+BIOMEDICAL FLUID MECHANICS,LEC,3,MR,8:30AM,9:50AM,Hisham S. Mohamed,Jonsson Engineering Center 4304,49,15,34,BMED,2024-08-28,2024-12-20,FALL 2024,67055,4580,01,BMED-4580,Biomedical Fluid Mechanics,"This course covers the dynamics of fluid flow in human physiological system. Engineering principles and fluid dynamic concepts will be taught in the context of cardiovascular system. Topics include: pulsatile flow in arteries, vascular compliance and wave propagation, impedance, cardiac mechanics, dynamic coupling of ventricle and systemic circulation, blood flow in vein, coronary circulation, microcirculation, blood flow at complex geometries, imaging techniques in clinical hemodynamic assessment, fluid mechanics in designing and testing circulatory implants.",Prerequisite: BMED 4250 or ENGR 2250 and a basic knowledge of human physiology,When Offered: Fall term annually.,"['BMED 4250', 'ENGR 2250']","['BMED 4250', 'ENGR 2250']",Engineering
+MEDICAL IMAGING,LEC,3,TF,8:30AM,9:50AM,Ge Wang,Russell Sage Laboratory 4112,35,7,28,BMED,2024-08-28,2024-12-20,FALL 2024,69205,4590,01,BMED-4590,Medical Imaging,"This course serves as an in-depth overview to medical imaging modalities. First, individual modalities are introduced, including CT, MRI, PET, SPECT, and US. Then, multimodality systems are described. A balance is made among physical, mathematical, algorithmic and architectural contents. Contemporary research and insights to improve the current systems are introduced throughout the course to inspire students and provide an understanding of newer tools under development.",Prerequisites: BMED 2300 or approval of instructor,When Offered: Fall term annually.,['BMED 2300'],['BMED 2300'],Engineering
+BME SEMINAR,LEC,1,R,2:00PM,3:20PM,Christopher Michael Puleo,Carnegie Building 113,10,1,9,BMED,2024-08-28,2024-12-20,FALL 2024,67410,6960,01,BMED-6960,Bme Seminar,New courses or special course offerings are given under this number from time to time. Graduate students in biomedical engineering may pursue special interests under this number when sponsored by a biomedical engineering faculty member and with the permission of the department.,,When Offered: By individual arrangement.,[],[],Engineering
+BIOMEDICAL INSTRUMENTATION,LEC,3,TF,10:00AM,11:20AM,Monica Agarwal,Jonsson Engineering Center 4304,20,14,6,BMED,2024-08-28,2024-12-20,FALL 2024,69507,4430,01,BMED-4430,Biomedical Instrumentation,"This course introduces students to concepts related to design, operation, evaluation, and optimization of biomedical instrumentation. Students learn the basic principles of how physical devices interface with biological systems for measuring, characterizing, and manipulating cells, tissues, organs, or an entire organism. These measurements are central to the biomedical field; whether enabling a physician or health care professional to monitor, diagnose, and treat patients, or, by supporting discovery in translational and fundamental biomedical engineering fields.This course introduces students to concepts related to design, operation, evaluation, and optimization of biomedical instrumentation. Students learn the basic principles of how physical devices interface with biological systems for measuring, characterizing, and manipulating cells, tissues, organs, or an entire organism. These measurements are central to the biomedical field; whether enabling a physician or health care professional to monitor, diagnose, and treat patients, or, by supporting discovery in translational and fundamental biomedical engineering fields.",Prerequisites/Corequisites: BMED 2300,When Offered: Fall annually,['BMED 2300'],['BMED 2300'],Engineering
 BIOMEDICAL ENGR DESIGN,LEC,3,MR,2:00PM,3:20PM,Hisham S. Mohamed,Amos Eaton Hall 215,49,5,44,BMED,2024-08-28,2024-12-20,FALL 2024,68065,4600,01,BMED-4600,Biomedical Engr Design,A guided approach to development of design skills. Students work individually and in teams to tackle a biomedical design problem using methods drawn as necessary from engineering and from the physical and mathematical sciences. Discussion sessions involve students in presentations of work. This is a communication-intensive course.,Prerequisite: BMED 4260 or permission of instructor,When Offered: Fall and Spring terms annually.,['BMED 4260'],['BMED 4260'],Engineering
-CELL BIOMECHANICS,LEC,3,TF,2:00PM,3:20PM,Qun Wan,Jonsson Engineering Center 4309,35,12,23,BMED,2024-08-28,2024-12-20,FALL 2024,68591,6550,01,BMED-6550,Cell Biomechanics,"This is an undergraduate/graduate course on the mechanics of biopolymers, cell cytoskeleton, cell membrane, the whole cell, and multicellular structures in the context of the modulation of cell function by mechanical stresses. Topics include state-of-the-art experimental techniques in cell biomechanics, and cutting-edge research in stem cell mechanobiology, cell motility, collective cell behavior, neurite growth, osteocyte sensing, cardiovascular diseases, and immunology.",Prerequisite:BMED 2540 or equivalent,When Offered: Fall term annually.,['BMED 2540'],['BMED 2540'],Engineering
-INTRO TO CELL AND TISSUE ENG,LEC,3,MR,8:00AM,9:30AM,Christopher Michael Puleo,Russell Sage Laboratory 4112,25,3,22,BMED,2024-08-28,2024-12-20,FALL 2024,69831,4650,01,BMED-4650,Intro To Cell And Tissue Eng,"The principles and practice of tissue engineering are taught in this course. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and biomechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Bioreactors, enabling technology and biomimetic approach for fabricating tissue-engineered products and devices for implantation are taught.","Prerequisites: a basic course in mechanics (ENGR 2530 or BMED 2540 ), and a basic course in transport phenomena or fluid dynamics (BMED 4250 or ENGR 2250 or equivalent), or permission of instructor.",When Offered: Spring term annually.,"['ENGR 2530', 'BMED 2540', 'BMED 4250', 'ENGR 2250']","['ENGR 2530', 'BMED 2540', 'BMED 4250', 'ENGR 2250']",Engineering
-BIOMEDICAL FLUID MECHANICS,LEC,3,MR,8:30AM,9:50AM,Hisham S. Mohamed,Jonsson Engineering Center 4304,49,6,43,BMED,2024-08-28,2024-12-20,FALL 2024,68282,6580,01,BMED-6580,Biomedical Fluid Mechanics,"This course covers the dynamics of fluid flow in the human physiological system. Engineering principles and fluid dynamic concepts will be taught in the context of cardiovascular system. Topics include: pulsatile flow in arteries, vascular compliance and wave propagation, impedance, cardiac mechanics, dynamic coupling of ventricle and systemic circulation, blood flow in vein, coronary circulation, microcirculation, blood flow at complex geometries, imaging techniques in clinical hemodynamic assessment, fluid mechanics in designing and testing circulatory implants.",Prerequisite: BMED 4250 or ENGR 2250 and a basic knowledge of human physiology,When Offered: Fall term annually.,"['BMED 4250', 'ENGR 2250']","['BMED 4250', 'ENGR 2250']",Engineering
-FUND OF OPTICAL NANOMATERIALS,LEC,3,TF,8:30AM,9:50AM,Ji Young Kim,Russell Sage Laboratory 2707,30,2,28,CHME,2024-08-28,2024-12-20,FALL 2024,69668,4962,01,CHME-4962,Fund Of Optical Nanomaterials,,,,[],[],Engineering
-PHYSICAL CHEMISTRY OF POLYMERS,LEC,3,MR,4:00PM,5:50PM,Sangwoo Lee,Darrin Communications Center 232,30,12,18,CHME,2024-08-28,2024-12-20,FALL 2024,69672,6961,01,CHME-6961,Physical Chemistry Of Polymers,,,,[],[],Engineering
+COMM BMED INN/ENTREP BUS FDMT,LEC,3,F,9:00AM,11:50AM,Johan Maharjan,Carnegie Building 210,15,1,14,BMED,2024-08-28,2024-12-20,FALL 2024,69476,6961,01,BMED-6961,Comm Bmed INN/ENTREP Bus Fdmt,,,,[],[],Engineering
+INTRO TO CELL AND TISSUE ENG,LEC,3,MR,8:00AM,9:30AM,Christopher Michael Puleo,Russell Sage Laboratory 4112,25,6,19,BMED,2024-08-28,2024-12-20,FALL 2024,69831,4650,01,BMED-4650,Intro To Cell And Tissue Eng,"The principles and practice of tissue engineering are taught in this course. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and biomechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Bioreactors, enabling technology and biomimetic approach for fabricating tissue-engineered products and devices for implantation are taught.","Prerequisites: a basic course in mechanics (ENGR 2530 or BMED 2540 ), and a basic course in transport phenomena or fluid dynamics (BMED 4250 or ENGR 2250 or equivalent), or permission of instructor.",When Offered: Spring term annually.,"['ENGR 2530', 'BMED 2540', 'BMED 4250', 'ENGR 2250']","['ENGR 2530', 'BMED 2540', 'BMED 4250', 'ENGR 2250']",Engineering
+CELL BIOMECHANICS,LEC,3,TF,2:00PM,3:20PM,Qun Wan,Jonsson Engineering Center 4309,35,10,25,BMED,2024-08-28,2024-12-20,FALL 2024,68591,6550,01,BMED-6550,Cell Biomechanics,"This is an undergraduate/graduate course on the mechanics of biopolymers, cell cytoskeleton, cell membrane, the whole cell, and multicellular structures in the context of the modulation of cell function by mechanical stresses. Topics include state-of-the-art experimental techniques in cell biomechanics, and cutting-edge research in stem cell mechanobiology, cell motility, collective cell behavior, neurite growth, osteocyte sensing, cardiovascular diseases, and immunology.",Prerequisite:BMED 2540 or equivalent,When Offered: Fall term annually.,['BMED 2540'],['BMED 2540'],Engineering
+FUND OF OPTICAL NANOMATERIALS,LEC,3,TF,8:30AM,9:50AM,Ji Young Kim,Russell Sage Laboratory 2707,30,4,26,CHME,2024-08-28,2024-12-20,FALL 2024,69668,4962,01,CHME-4962,Fund Of Optical Nanomaterials,,,,[],[],Engineering
+PHYSICAL CHEMISTRY OF POLYMERS,LEC,3,MR,4:00PM,5:50PM,Sangwoo Lee,Darrin Communications Center 232,30,8,22,CHME,2024-08-28,2024-12-20,FALL 2024,69672,6961,01,CHME-6961,Physical Chemistry Of Polymers,,,,[],[],Engineering
 DEEP DIVE DNA / RNA PURIFICATN,LEC,2,T,9:00AM,10:50AM,Georges Belfort,TBA,25,0,25,CHME,2024-08-28,2024-12-20,FALL 2024,69779,4964,01,CHME-4964,Deep Dive Dna / Rna Purificatn,,,,[],[],Engineering
-CHEMICAL & PHASE EQUILIBRIA,LEC,3,MR,2:00PM,3:50PM,Vidhya Chakrapani,Russell Sage Laboratory 3705,20,14,6,CHME,2024-08-28,2024-12-20,FALL 2024,65133,6570,01,CHME-6570,Chemical & Phase Equilibria,"Classical solution thermodynamics, equations of state, and topics in chemical reaction and phase equilibria. Emphasis is on the rigorous formulation of equilibrium problems, and on the measurement, reduction, correlation, and interpretation of experimental data.",Prerequisites: CHME 2020 or equivalent and MATH 2400 or equivalent.,When Offered: Fall term annually.,"['CHME 2020', 'MATH 2400']","['CHME 2020', 'MATH 2400']",Engineering
-OPTICAL NANOMATERIALS,LEC,3,TF,8:30AM,9:50AM,Ji Young Kim,Russell Sage Laboratory 2707,30,4,26,CHME,2024-08-28,2024-12-20,FALL 2024,69673,6962,01,CHME-6962,Optical Nanomaterials,,,,[],[],Engineering
-INTRO BIOCHEMICAL ENGR,LEC,3,MR,10:00AM,11:50AM,Pankaj Karande,Darrin Communications Center 232,30,14,16,CHME,2024-08-28,2024-12-20,FALL 2024,67074,4430,01,CHME-4430,Intro Biochemical Engr,"Description, fundamentals, and engineering features of processes using microbial, plant or animal cells or their enzymes. Topics include review of biochemistry, review of microbiology, computer simulation, growth, death, aseptic techniques, continuous culture, fermenter design, sterilization, mixed cultures, process scale up, immobilized cells and enzymes, recovery of products, and process economics. Weekly exercises requiring personal computers.",Prerequisite: background in chemical engineering or microbiology. Biochemistry strongly recommended.,When Offered: Fall term annually.,[],[],Engineering
-MATH METHODS IN CHEM ENGR I,LEC,3,TF,2:00PM,3:50PM,Patrick T. Underhill,Russell Sage Laboratory 2715,20,16,4,CHME,2024-08-28,2024-12-20,FALL 2024,65134,6610,01,CHME-6610,Math Methods In Chem Engr I,"Development and application of mathematical methods for the solution of chemical engineering problems. Classical solution methods for ordinary and partial differential equations. Major emphasis is given to the mathematical implications of describing and solving representation of chemical reactors and other systems. Case studies relevant to other departmental graduate courses and ongoing research activities are discussed. The mathematical methods include series solutions, special function representations, boundary-value problems, and operational calculus.",Prerequisite: MATH 2400 or equivalent.,When Offered: Fall term annually.,['MATH 2400'],['MATH 2400'],Engineering
+CHEMICAL & PHASE EQUILIBRIA,LEC,3,MR,2:00PM,3:50PM,Vidhya Chakrapani,Russell Sage Laboratory 3705,20,13,7,CHME,2024-08-28,2024-12-20,FALL 2024,65133,6570,01,CHME-6570,Chemical & Phase Equilibria,"Classical solution thermodynamics, equations of state, and topics in chemical reaction and phase equilibria. Emphasis is on the rigorous formulation of equilibrium problems, and on the measurement, reduction, correlation, and interpretation of experimental data.",Prerequisites: CHME 2020 or equivalent and MATH 2400 or equivalent.,When Offered: Fall term annually.,"['CHME 2020', 'MATH 2400']","['CHME 2020', 'MATH 2400']",Engineering
+OPTICAL NANOMATERIALS,LEC,3,TF,8:30AM,9:50AM,Ji Young Kim,Russell Sage Laboratory 2707,30,7,23,CHME,2024-08-28,2024-12-20,FALL 2024,69673,6962,01,CHME-6962,Optical Nanomaterials,,,,[],[],Engineering
+INTRO BIOCHEMICAL ENGR,LEC,3,MR,10:00AM,11:50AM,Pankaj Karande,Darrin Communications Center 232,30,13,17,CHME,2024-08-28,2024-12-20,FALL 2024,67074,4430,01,CHME-4430,Intro Biochemical Engr,"Description, fundamentals, and engineering features of processes using microbial, plant or animal cells or their enzymes. Topics include review of biochemistry, review of microbiology, computer simulation, growth, death, aseptic techniques, continuous culture, fermenter design, sterilization, mixed cultures, process scale up, immobilized cells and enzymes, recovery of products, and process economics. Weekly exercises requiring personal computers.",Prerequisite: background in chemical engineering or microbiology. Biochemistry strongly recommended.,When Offered: Fall term annually.,[],[],Engineering
+MATH METHODS IN CHEM ENGR I,LEC,3,TF,2:00PM,3:50PM,Patrick T. Underhill,Russell Sage Laboratory 2715,20,18,2,CHME,2024-08-28,2024-12-20,FALL 2024,65134,6610,01,CHME-6610,Math Methods In Chem Engr I,"Development and application of mathematical methods for the solution of chemical engineering problems. Classical solution methods for ordinary and partial differential equations. Major emphasis is given to the mathematical implications of describing and solving representation of chemical reactors and other systems. Case studies relevant to other departmental graduate courses and ongoing research activities are discussed. The mathematical methods include series solutions, special function representations, boundary-value problems, and operational calculus.",Prerequisite: MATH 2400 or equivalent.,When Offered: Fall term annually.,['MATH 2400'],['MATH 2400'],Engineering
 CBE PHD ON-RAMP SEMINAR,LEC,2,W,3:00PM,4:50PM,Todd Przybycien,Troy Building 2015,20,10,10,CHME,2024-08-28,2024-12-20,FALL 2024,68120,6963,01,CHME-6963,Cbe Phd ON-RAMP Seminar,,,,[],[],Engineering
 DEEP DIVE DNA / RNA PURIFICATN,LEC,2,T,9:00AM,10:50AM,Georges Belfort,TBA,25,8,17,CHME,2024-08-28,2024-12-20,FALL 2024,69780,6964,01,CHME-6964,Deep Dive Dna / Rna Purificatn,,,,[],[],Engineering
-TRANSPORT PHENOMENA I,LEC,4,TF,2:00PM,3:50PM,Corey Christopher Woodcock,Carnegie Building 101,20,2,18,CHME,2024-08-28,2024-12-20,FALL 2024,65240,4010,01,CHME-4010,Transport Phenomena I,"An introductory course in transport phenomena covering fluid statics, and one-dimensional diffusive processes including laminar flow, heat conduction, and mass diffusion. Course focuses on developing the equations of change, introducing sum-of-resistance concepts and couple fluid flow, heat transfer, and mass transfer problems. The concept of extended surfaces as a means of enhancing transport process is included. The course introduces numerical simulation concepts for solving simple, one-dimensional transport problems. Credit not allowed for both this course and ENGR 2250.",Prerequisite: MATH 2400 and CHME 2010.,"When Offered: Spring term annually, fall and summer terms upon availability of instructor.","['MATH 2400', 'CHME 2010']","['MATH 2400', 'CHME 2010']",Engineering
+TRANSPORT PHENOMENA I,LEC,4,TF,2:00PM,3:50PM,Corey Christopher Woodcock,Jonsson-Rowland Science Center 2C22,20,3,17,CHME,2024-08-28,2024-12-20,FALL 2024,65240,4010,01,CHME-4010,Transport Phenomena I,"An introductory course in transport phenomena covering fluid statics, and one-dimensional diffusive processes including laminar flow, heat conduction, and mass diffusion. Course focuses on developing the equations of change, introducing sum-of-resistance concepts and couple fluid flow, heat transfer, and mass transfer problems. The concept of extended surfaces as a means of enhancing transport process is included. The course introduces numerical simulation concepts for solving simple, one-dimensional transport problems. Credit not allowed for both this course and ENGR 2250.",Prerequisite: MATH 2400 and CHME 2010.,"When Offered: Spring term annually, fall and summer terms upon availability of instructor.","['MATH 2400', 'CHME 2010']","['MATH 2400', 'CHME 2010']",Engineering
 CHEMICAL REACTOR DESIGN,LEC,3,MR,12:00PM,1:50PM,B Wayne Bequette,Amos Eaton Hall 216,40,29,11,CHME,2024-08-28,2024-12-20,FALL 2024,65143,4500,01,CHME-4500,Chemical Reactor Design,"Principles of kinetics, reactor design, and analysis for both homogeneous and heterogeneous (catalytic) systems. Topics include design for multiple reaction networks (optimum selectivity), analysis of simple reactor combinations, and design of isothermal, adiabatic, and optimum temperature profile reactor.","Prerequisites: CHME 2010, CHME 2020, CHME 4010, and CHME 4020.","When Offered: Fall and Spring terms annually, Summer term upon availability of instructor.","['CHME 2010', 'CHME 2020', 'CHME 4010', 'CHME 4020']","['CHME 2010', 'CHME 2020', 'CHME 4010', 'CHME 4020']",Engineering
-INTRO SEMICONDUCTOR PROC,LEC,3,MR,10:00AM,11:20AM,Max Oliver Bloomfield,Jonsson-Rowland Science Center 1W01,10,4,6,CHME,2024-08-28,2024-12-20,FALL 2024,69666,4600,01,CHME-4600,Intro Semiconductor Proc,"The basic processes of fabrication of silicon-based semiconductor devices with emphasis on the chemical principles and systems involved. Topics include materials preparation, oxide growth, lithography, diffusion, ion implantation, epitaxial growth, chemical-vapor deposition, vacuum deposition, reactive ion etching, and packaging technologies. Fabrication of both bipolar and FET devices is discussed with emphasis on manufacturing process flow and control. Process design methodology.",Prerequisite: senior standing in chemical engineering or permission of instructor.,"When Offered: Fall term annually, Spring and Summer terms upon availability of instructor.",[],[],Engineering
-"MATERIAL, ENERGY & ENTROPY BAL",LEC,3,MR,2:00PM,3:50PM,Jason Mark Warner,Greene Building 120,45,39,6,CHME,2024-08-28,2024-12-20,FALL 2024,68965,2010,01,CHME-2010,"MATERIAL, Energy & Entropy Bal","Development of the ability to apply and solve equations of balance for chemical-process systems, laying the foundation for subsequent chemical engineering courses in unit operations and process design. Topics include mass and mole balances for nonreactive and reactive systems, properties of fluids, and the first and second laws of thermodynamics.",Prerequisites/Corequisites: CHME 1100 (preferred) or ENGR 1100.,"When Offered: Fall term annually, Spring and Summer upon availability of the instructor.","['CHME 1100', 'ENGR 1100']","['CHME 1100', 'ENGR 1100']",Engineering
+INTRO SEMICONDUCTOR PROC,LEC,3,MR,10:00AM,11:20AM,Max Oliver Bloomfield,Jonsson-Rowland Science Center 1W01,10,8,2,CHME,2024-08-28,2024-12-20,FALL 2024,69666,4600,01,CHME-4600,Intro Semiconductor Proc,"The basic processes of fabrication of silicon-based semiconductor devices with emphasis on the chemical principles and systems involved. Topics include materials preparation, oxide growth, lithography, diffusion, ion implantation, epitaxial growth, chemical-vapor deposition, vacuum deposition, reactive ion etching, and packaging technologies. Fabrication of both bipolar and FET devices is discussed with emphasis on manufacturing process flow and control. Process design methodology.",Prerequisite: senior standing in chemical engineering or permission of instructor.,"When Offered: Fall term annually, Spring and Summer terms upon availability of instructor.",[],[],Engineering
+"MATERIAL, ENERGY & ENTROPY BAL",LEC,3,MR,2:00PM,3:50PM,Jason Mark Warner,Greene Building 120,45,40,5,CHME,2024-08-28,2024-12-20,FALL 2024,68965,2010,01,CHME-2010,"MATERIAL, Energy & Entropy Bal","Development of the ability to apply and solve equations of balance for chemical-process systems, laying the foundation for subsequent chemical engineering courses in unit operations and process design. Topics include mass and mole balances for nonreactive and reactive systems, properties of fluids, and the first and second laws of thermodynamics.",Prerequisites/Corequisites: CHME 1100 (preferred) or ENGR 1100.,"When Offered: Fall term annually, Spring and Summer upon availability of the instructor.","['CHME 1100', 'ENGR 1100']","['CHME 1100', 'ENGR 1100']",Engineering
 TRANSPORT PHENOMENA II,LEC,4,MR,2:00PM,3:50PM,Corey Christopher Woodcock,Voorhees Computing Center SO,30,15,15,CHME,2024-08-28,2024-12-20,FALL 2024,67846,4020,01,CHME-4020,Transport Phenomena Ii,"A continuation of CHME 4010. Course includes topics on multi-dimensional transport processes, potential, boundary layer and turbulent fluid flows, convective heat and mass transfer processes, friction factors and drag in and around solid objects, heat and mass exchangers, and radiation heat transfer. The course extends the use of numerical methods to apply to multidimensional problems, convective heat and mass transfer problems, and the simulation of more complicated fluid flows including turbulence approximations. Credit not allowed for both this course and ENGR 2250.",Prerequisite: MATH 2400 and CHME 4010.,"When Offered: Fall and Spring term annually, Summer term upon availability of the instructor.","['CHME 4010', 'MATH 2400', 'CHME 4010']","['CHME 4010', 'MATH 2400', 'CHME 4010']",Engineering
-BIOCHEMICAL ENGR,LEC,3,MR,10:00AM,11:50AM,Pankaj Karande,Darrin Communications Center 232,30,6,24,CHME,2024-08-28,2024-12-20,FALL 2024,67075,6430,01,CHME-6430,Biochemical Engr,"Engineering aspects of microbial processes and of conversions with immobilized enzymes. Topics are mixed-culture processes, sterilization, aseptic techniques, mass transfer, bioprocess control, product isolation, enzyme technology, bioprocess development. There are heavy emphases on continuous fermentation and on chemicals from biomass.",Prerequisite: microbiology or assigned reading.,When Offered: Fall term annually.,[],[],Engineering
-CHEM PROCESS DYNAMICS & CNTRL,LEC,4,TF,11:00AM,12:50PM,Mattheos Koffas,Russell Sage Laboratory 5101,60,46,14,CHME,2024-08-28,2024-12-20,FALL 2024,66655,4030,01,CHME-4030,Chem Process Dynamics & Cntrl,"Introduction to modeling and control of dynamic chemical processes. Topics include the development of first-principles models, linearization and state space form, input/output (transfer function) form, design and tuning of PID controllers, model-based control, frequency response for robustness analysis, case studies in multivariable control, numerical analysis, and simulation.","Prerequisites: CHME 2050, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring and summer terms upon availability of the instructor.,"['CHME 2050', 'CHME 4040', 'CHME 4500']","['CHME 2050', 'CHME 4040', 'CHME 4500']",Engineering
-INTRO TO CHEMICAL ENGINEERING,LEC,1,W,11:00AM,11:50AM,Joel Plawsky,Russell Sage Laboratory 5101,70,48,22,CHME,2024-08-28,2024-12-20,FALL 2024,66491,1010,01,CHME-1010,Intro To Chemical Engineering,"This is an elective course suitable for first-year students interested in chemical engineering. It introduces students to the profession, including the technical content, career opportunities, and societal impact.",,When Offered: Fall term annually; spring and summer upon availability.,[],[],Engineering
-INTRODUCTION TO COMPUTATIONAL CHEMICAL ENGINEERING,LEC,3,TF,12:00PM,1:50PM,Nihat Baysal,Carnegie Building 208,30,20,10,CHME,2024-08-28,2024-12-20,FALL 2024,69320,2050,01,CHME-2050,Introduction To Computational Chemical Engineering,"This course introduces common computational techniques that are used in Chemical Engineering. Topics include solving algebraic equations, data analysis, numerical differentiation and integration, and numerical solutions of differential equations applied to chemical engineering problems. Multiple numerical approaches will be used, including an introduction to computer programming.",Prerequisites/Corequisites: MATH 2400 as a prerequisite only.,"When Offered: Summer term annually, Fall and Spring terms upon availability of the instructor.",['MATH 2400'],['MATH 2400'],Engineering
-CHEMICAL ENG SEPARATIONS,LEC,3,TWF,1:00PM,1:50PM,Steven Cramer,Amos Eaton Hall 216,40,28,12,CHME,2024-08-28,2024-12-20,FALL 2024,65293,4040,01,CHME-4040,Chemical Eng Separations,"The application of the fundamentals of chemistry, thermodynamics, mathematics, and transport phenomena to the design and evaluation of stage-wise and continuous contacting apparatus and systems for separating and purifying chemical materials. Steady-state and transient processes are studied.","Prerequisites: CHME 2020, CHME 4010, and CHME 4020.",When Offered: Fall and spring terms annually; summer term upon availability of instructor.,"['CHME 2020', 'CHME 4010', 'CHME 4020']","['CHME 2020', 'CHME 4010', 'CHME 4020']",Engineering
+BIOCHEMICAL ENGR,LEC,3,MR,10:00AM,11:50AM,Pankaj Karande,Darrin Communications Center 232,30,8,22,CHME,2024-08-28,2024-12-20,FALL 2024,67075,6430,01,CHME-6430,Biochemical Engr,"Engineering aspects of microbial processes and of conversions with immobilized enzymes. Topics are mixed-culture processes, sterilization, aseptic techniques, mass transfer, bioprocess control, product isolation, enzyme technology, bioprocess development. There are heavy emphases on continuous fermentation and on chemicals from biomass.",Prerequisite: microbiology or assigned reading.,When Offered: Fall term annually.,[],[],Engineering
+CHEM PROCESS DYNAMICS & CNTRL,LEC,4,TF,11:00AM,12:50PM,Mattheos Koffas,Russell Sage Laboratory 5101,60,47,13,CHME,2024-08-28,2024-12-20,FALL 2024,66655,4030,01,CHME-4030,Chem Process Dynamics & Cntrl,"Introduction to modeling and control of dynamic chemical processes. Topics include the development of first-principles models, linearization and state space form, input/output (transfer function) form, design and tuning of PID controllers, model-based control, frequency response for robustness analysis, case studies in multivariable control, numerical analysis, and simulation.","Prerequisites: CHME 2050, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring and summer terms upon availability of the instructor.,"['CHME 2050', 'CHME 4040', 'CHME 4500']","['CHME 2050', 'CHME 4040', 'CHME 4500']",Engineering
+INTRO TO CHEMICAL ENGINEERING,LEC,1,W,11:00AM,11:50AM,Joel Plawsky,Russell Sage Laboratory 5101,70,49,21,CHME,2024-08-28,2024-12-20,FALL 2024,66491,1010,01,CHME-1010,Intro To Chemical Engineering,"This is an elective course suitable for first-year students interested in chemical engineering. It introduces students to the profession, including the technical content, career opportunities, and societal impact.",,When Offered: Fall term annually; spring and summer upon availability.,[],[],Engineering
+INTRODUCTION TO COMPUTATIONAL CHEMICAL ENGINEERING,LEC,3,TF,12:00PM,1:50PM,Nihat Baysal,Russell Sage Laboratory 2112,30,21,9,CHME,2024-08-28,2024-12-20,FALL 2024,69320,2050,01,CHME-2050,Introduction To Computational Chemical Engineering,"This course introduces common computational techniques that are used in Chemical Engineering. Topics include solving algebraic equations, data analysis, numerical differentiation and integration, and numerical solutions of differential equations applied to chemical engineering problems. Multiple numerical approaches will be used, including an introduction to computer programming.",Prerequisites/Corequisites: MATH 2400 as a prerequisite only.,"When Offered: Summer term annually, Fall and Spring terms upon availability of the instructor.",['MATH 2400'],['MATH 2400'],Engineering
+CHEMICAL ENG SEPARATIONS,LEC,3,TWF,1:00PM,1:50PM,Steven Cramer,Amos Eaton Hall 216,40,29,11,CHME,2024-08-28,2024-12-20,FALL 2024,65293,4040,01,CHME-4040,Chemical Eng Separations,"The application of the fundamentals of chemistry, thermodynamics, mathematics, and transport phenomena to the design and evaluation of stage-wise and continuous contacting apparatus and systems for separating and purifying chemical materials. Steady-state and transient processes are studied.","Prerequisites: CHME 2020, CHME 4010, and CHME 4020.",When Offered: Fall and spring terms annually; summer term upon availability of instructor.,"['CHME 2020', 'CHME 4010', 'CHME 4020']","['CHME 2020', 'CHME 4010', 'CHME 4020']",Engineering
 PROFESSIONAL PROJECT,LEC,1-6,,,,Georges Belfort,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,66004,6970,01,CHME-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
-CHEMICAL PROCESS SAFETY,LEC,0,,,,Joel Plawsky,TBA,50,19,31,CHME,2024-08-28,2024-12-20,FALL 2024,69147,2100,01,CHME-2100,Chemical Process Safety,This is a course designed to supplement RPI's personal lab safety courses and covers the safety protocols and practices associated with chemical process plants. It is designed to provide information necessary for an ABET accredited degree and to assist students in finding an internship and a job. The course uses material offered on-line by the American Institute of Chemical Engineers. It is part of the Safety and Chemical Engineering (SAChE) Certificate program offered by the society and provides continuing education credits for working engineers.,Prerequisite: CHME 2020,"When Offered: Fall, Spring, annually, Summer term upon availability of the instructor.",['CHME 2020'],['CHME 2020'],Engineering
+CHEMICAL PROCESS SAFETY,LEC,0,,,,Joel Plawsky,TBA,50,20,30,CHME,2024-08-28,2024-12-20,FALL 2024,69147,2100,01,CHME-2100,Chemical Process Safety,This is a course designed to supplement RPI's personal lab safety courses and covers the safety protocols and practices associated with chemical process plants. It is designed to provide information necessary for an ABET accredited degree and to assist students in finding an internship and a job. The course uses material offered on-line by the American Institute of Chemical Engineers. It is part of the Safety and Chemical Engineering (SAChE) Certificate program offered by the society and provides continuing education credits for working engineers.,Prerequisite: CHME 2020,"When Offered: Fall, Spring, annually, Summer term upon availability of the instructor.",['CHME 2020'],['CHME 2020'],Engineering
 CHEMICAL PROCESS DSGN: FDMTL,LEC,3,MR,2:00PM,3:50PM,Nihat Baysal/B Wayne Bequette,Troy Building 2012,30,30,0,CHME,2024-08-28,2024-12-20,FALL 2024,69636,4050,01,CHME-4050,Chemical Process DSGN: Fdmtl,"The design of equipment, processes, and systems of interest in chemical engineering through application of scientific, technological, and economic principles. The concepts of product design, design for the environment, and the ethical and safety issues of design are introduced. Emphasis is placed on problem formulation and the conceptual, analytical, and decision aspects of open-ended design situations. The work integrates knowledge and skills gained in previous and concurrent courses. This is a communication-intensive course.","Prerequisites: CHME 2100, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring upon availability of instructor.,"['CHME 2100', 'CHME 4040', 'CHME 4500']","['CHME 2100', 'CHME 4040', 'CHME 4500']",Engineering
-CHEMICAL PROCESS DSGN: FDMTL,LEC,3,MR,2:00PM,3:50PM,Nihat Baysal/B Wayne Bequette,Troy Building 2012,30,19,11,CHME,2024-08-28,2024-12-20,FALL 2024,69645,4050,02,CHME-4050,Chemical Process DSGN: Fdmtl,"The design of equipment, processes, and systems of interest in chemical engineering through application of scientific, technological, and economic principles. The concepts of product design, design for the environment, and the ethical and safety issues of design are introduced. Emphasis is placed on problem formulation and the conceptual, analytical, and decision aspects of open-ended design situations. The work integrates knowledge and skills gained in previous and concurrent courses. This is a communication-intensive course.","Prerequisites: CHME 2100, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring upon availability of instructor.,"['CHME 2100', 'CHME 4040', 'CHME 4500']","['CHME 2100', 'CHME 4040', 'CHME 4500']",Engineering
+CHEMICAL PROCESS DSGN: FDMTL,LEC,3,MR,2:00PM,3:50PM,Nihat Baysal/B Wayne Bequette,Troy Building 2012,30,22,8,CHME,2024-08-28,2024-12-20,FALL 2024,69645,4050,02,CHME-4050,Chemical Process DSGN: Fdmtl,"The design of equipment, processes, and systems of interest in chemical engineering through application of scientific, technological, and economic principles. The concepts of product design, design for the environment, and the ethical and safety issues of design are introduced. Emphasis is placed on problem formulation and the conceptual, analytical, and decision aspects of open-ended design situations. The work integrates knowledge and skills gained in previous and concurrent courses. This is a communication-intensive course.","Prerequisites: CHME 2100, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring upon availability of instructor.,"['CHME 2100', 'CHME 4040', 'CHME 4500']","['CHME 2100', 'CHME 4040', 'CHME 4500']",Engineering
 MASTERS PROJECT,LEC,1-16,,,,Corey Christopher Woodcock,TBA,5,0,5,CHME,2024-08-28,2024-12-20,FALL 2024,66719,6980,01,CHME-6980,Masters Project,,,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Georges Belfort,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,66260,6990,01,CHME-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Sufei Shi,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,66417,6990,02,CHME-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -292,27 +299,28 @@ MASTERS THESIS,LEC,1-12,,,,Mattheos Koffas,TBA,10,0,10,CHME,2024-08-28,2024-12-2
 MASTERS THESIS,LEC,1-12,,,,Juergen Hahn,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,67471,6990,08,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Sangwoo Lee,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,67950,6990,09,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Steven Cramer,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,68442,6990,10,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTERS THESIS,LEC,1-12,,,,Runye H. Zha,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,68443,6990,11,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Runye H. Zha,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,68443,6990,11,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Todd Przybycien,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,69443,6990,12,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Jonathan Dordick,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,69452,6990,13,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-CHEMICAL AND BIOLOGICAL ENGINEERING SEMINAR,LEC,1,W,9:00AM,11:00AM,Sangwoo Lee,Darrin Communications Center 337,75,42,33,CHME,2024-08-28,2024-12-20,FALL 2024,67208,6900,01,CHME-6900,Chemical And Biological Engineering Seminar,"This seminar-based graduate level course provides a broad exposure to the chemical and biological engineering discipline. Attending and participating in seminars from recognized experts will form the core of the course. Topics include energy and the environment, nano and biotechnologies, computational molecular science, polymers and advanced materials, synthetic biology, metabolic engineering, and the future of our discipline. The course is required for chemical engineering Ph.D. students.",,When Offered: Fall and spring term annually.,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Todd Przybycien,TBA,10,6,4,CHME,2024-08-28,2024-12-20,FALL 2024,66142,9990,01,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+CHEMICAL PROCESS DSGN: FDMTL,LEC,1,,,,Nihat Baysal,TBA,8,5,3,CHME,2024-08-28,2024-12-20,FALL 2024,70020,4960,01,CHME-4960,Chemical Process DSGN: Fdmtl,,,,[],[],Engineering
+CHEMICAL AND BIOLOGICAL ENGINEERING SEMINAR,LEC,1,W,9:00AM,11:00AM,Sangwoo Lee,Darrin Communications Center 337,75,53,22,CHME,2024-08-28,2024-12-20,FALL 2024,67208,6900,01,CHME-6900,Chemical And Biological Engineering Seminar,"This seminar-based graduate level course provides a broad exposure to the chemical and biological engineering discipline. Attending and participating in seminars from recognized experts will form the core of the course. Topics include energy and the environment, nano and biotechnologies, computational molecular science, polymers and advanced materials, synthetic biology, metabolic engineering, and the future of our discipline. The course is required for chemical engineering Ph.D. students.",,When Offered: Fall and spring term annually.,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Todd Przybycien,TBA,10,7,3,CHME,2024-08-28,2024-12-20,FALL 2024,66142,9990,01,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Sangwoo Lee,TBA,10,3,7,CHME,2024-08-28,2024-12-20,FALL 2024,65914,9990,02,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Esther Alexandra Wertz,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,65158,9990,04,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Georges Belfort,TBA,10,3,7,CHME,2024-08-28,2024-12-20,FALL 2024,65159,9990,05,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Juergen Hahn,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,66980,9990,06,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Shekhar S Garde,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,65194,9990,08,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Steven Cramer,TBA,10,3,7,CHME,2024-08-28,2024-12-20,FALL 2024,65195,9990,09,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Steven Cramer,TBA,10,8,2,CHME,2024-08-28,2024-12-20,FALL 2024,65195,9990,09,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Liping Huang,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,67428,9990,10,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Jonathan Dordick,TBA,10,2,8,CHME,2024-08-28,2024-12-20,FALL 2024,65196,9990,11,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jonathan Dordick,TBA,10,3,7,CHME,2024-08-28,2024-12-20,FALL 2024,65196,9990,11,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Joel Plawsky,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,65255,9990,12,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Pankaj Karande,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,66316,9990,13,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Patrick T. Underhill,TBA,10,2,8,CHME,2024-08-28,2024-12-20,FALL 2024,66450,9990,14,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Mattheos Koffas,TBA,10,3,7,CHME,2024-08-28,2024-12-20,FALL 2024,66786,9990,16,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Mattheos Koffas,TBA,10,6,4,CHME,2024-08-28,2024-12-20,FALL 2024,66786,9990,16,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Vidhya Chakrapani,TBA,10,1,9,CHME,2024-08-28,2024-12-20,FALL 2024,67051,9990,17,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Sufei Shi,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,67470,9990,18,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Runye H. Zha,TBA,10,4,6,CHME,2024-08-28,2024-12-20,FALL 2024,68100,9990,20,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,B Wayne Bequette,TBA,10,2,8,CHME,2024-08-28,2024-12-20,FALL 2024,65612,9990,23,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,B Wayne Bequette,TBA,10,3,7,CHME,2024-08-28,2024-12-20,FALL 2024,65612,9990,23,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Theodorian Borca-Tasciuc,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,65874,9990,24,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Diana Andra Borca Tasciuc,TBA,10,0,10,CHME,2024-08-28,2024-12-20,FALL 2024,65871,9990,26,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 CHEMICAL ENGR LAB I,LEC,3,M,6:00PM,7:50PM,Ronald C. Hedden,Walker Laboratory 5113,20,20,0,CHME,2024-08-28,2024-12-20,FALL 2024,65131,4150,01,CHME-4150,Chemical Engr Lab I,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4010, CHME 4020, and CHME 2020.Attributes Data Intensive 2","When Offered: Fall term annually, Spring term upon availability of the instructor.","['CHME 4010', 'CHME 4020', 'CHME 2020']","['CHME 4010', 'CHME 4020', 'CHME 2020']",Engineering
@@ -321,41 +329,43 @@ CHEMICAL ENGR LAB I,LEC,3,M,6:00PM,7:50PM,Ronald C. Hedden,Walker Laboratory 511
 CHEMICAL ENGR LAB I,LEC,3,W,2:00PM,5:50PM,Ronald C. Hedden,Ricketts Building 008A,20,20,0,CHME,2024-08-28,2024-12-20,FALL 2024,65132,4150,02,CHME-4150,Chemical Engr Lab I,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4010, CHME 4020, and CHME 2020.Attributes Data Intensive 2","When Offered: Fall term annually, Spring term upon availability of the instructor.","['CHME 4010', 'CHME 4020', 'CHME 2020']","['CHME 4010', 'CHME 4020', 'CHME 2020']",Engineering
 CHEMICAL ENGR LAB I,LEC,3,M,6:00PM,7:50PM,Ronald C. Hedden,Walker Laboratory 5113,20,12,8,CHME,2024-08-28,2024-12-20,FALL 2024,68845,4150,03,CHME-4150,Chemical Engr Lab I,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4010, CHME 4020, and CHME 2020.Attributes Data Intensive 2","When Offered: Fall term annually, Spring term upon availability of the instructor.","['CHME 4010', 'CHME 4020', 'CHME 2020']","['CHME 4010', 'CHME 4020', 'CHME 2020']",Engineering
 CHEMICAL ENGR LAB I,LEC,3,F,2:00PM,5:50PM,Ronald C. Hedden,Ricketts Building 008A,20,12,8,CHME,2024-08-28,2024-12-20,FALL 2024,68845,4150,03,CHME-4150,Chemical Engr Lab I,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4010, CHME 4020, and CHME 2020.Attributes Data Intensive 2","When Offered: Fall term annually, Spring term upon availability of the instructor.","['CHME 4010', 'CHME 4020', 'CHME 2020']","['CHME 4010', 'CHME 4020', 'CHME 2020']",Engineering
-PHYSICAL CHEMISTRY OF POLYMERS,LEC,3,MR,4:00PM,5:50PM,Sangwoo Lee,Darrin Communications Center 232,30,3,27,CHME,2024-08-28,2024-12-20,FALL 2024,69667,4961,01,CHME-4961,Physical Chemistry Of Polymers,,,,[],[],Engineering
+PHYSICAL CHEMISTRY OF POLYMERS,LEC,3,MR,4:00PM,5:50PM,Sangwoo Lee,Darrin Communications Center 232,30,1,29,CHME,2024-08-28,2024-12-20,FALL 2024,69667,4961,01,CHME-4961,Physical Chemistry Of Polymers,,,,[],[],Engineering
 FOUNDATION ENGINEERING,LEC,3,TF,10:00AM,11:50AM,Omar Osama El-Shafee,Low Center for Industrial Inn. 4034,25,19,6,CIVL,2024-08-28,2024-12-20,FALL 2024,65063,4010,01,CIVL-4010,Foundation Engineering,"Subsurface investigation. The application of the principles of soil mechanics to the design of footings, retaining walls, pile foundations, bulkheads, cofferdams, bridge piers and abutments, and underpinnings.",Prerequisites: CIVL 2630 or equivalent.,When Offered: Fall term annually.,['CIVL 2630'],['CIVL 2630'],Engineering
-WIND ENGINEERING,LEC,3,TF,10:00AM,11:50AM,Min Li,Carnegie Building 102,20,12,8,CIVL,2024-08-28,2024-12-20,FALL 2024,69488,6390,01,CIVL-6390,Wind Engineering,"This course will develop understanding and integrate skills across the fields of fluid mechanics, meteorology, climatology, bluff-body aerodynamics, structural dynamics, code provisions for design, wind tunnel testing, and damage documentation.",Prerequisite: CIVL 2060,"When Offered: Fall term, even-numbered years.",['CIVL 2060'],['CIVL 2060'],Engineering
-BEDFORD SEMINAR,LEC,3,W,12:00PM,1:50PM,James Norman Richardson,Troy Building 2015,15,12,3,CIVL,2024-08-28,2024-12-20,FALL 2024,67058,4020,01,CIVL-4020,Bedford Seminar,The seminar will be interdisciplinary with students from both architecture and civil engineering departments. The content of the lectures bears direct relation to practical experience and is considered to be supplementary to the other courses in the respective engineering and architecture schools. Specific types of structures will be examined with the help of suitable existing project examples clarifying and critically analyzing the basic engineering principles behind them. Students will be exposed to the collaborative methods inherent within the architect/engineer relationship.,,When Offered: Fall and spring terms annually.,[],[],Engineering
+WIND ENGINEERING,LEC,3,TF,10:00AM,11:50AM,Min Li,Carnegie Building 102,20,13,7,CIVL,2024-08-28,2024-12-20,FALL 2024,69488,6390,01,CIVL-6390,Wind Engineering,"This course will develop understanding and integrate skills across the fields of fluid mechanics, meteorology, climatology, bluff-body aerodynamics, structural dynamics, code provisions for design, wind tunnel testing, and damage documentation.",Prerequisite: CIVL 2060,"When Offered: Fall term, even-numbered years.",['CIVL 2060'],['CIVL 2060'],Engineering
+BEDFORD SEMINAR,LEC,3,W,12:00PM,1:50PM,James Norman Richardson,Troy Building 2015,15,13,2,CIVL,2024-08-28,2024-12-20,FALL 2024,67058,4020,01,CIVL-4020,Bedford Seminar,The seminar will be interdisciplinary with students from both architecture and civil engineering departments. The content of the lectures bears direct relation to practical experience and is considered to be supplementary to the other courses in the respective engineering and architecture schools. Specific types of structures will be examined with the help of suitable existing project examples clarifying and critically analyzing the basic engineering principles behind them. Students will be exposed to the collaborative methods inherent within the architect/engineer relationship.,,When Offered: Fall and spring terms annually.,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Mourad Zeghal,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,66851,6980,02,CIVL-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Christopher W Letchford,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,66962,6980,03,CIVL-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 STEEL DESIGN,LEC,3,TF,2:00PM,3:50PM,Christos Varsamis,Carnegie Building 201,40,40,0,CIVL,2024-08-28,2024-12-20,FALL 2024,65070,4070,01,CIVL-4070,Steel Design,"Analysis and design of metal structures. Structural materials and loads. Design of beams, columns, bolted and welded connections. Composite construction.",Prerequisite: CIVL 2670.,When Offered: Fall term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
-INTELLIGENT TRANSPORTATION SYSTEMS,LEC,3,MR,2:00PM,3:50PM,John M. Reilly,Russell Sage Laboratory 2112,15,5,10,CIVL,2024-08-28,2024-12-20,FALL 2024,69480,6240,01,CIVL-6240,Intelligent Transportation Systems,The course discusses Intelligent Transportation Systems (ITS) technologies and their application areas. ITS technologies. ITS Architecture. ITS applications. A number of outside speakers will complement the lectures. The students are expected to give at least two technical presentations and write a final paper on an ITS topic of their choosing.,Prerequisite: CIVL 2030 or equivalent.,"When Offered: Fall term, even-numbered years.",['CIVL 2030'],['CIVL 2030'],Engineering
-STRUCTURAL DYNAMICS,LEC,3,MR,12:00PM,1:50PM,Michael Symans,Jonsson Engineering Center 4304,15,6,9,CIVL,2024-08-28,2024-12-20,FALL 2024,65333,6450,01,CIVL-6450,Structural Dynamics,"Analysis of elastic and inelastic single and multiple degree-of-freedom structural systems under time-dependent loads including harmonic, impulse, earthquake, and other general dynamic loads. Development of equations of motion. Analytical and numerical evaluation of free and forced vibration response. Identification of dynamic system properties. Modal analysis. Vibration isolation and force transmissibility. Dynamic measurement sensors. Shock loading spectrum. Frequency-domain analysis.",Prerequisite: CIVL 4440.,When Offered: Fall term annually.,['CIVL 4440'],['CIVL 4440'],Engineering
+INTELLIGENT TRANSPORTATION SYSTEMS,LEC,3,MR,2:00PM,3:50PM,John M. Reilly,Russell Sage Laboratory 2112,15,4,11,CIVL,2024-08-28,2024-12-20,FALL 2024,69480,6240,01,CIVL-6240,Intelligent Transportation Systems,The course discusses Intelligent Transportation Systems (ITS) technologies and their application areas. ITS technologies. ITS Architecture. ITS applications. A number of outside speakers will complement the lectures. The students are expected to give at least two technical presentations and write a final paper on an ITS topic of their choosing.,Prerequisite: CIVL 2030 or equivalent.,"When Offered: Fall term, even-numbered years.",['CIVL 2030'],['CIVL 2030'],Engineering
+STRUCTURAL DYNAMICS,LEC,3,MR,12:00PM,1:50PM,Michael Symans,Jonsson Engineering Center 4304,15,5,10,CIVL,2024-08-28,2024-12-20,FALL 2024,65333,6450,01,CIVL-6450,Structural Dynamics,"Analysis of elastic and inelastic single and multiple degree-of-freedom structural systems under time-dependent loads including harmonic, impulse, earthquake, and other general dynamic loads. Development of equations of motion. Analytical and numerical evaluation of free and forced vibration response. Identification of dynamic system properties. Modal analysis. Vibration isolation and force transmissibility. Dynamic measurement sensors. Shock loading spectrum. Frequency-domain analysis.",Prerequisite: CIVL 4440.,When Offered: Fall term annually.,['CIVL 4440'],['CIVL 4440'],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Julia D Carroll,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,66690,6990,01,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Tarek H Abdoun,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,66248,6990,02,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Jose E. Holguin-Veras,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,65286,6990,03,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Omar Osama El-Shafee,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,65938,6990,04,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Xiaozheng He,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,66375,6990,05,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Mourad Zeghal,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,66382,6990,06,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Victoria Gene Bennett,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,67109,6990,08,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Shun Uchida,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,67426,6990,09,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Christopher W Letchford,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,67127,6990,11,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Michael Symans,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,67265,6990,12,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-HIGHWAY ENGINEERING,LEC,3,R,4:00PM,6:50PM,Stephan Walter Godlewski,Troy Building 2015,25,22,3,CIVL,2024-08-28,2024-12-20,FALL 2024,68827,4670,01,CIVL-4670,Highway Engineering,"Principles of geometric design of highways, intersections, interchanges, and terminals. Practical issues of vertical and horizontal curvature, highway evaluation, driver and vehicle dynamics, and traffic safety are also addressed. Computer-aided design and modeling.",Prerequisite: CIVL 2030.,When Offered: Upon availability of instructor.,['CIVL 2030'],['CIVL 2030'],Engineering
-TRANSPORTATION SYS PLANNING,LEC,3,MR,4:00PM,5:50PM,Jose E. Holguin-Veras,Low Center for Industrial Inn. 3116,15,6,9,CIVL,2024-08-28,2024-12-20,FALL 2024,69479,6250,01,CIVL-6250,Transportation Sys Planning,"The analysis and planning of transportation systems. Study of the basic interaction between transportation supply and demand. Role of transportation systems analysis in social, environmental, and policy making. Trip generation. Trip distribution. Mode split. Traffic assignment. Computer applications.",Prerequisite: CIVL 2030 or equivalent.,When Offered: Spring term annually.,['CIVL 2030'],['CIVL 2030'],Engineering
+HIGHWAY ENGINEERING,LEC,3,R,4:00PM,6:50PM,Stephan Walter Godlewski,Troy Building 2015,25,19,6,CIVL,2024-08-28,2024-12-20,FALL 2024,68827,4670,01,CIVL-4670,Highway Engineering,"Principles of geometric design of highways, intersections, interchanges, and terminals. Practical issues of vertical and horizontal curvature, highway evaluation, driver and vehicle dynamics, and traffic safety are also addressed. Computer-aided design and modeling.",Prerequisite: CIVL 2030.,When Offered: Upon availability of instructor.,['CIVL 2030'],['CIVL 2030'],Engineering
+TRANSPORTATION SYS PLANNING,LEC,3,MR,4:00PM,5:50PM,Jose E. Holguin-Veras,Low Center for Industrial Inn. 3116,15,5,10,CIVL,2024-08-28,2024-12-20,FALL 2024,69479,6250,01,CIVL-6250,Transportation Sys Planning,"The analysis and planning of transportation systems. Study of the basic interaction between transportation supply and demand. Role of transportation systems analysis in social, environmental, and policy making. Trip generation. Trip distribution. Mode split. Traffic assignment. Computer applications.",Prerequisite: CIVL 2030 or equivalent.,When Offered: Spring term annually.,['CIVL 2030'],['CIVL 2030'],Engineering
 DISSERTATION,LEC,1-15,,,,Michael Symans,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,65162,9990,01,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Ruimin Ke,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,66138,9990,02,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Ruimin Ke,TBA,10,2,8,CIVL,2024-08-28,2024-12-20,FALL 2024,66138,9990,02,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Jose E. Holguin-Veras,TBA,10,4,6,CIVL,2024-08-28,2024-12-20,FALL 2024,65173,9990,03,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Mourad Zeghal,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,65314,9990,06,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Tarek H Abdoun,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,65410,9990,08,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Mourad Zeghal,TBA,10,2,8,CIVL,2024-08-28,2024-12-20,FALL 2024,65314,9990,06,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Tarek H Abdoun,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,65410,9990,08,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Min Li,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,67018,9990,09,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Christopher W Letchford,TBA,10,4,6,CIVL,2024-08-28,2024-12-20,FALL 2024,66832,9990,10,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Xiaozheng He,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,65939,9990,11,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Xiaokun Wang,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,66833,9990,12,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Victoria Gene Bennett,TBA,10,1,9,CIVL,2024-08-28,2024-12-20,FALL 2024,67264,9990,13,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Shun Uchida,TBA,10,0,10,CIVL,2024-08-28,2024-12-20,FALL 2024,67465,9990,15,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-GEOENVIRONMENTAL ENG,LEC,3,MR,10:00AM,11:50AM,Victoria Gene Bennett,Nason Hall 130,15,10,5,CIVL,2024-08-28,2024-12-20,FALL 2024,67628,4140,01,CIVL-4140,Geoenvironmental Eng,"The application of geotechnical engineering to the environmental area. Deals with waste disposal, waste containment systems, waste stabilization, and landfills. Emphasis on design of such facilities. Includes related topics necessary for design, e.g., geosynthetics, groundwater, contaminant transport, and slurry walls. Some field trips are possible. This course meets concurrently with CIVL 6550.",,When Offered: Fall term annually.,[],[],Engineering
+GEOENVIRONMENTAL ENG,LEC,3,MR,10:00AM,11:50AM,Victoria Gene Bennett,Russell Sage Laboratory 2704,15,11,4,CIVL,2024-08-28,2024-12-20,FALL 2024,67628,4140,01,CIVL-4140,Geoenvironmental Eng,"The application of geotechnical engineering to the environmental area. Deals with waste disposal, waste containment systems, waste stabilization, and landfills. Emphasis on design of such facilities. Includes related topics necessary for design, e.g., geosynthetics, groundwater, contaminant transport, and slurry walls. Some field trips are possible. This course meets concurrently with CIVL 6550.",,When Offered: Fall term annually.,[],[],Engineering
 TRANS NETWORK ANALYSIS,LEC,3,TF,12:00PM,1:50PM,Xiaozheng He,Russell Sage Laboratory 2715,10,8,2,CIVL,2024-08-28,2024-12-20,FALL 2024,69478,6260,01,CIVL-6260,Trans Network Analysis,"Fundamentals of transportation network analysis, including graph representations of transportation networks, shortest path search algorithms, static traffic assignment and user equilibrium, and dynamic traffic assignment. Focus on how basic mathematical analysis tools such as linear and nonlinear programming can be used to analyze transportation network problems. The objective of this course is to introduce students to transportation network analysis fundamentals so that they are equipped with basic skills to analyze related problems in this area.",Prerequisites: CIVL 2030 and MATH 2400.,When Offered: Upon availability of instructor.,"['CIVL 2030', 'MATH 2400']","['CIVL 2030', 'MATH 2400']",Engineering
 DATA ANALYTICS: CIVL & ENV ENG,LEC,3,MR,10:00AM,11:50AM,Xiaokun Wang,Peoples Ave Complex J 3401,15,5,10,CIVL,2024-08-28,2024-12-20,FALL 2024,69102,6960,01,CIVL-6960,Data ANALYTICS: Civl & Env Eng,,,,[],[],Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,4,1,3,CIVL,2024-08-28,2024-12-20,FALL 2024,65064,4240,01,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,4,1,3,CIVL,2024-08-28,2024-12-20,FALL 2024,65064,4240,01,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,65064,4240,01,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,65064,4240,01,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,69163,4240,02,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,69163,4240,02,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,68553,4240,03,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
@@ -363,41 +373,52 @@ FINITE ELEMENT METHODS,LEC,3,W,10:00AM,11:50AM,Jacob Simon Merson,Pittsburgh Bui
 FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,68554,4240,04,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 FINITE ELEMENT METHODS,LEC,3,W,10:00AM,11:50AM,Kartik Josyula,Pittsburgh Building 5216,4,0,4,CIVL,2024-08-28,2024-12-20,FALL 2024,68554,4240,04,CIVL-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 ADVANCED GEOTECHNICAL ENGINEERING,LEC,3,TF,12:00PM,1:50PM,Shun Uchida,Ricketts Building 208,15,5,10,CIVL,2024-08-28,2024-12-20,FALL 2024,68221,6510,01,CIVL-6510,Advanced Geotechnical Engineering,"An intensive study of the fundamentals of soil mechanics at the graduate level. Transmission of stresses between particles. Soils in which the pore water is either stationary or flowing under steady conditions. Soils in which pore pressures are influenced by applied loads, and hence the pore water is flowing under transient conditions.",Prerequisite: CIVL 4150.,When Offered: Fall term annually.,['CIVL 4150'],['CIVL 4150'],Engineering
-MACHINE LEARNING IN TRANS.,LEC,3,TF,10:00AM,11:50AM,Ruimin Ke,Peoples Ave Complex J 3402,15,4,11,CIVL,2024-08-28,2024-12-20,FALL 2024,69501,6961,01,CIVL-6961,Machine Learning In TRANS.,,,,[],[],Engineering
-DATA ANALYTICS: CIVL & ENV ENG,LEC,3,MR,10:00AM,11:50AM,Xiaokun Wang,Peoples Ave Complex J 3401,15,1,14,CIVL,2024-08-28,2024-12-20,FALL 2024,69497,4960,01,CIVL-4960,Data ANALYTICS: Civl & Env Eng,,,,[],[],Engineering
+MACHINE LEARNING IN TRANS.,LEC,3,TF,10:00AM,11:50AM,Ruimin Ke,Carnegie Building 205,15,6,9,CIVL,2024-08-28,2024-12-20,FALL 2024,69501,6961,01,CIVL-6961,Machine Learning In TRANS.,,,,[],[],Engineering
+DATA ANALYTICS: CIVL & ENV ENG,LEC,3,MR,10:00AM,11:50AM,Xiaokun Wang,Peoples Ave Complex J 3401,15,0,15,CIVL,2024-08-28,2024-12-20,FALL 2024,69497,4960,01,CIVL-4960,Data ANALYTICS: Civl & Env Eng,,,,[],[],Engineering
 BRIDGE ENGINEERING,LEC,3,TF,12:00PM,1:50PM,Julia D Carroll,Troy Building 2015,15,13,2,CIVL,2024-08-28,2024-12-20,FALL 2024,69751,6962,01,CIVL-6962,Bridge Engineering,,,,[],[],Engineering
-ADV CONCRETE STRUCTURES,LEC,3,MR,2:00PM,3:50PM,Christos Varsamis,Darrin Communications Center 232,20,12,8,CIVL,2024-08-28,2024-12-20,FALL 2024,66780,6310,01,CIVL-6310,Adv Concrete Structures,"Advanced analysis and design of reinforced concrete structures. Design of deep beams, slender columns, two-way floor systems. Deflection computations. Design for torsion. Prestressed concrete fundamentals.",Prerequisite: CIVL 4080 or equivalent.,When Offered: Fall term annually.,['CIVL 4080'],['CIVL 4080'],Engineering
-ENGINEERING GRAPHICS FOR CIVIL ENGINEERS,LEC,1,M,6:00PM,7:50PM,Christopher Keado,Darrin Communications Center 337,100,71,29,CIVL,2024-08-28,2024-12-20,FALL 2024,67085,1200,01,CIVL-1200,Engineering Graphics For Civil Engineers,"An introduction to the elements of computer aided design for civil and environmental engineers using AutoCAD Civil 3D. Students will be introduced to basic AutoCAD drafting techniques as well as learn the key features of Civil 3D that aid site development design and analysis. Topics covered will include general AutoCAD techniques, existing conditions development and analysis using field collected survey data and GIS information, pipe network design, grading design, and roadway corridor layout.",,When Offered: Fall term annually.,[],[],Engineering
-ADVANCED GEOENV ENGR,LEC,3,MR,10:00AM,11:50AM,Victoria Gene Bennett,Nason Hall 130,10,3,7,CIVL,2024-08-28,2024-12-20,FALL 2024,67629,6550,01,CIVL-6550,Advanced Geoenv Engr,"An intensive study of the application of geotechnical engineering to the environmental area. Deals with waste disposal, waste containment systems, waste stabilization, and landfills. Emphasis on design of such facilities. Includes related topics necessary for design, e.g., geosynthetics, groundwater, contaminant transport, and slurry walls. Some field trips are possible. This course meets concurrently with CIVL 4140. CIVL 6550 students are required to do a term paper and/or project, read additional professional papers and publications, and do additional laboratory experiments.",,When Offered: Fall term annually.,[],[],Engineering
-FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,MR,10:00AM,11:50AM,Christopher W Letchford,Low Center for Industrial Inn. 4050,100,13,87,CIVL,2024-08-28,2024-12-20,FALL 2024,68947,2050,01,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
-FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,W,8:00AM,9:50AM,TBA,Jonsson Engineering Center 1034,100,13,87,CIVL,2024-08-28,2024-12-20,FALL 2024,68947,2050,01,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+ADV CONCRETE STRUCTURES,LEC,3,MR,2:00PM,3:50PM,Christos Varsamis,Darrin Communications Center 232,20,13,7,CIVL,2024-08-28,2024-12-20,FALL 2024,66780,6310,01,CIVL-6310,Adv Concrete Structures,"Advanced analysis and design of reinforced concrete structures. Design of deep beams, slender columns, two-way floor systems. Deflection computations. Design for torsion. Prestressed concrete fundamentals.",Prerequisite: CIVL 4080 or equivalent.,When Offered: Fall term annually.,['CIVL 4080'],['CIVL 4080'],Engineering
+ENGINEERING GRAPHICS FOR CIVIL ENGINEERS,LEC,1,M,6:00PM,7:50PM,Christopher Keado,Darrin Communications Center 337,100,76,24,CIVL,2024-08-28,2024-12-20,FALL 2024,67085,1200,01,CIVL-1200,Engineering Graphics For Civil Engineers,"An introduction to the elements of computer aided design for civil and environmental engineers using AutoCAD Civil 3D. Students will be introduced to basic AutoCAD drafting techniques as well as learn the key features of Civil 3D that aid site development design and analysis. Topics covered will include general AutoCAD techniques, existing conditions development and analysis using field collected survey data and GIS information, pipe network design, grading design, and roadway corridor layout.",,When Offered: Fall term annually.,[],[],Engineering
+ADVANCED GEOENV ENGR,LEC,3,MR,10:00AM,11:50AM,Victoria Gene Bennett,Russell Sage Laboratory 2704,10,3,7,CIVL,2024-08-28,2024-12-20,FALL 2024,67629,6550,01,CIVL-6550,Advanced Geoenv Engr,"An intensive study of the application of geotechnical engineering to the environmental area. Deals with waste disposal, waste containment systems, waste stabilization, and landfills. Emphasis on design of such facilities. Includes related topics necessary for design, e.g., geosynthetics, groundwater, contaminant transport, and slurry walls. Some field trips are possible. This course meets concurrently with CIVL 4140. CIVL 6550 students are required to do a term paper and/or project, read additional professional papers and publications, and do additional laboratory experiments.",,When Offered: Fall term annually.,[],[],Engineering
+FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,MR,10:00AM,11:50AM,Christopher W Letchford,Low Center for Industrial Inn. 4050,100,16,84,CIVL,2024-08-28,2024-12-20,FALL 2024,68947,2050,01,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,W,8:00AM,9:50AM,TBA,Jonsson Engineering Center 1034,100,16,84,CIVL,2024-08-28,2024-12-20,FALL 2024,68947,2050,01,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
 FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,MR,10:00AM,11:50AM,Christopher W Letchford,Low Center for Industrial Inn. 4050,100,29,71,CIVL,2024-08-28,2024-12-20,FALL 2024,69509,2050,02,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
 FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,W,10:00AM,11:50AM,Christopher W Letchford,Jonsson Engineering Center 1034,100,29,71,CIVL,2024-08-28,2024-12-20,FALL 2024,69509,2050,02,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
-FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,MR,10:00AM,11:50AM,Christopher W Letchford,Low Center for Industrial Inn. 4050,100,48,52,CIVL,2024-08-28,2024-12-20,FALL 2024,69510,2050,03,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
-FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,W,2:00PM,3:50PM,Christopher W Letchford,Jonsson Engineering Center 1034,100,48,52,CIVL,2024-08-28,2024-12-20,FALL 2024,69510,2050,03,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,MR,10:00AM,11:50AM,Christopher W Letchford,Low Center for Industrial Inn. 4050,100,50,50,CIVL,2024-08-28,2024-12-20,FALL 2024,69510,2050,03,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+FLUID MECHAN CIVL & ENVIR ENGR,LEC,4,W,2:00PM,3:50PM,Christopher W Letchford,Jonsson Engineering Center 1034,100,50,50,CIVL,2024-08-28,2024-12-20,FALL 2024,69510,2050,03,CIVL-2050,Fluid Mechan Civl & Envir Engr,"Hydrostatics; Pressure Measurement; Fluid Properties; Application of Control Volume Analysis to Conservation of Mass, Energy and Momentum Principles; Bernoulli Equation for Ideal Flow; Dimensional Analysis; Pipe Flow and Pipe Networks; Pump Performance; Pipes in Pipelines. A laboratory component will illustrate the topics studied.",Prerequisites: ENGR 1100 and (PHYS 1100 or PHYS 1110 or PHYS 1150 ),When Offered: Fall term annually.,"['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
 MECHANICS OF SOLIDS,LEC,3,TF,8:30AM,9:50AM,Antoinette Maniatty,Darrin Communications Center 232,30,3,27,CIVL,2024-08-28,2024-12-20,FALL 2024,66535,6170,01,CIVL-6170,Mechanics Of Solids,"This course provides an introduction to the mechanics of solids from a continuum perspective. Topics covered in this course include: vector and tensor analysis, coordinate systems and calculus in curvilinear coordinate systems, kinematics (motion, deformation and strain), stress and momentum balance, energy principles and balance laws, linear isotropic and anisotropic elasticity, thermoelasticity, method of solutions for 2-D and 3-D linear elastic boundary value problems, applications to simple structures.",,When Offered: Fall term annually.,[],[],Engineering
 BEDFORD DESIGN STUDIO,LEC,3,W,2:00PM,4:50PM,James Norman Richardson,Greene Building STU,10,4,6,CIVL,2024-08-28,2024-12-20,FALL 2024,67059,6340,01,CIVL-6340,Bedford Design Studio,"Open-ended design project in which students work in teams of four (two engineers and two architects) to replicate the Architecture/Structural Engineering integrated design of buildings. Oral presentations and written reports and studio critics cover alternatives considered, design assumptions, and cost estimates. This is a communication-intensive course.","Prerequisites: CIVL 4020/ARCH 4020, CIVL 6310 and CIVL 6320.",When Offered: Fall and spring terms annually.,"['CIVL 4020', 'ARCH 4020', 'CIVL 6310', 'CIVL 6320']","['CIVL 4020', 'ARCH 4020', 'CIVL 6310', 'CIVL 6320']",Engineering
 FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,3,1,2,CIVL,2024-08-28,2024-12-20,FALL 2024,65071,6660,01,CIVL-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,3,1,2,CIVL,2024-08-28,2024-12-20,FALL 2024,65071,6660,01,CIVL-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,3,2,1,CIVL,2024-08-28,2024-12-20,FALL 2024,69702,6660,02,CIVL-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,3,2,1,CIVL,2024-08-28,2024-12-20,FALL 2024,69702,6660,02,CIVL-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-TIMBER DESIGN,LEC,3,M,6:00PM,8:50PM,Christopher David Snyder,Carnegie Building 102,20,16,4,CIVL,2024-08-28,2024-12-20,FALL 2024,69499,6360,01,CIVL-6360,Timber Design,The goal of this course is to develop a general familiarity with the structural design of wood elements and structures. This includes exposure to the historical development of design specifications as well as specific design procedures unique to this material.,Prerequisite: CIVL 4070 or CIVL 4080 or permission of instructor.,"When Offered: Fall term, even-numbered years.","['CIVL 4070', 'CIVL 4080']","['CIVL 4070', 'CIVL 4080']",Engineering
-CPTR COMPONENTS & OPER,LEC,4,TF,10:00AM,11:50AM,James D. Rees,Russell Sage Laboratory 3303,45,45,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65115,2610,01,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
-CPTR COMPONENTS & OPER,LEC,4,W,10:00AM,11:50AM,TBA,Jonsson Engineering Center 6309,45,45,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65115,2610,01,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
-CPTR COMPONENTS & OPER,LEC,4,TF,10:00AM,11:50AM,James D. Rees,Russell Sage Laboratory 3303,45,45,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65127,2610,02,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
-CPTR COMPONENTS & OPER,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 6309,45,45,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65127,2610,02,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
-INTEGRATED PHOTONICS & OPTICAL,LEC,3,TF,10:00AM,11:20AM,Zhaoran Huang,Jonsson Engineering Center 4107,30,6,24,ECSE,2024-08-28,2024-12-20,FALL 2024,69694,6962,01,ECSE-6962,Integrated Photonics & Optical,,,,[],[],Engineering
-COMP ARCHITECTURE & NETWORKS,LEC,4,TF,2:00PM,3:50PM,James D. Rees,Jonsson Engineering Center 6309,40,39,1,ECSE,2024-08-28,2024-12-20,FALL 2024,67817,2660,01,ECSE-2660,Comp Architecture & Networks,"Quantitative basis of modern computer architecture, processor design, memory hierarchy, and input/output methods. Layered operating system structures, process and storage management. Layered network organization, network protocols, switching, local and wide area networks. Examples from Unix and the Internet.",Prerequisite: ECSE 2610.,When Offered: Summer and fall terms annually.,['ECSE 2610'],['ECSE 2610'],Engineering
-SEMI POWER ELECTRONICS,LEC,3,MR,2:00PM,3:20PM,Zheyu Zhang,Jonsson Engineering Center 4107,36,29,7,ECSE,2024-08-28,2024-12-20,FALL 2024,67815,4080,01,ECSE-4080,Semi Power Electronics,"The application of power semiconductor devices to the efficient conversion of electrical energy. Circuit analysis, signal analysis, and energy concepts are integrated to develop steady-state and dynamic models of generic power converters. Specific topics include AC/DC conversion, DC/DC conversion, DC/AC conversion, and AC/AC conversion. These generic converters are applied as controlled rectifiers, switching power supplies, motor drives, HVDC transmission, induction heating, and others. Ancillary circuits needed for the proper operation and control of power semiconductor devices are also discussed.",Prerequisite: ECSE 2050.,When Offered: Fall term annually.,['ECSE 2050'],['ECSE 2050'],Engineering
-CPTR COMM NETWORKS,LEC,3,MR,10:00AM,11:20AM,Koushik Kar,Jonsson Engineering Center 4104,36,18,18,ECSE,2024-08-28,2024-12-20,FALL 2024,65119,4670,01,ECSE-4670,Cptr Comm Networks,"Introduction to the basic concepts of computer and communication networks, like flow control, congestion control, end-to-end reliability, routing, framing, error-recovery, multiple access, and statistical multiplexing. In-depth presentation of the different networking layers, with emphasis on the Internet reference model. Protocols and architectures such as TCP, IP, Ethernet, wireless networks, etc. are described in order to illustrate important networking concepts. Introduction to quantitative analysis and modeling of networks.",Prerequisites: ECSE 2610 or CSCI 2500 or equivalent; ECSE 2500 recommended.,When Offered: Fall term annually.,"['ECSE 2610', 'CSCI 2500', 'ECSE 2500']","['ECSE 2610', 'CSCI 2500', 'ECSE 2500']",Engineering
-MECHATRONICS,LEC,3,TF,12:00PM,1:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,12,13,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,67202,4090,01,ECSE-4090,Mechatronics,"The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design.",Prerequisites: MANE 4500 or ECSE 2410.,When Offered: Fall and spring terms annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
-SOLID STATE PHYSICS,LEC,4,TF,2:00PM,3:50PM,Humberto Terrones Maldonado,Jonsson-Rowland Science Center 2C13,25,1,24,ECSE,2024-08-28,2024-12-20,FALL 2024,69740,4720,01,ECSE-4720,Solid State Physics,"An introduction to theoretical and experimental solid-state physics. Wave mechanics in the perfect crystal. X-rays, electrons, and phonons. Electrical properties of metals and semiconductors. Qualitative treatment of lattice defects.",Prerequisite: PHYS 4220 or equivalent.,When Offered: Fall term annually.,['PHYS 4220'],['PHYS 4220'],Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,3,1,2,CIVL,2024-08-28,2024-12-20,FALL 2024,69702,6660,02,CIVL-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,3,1,2,CIVL,2024-08-28,2024-12-20,FALL 2024,69702,6660,02,CIVL-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+TIMBER DESIGN,LEC,3,M,6:00PM,8:50PM,Christopher David Snyder,Carnegie Building 102,20,18,2,CIVL,2024-08-28,2024-12-20,FALL 2024,69499,6360,01,CIVL-6360,Timber Design,The goal of this course is to develop a general familiarity with the structural design of wood elements and structures. This includes exposure to the historical development of design specifications as well as specific design procedures unique to this material.,Prerequisite: CIVL 4070 or CIVL 4080 or permission of instructor.,"When Offered: Fall term, even-numbered years.","['CIVL 4070', 'CIVL 4080']","['CIVL 4070', 'CIVL 4080']",Engineering
+CPTR COMPONENTS & OPER,LEC,4,TF,10:00AM,11:50AM,James D. Rees,Russell Sage Laboratory 3303,50,44,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65115,2610,01,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,W,10:00AM,11:50AM,TBA,Jonsson Engineering Center 6309,50,44,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65115,2610,01,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,TF,10:00AM,11:50AM,James D. Rees,Russell Sage Laboratory 3303,50,50,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65127,2610,02,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 6309,50,50,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65127,2610,02,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+INTRO STOCH SIGN & SYS,LEC,3,TF,2:00PM,3:20PM,Ali Tajer,Jonsson Engineering Center 4104,30,19,11,ECSE,2024-08-28,2024-12-20,FALL 2024,65126,6510,01,ECSE-6510,Intro Stoch Sign & Sys,"Deterministic signal representations and analysis, introduction to random processes and spectral analysis, correlation function and power spectral density of stationary processes, noise mechanisms, the Gaussian and Poisson processes. Markov processes, the analysis of linear and nonlinear systems with random inputs, stochastic signal representations, orthogonal expansions, the Karhunen-Loeve series, channel characterization, introduction to signal detection, linear mean-square filtering, the orthogonality principle, optimum Wiener and Kalman filtering, modulation theory, and systems analysis.",Prerequisites: ECSE 2410 and ECSE 2500 or equivalent.,When Offered: Fall term annually.,"['ECSE 2410', 'ECSE 2500']","['ECSE 2410', 'ECSE 2500']",Engineering
+COMP ARCHITECTURE & NETWORKS,LEC,4,TF,2:00PM,3:50PM,James D. Rees,Jonsson Engineering Center 6309,40,42,-2,ECSE,2024-08-28,2024-12-20,FALL 2024,67817,2660,01,ECSE-2660,Comp Architecture & Networks,"Quantitative basis of modern computer architecture, processor design, memory hierarchy, and input/output methods. Layered operating system structures, process and storage management. Layered network organization, network protocols, switching, local and wide area networks. Examples from Unix and the Internet.",Prerequisite: ECSE 2610.,When Offered: Summer and fall terms annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+SEMI POWER ELECTRONICS,LEC,3,MR,2:00PM,3:20PM,Zheyu Zhang,Jonsson Engineering Center 4107,36,30,6,ECSE,2024-08-28,2024-12-20,FALL 2024,67815,4080,01,ECSE-4080,Semi Power Electronics,"The application of power semiconductor devices to the efficient conversion of electrical energy. Circuit analysis, signal analysis, and energy concepts are integrated to develop steady-state and dynamic models of generic power converters. Specific topics include AC/DC conversion, DC/DC conversion, DC/AC conversion, and AC/AC conversion. These generic converters are applied as controlled rectifiers, switching power supplies, motor drives, HVDC transmission, induction heating, and others. Ancillary circuits needed for the proper operation and control of power semiconductor devices are also discussed.",Prerequisite: ECSE 2050.,When Offered: Fall term annually.,['ECSE 2050'],['ECSE 2050'],Engineering
+CPTR COMM NETWORKS,LEC,3,MR,10:00AM,11:20AM,Koushik Kar,Jonsson Engineering Center 4104,36,19,17,ECSE,2024-08-28,2024-12-20,FALL 2024,65119,4670,01,ECSE-4670,Cptr Comm Networks,"Introduction to the basic concepts of computer and communication networks, like flow control, congestion control, end-to-end reliability, routing, framing, error-recovery, multiple access, and statistical multiplexing. In-depth presentation of the different networking layers, with emphasis on the Internet reference model. Protocols and architectures such as TCP, IP, Ethernet, wireless networks, etc. are described in order to illustrate important networking concepts. Introduction to quantitative analysis and modeling of networks.",Prerequisites: ECSE 2610 or CSCI 2500 or equivalent; ECSE 2500 recommended.,When Offered: Fall term annually.,"['ECSE 2610', 'CSCI 2500', 'ECSE 2500']","['ECSE 2610', 'CSCI 2500', 'ECSE 2500']",Engineering
+ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,30,23,7,ECSE,2024-08-28,2024-12-20,FALL 2024,69607,6961,01,ECSE-6961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
+MECHATRONICS,LEC,3,TF,12:00PM,1:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,12,17,-5,ECSE,2024-08-28,2024-12-20,FALL 2024,67202,4090,01,ECSE-4090,Mechatronics,"The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design.",Prerequisites: MANE 4500 or ECSE 2410.,When Offered: Fall and spring terms annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
+SOLID STATE PHYSICS,LEC,4,TF,2:00PM,3:50PM,Humberto Terrones Maldonado,Jonsson-Rowland Science Center 2C13,25,4,21,ECSE,2024-08-28,2024-12-20,FALL 2024,69740,4720,01,ECSE-4720,Solid State Physics,"An introduction to theoretical and experimental solid-state physics. Wave mechanics in the perfect crystal. X-rays, electrons, and phonons. Electrical properties of metals and semiconductors. Qualitative treatment of lattice defects.",Prerequisite: PHYS 4220 or equivalent.,When Offered: Fall term annually.,['PHYS 4220'],['PHYS 4220'],Engineering
+INTEGRATED PHOTONICS & OPTICAL,LEC,3,TF,10:00AM,11:20AM,Zhaoran Huang,Jonsson Engineering Center 4107,30,3,27,ECSE,2024-08-28,2024-12-20,FALL 2024,69694,6962,01,ECSE-6962,Integrated Photonics & Optical,,,,[],[],Engineering
+CONTROL SYSTEMS ENGINEERING,LEC,3,MR,4:00PM,5:20PM,Santiago Paternain,Jonsson Engineering Center 4107,31,25,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65118,4440,01,ECSE-4440,Control Systems Engineering,"Application of linear feedback theory to the design of large-scale, integrated control systems. Derivation of complex mathematical models of physical systems. Synthesis of appropriate control laws to provide stability. Simulation of complex control systems on digital computers.",Prerequisite: ECSE 2410 or MANE 4500; knowledge of MATLAB recommended.,When Offered: Fall term annually.,"['ECSE 2410', 'MANE 4500']","['ECSE 2410', 'MANE 4500']",Engineering
+ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,45,31,14,ECSE,2024-08-28,2024-12-20,FALL 2024,69152,4961,01,ECSE-4961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
+SEMINAR ON AI FOR NETWORKING,LEC,1,T,5:00PM,5:50PM,Ish Kumar Jain,Low Center for Industrial Inn. 4050,36,5,31,ECSE,2024-08-28,2024-12-20,FALL 2024,70003,6963,01,ECSE-6963,Seminar On Ai For Networking,,,,[],[],Engineering
+ECSE ENRICHMENT SEMINAR,LEC,1,T,4:00PM,4:50PM,John Wen,Low Center for Industrial Inn. 4050,120,89,31,ECSE,2024-08-28,2024-12-20,FALL 2024,67215,2900,01,ECSE-2900,Ecse Enrichment Seminar,"This seminar course addresses a range of issues involving engineering and public policy, innovation systems and economic development, and the National Academy's Engineering Grand Challenges for the 21st Century.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,21,44,ECSE,2024-08-28,2024-12-20,FALL 2024,66344,4480,01,ECSE-4480,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",Prerequisites: MATH 2010 or (MATH 2011 and MATH 2012); and MATH 2400 and knowledge of MATLAB and Python.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2011', 'MATH 2400']","['MATH 2010', 'MATH 2011', 'MATH 2400']",Engineering
+INTEGRATED PHOTONICS & OPTICAL,LEC,3,TF,10:00AM,11:20AM,Zhaoran Huang,Jonsson Engineering Center 4107,30,3,27,ECSE,2024-08-28,2024-12-20,FALL 2024,69693,4962,01,ECSE-4962,Integrated Photonics & Optical,,,,[],[],Engineering
 ADVANCED COMPUTER SYSTEMS,LEC,3,MR,2:00PM,3:20PM,Tong Zhang,Jonsson Engineering Center 4104,30,9,21,ECSE,2024-08-28,2024-12-20,FALL 2024,69159,6320,01,ECSE-6320,Advanced Computer Systems,"Key design principles and techniques of modern computer hardware, including instruction-level, data-level, and thread-level parallelism in CPU and GPU, cache and memory hierarchy, DRAM and non-volatile memory technologies and solid-state drive, and heterogeneous and disaggregated computing architecture. Advanced infrastructure software design techniques and algorithms, including indexing data structure, transaction, storage model, and consistency and consensus. Course projects to gain advanced programming skills and deepen the understanding of modern computer hardware and software.",Prerequisite: ECSE 2660 or CSCI 2500 or equivalent.,When Offered: Fall term annually.,"['ECSE 2660', 'CSCI 2500']","['ECSE 2660', 'CSCI 2500']",Engineering
-DECISION MAKING UNDER UNCERTAI,LEC,3,TF,10:00AM,11:20AM,Esen Yel,Jonsson Engineering Center 6309,15,16,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,69696,6964,01,ECSE-6964,Decision Making Under Uncertai,,,,[],[],Engineering
+DECISION MAKING UNDER UNCERTAI,LEC,3,TF,10:00AM,11:20AM,Esen Yel,Jonsson Engineering Center 6309,15,18,-3,ECSE,2024-08-28,2024-12-20,FALL 2024,69696,6964,01,ECSE-6964,Decision Making Under Uncertai,,,,[],[],Engineering
+SEMINAR ON AI FOR NETWORKING,LEC,1,T,5:00PM,5:50PM,Ish Kumar Jain,Low Center for Industrial Inn. 4050,36,9,27,ECSE,2024-08-28,2024-12-20,FALL 2024,69917,4963,01,ECSE-4963,Seminar On Ai For Networking,,,,[],[],Engineering
+SYSTEMS ANALYSIS TECHNIQUES,LEC,3,MR,10:00AM,11:50AM,Anak Agung Julius,Russell Sage Laboratory 5510,50,24,26,ECSE,2024-08-28,2024-12-20,FALL 2024,65125,6400,01,ECSE-6400,Systems Analysis Techniques,"Methods of analysis for continuous and discrete-time linear systems. Convolution, classical solution of dynamic equations, transforms, and matrices are reviewed. Emphasis is on the concept of state space. Linear spaces, concept of state, modes, controllability, observability, state transition matrix. State variable feedback, compensation, decoupling.",Prerequisite: ECSE 2410 or equivalent.,When Offered: Fall term annually.,['ECSE 2410'],['ECSE 2410'],Engineering
+REINFORCEMENT LEARNING,LEC,4,TF,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3101,20,7,13,ECSE,2024-08-28,2024-12-20,FALL 2024,69811,6965,01,ECSE-6965,Reinforcement Learning,,,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Jian Shi,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,66143,9990,01,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Zheyu Zhang,TBA,10,6,4,ECSE,2024-08-28,2024-12-20,FALL 2024,65160,9990,02,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Partha S. Dutta,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65412,9990,03,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Richard J Radke,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65161,9990,04,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Richard J Radke,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,65161,9990,04,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Alex Algernon Theodore Gittens,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65174,9990,05,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Bulent Yener,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,67857,9990,06,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Sandipan Mishra,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,68090,9990,07,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -405,72 +426,83 @@ DISSERTATION,LEC,1-18,,,,W. Randolph Franklin,TBA,10,0,10,ECSE,2024-08-28,2024-1
 DISSERTATION,LEC,1-18,,,,Zheyu Zhang,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,69470,9990,09,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Luigi Vanfretti,TBA,10,4,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65210,9990,10,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,John Wen,TBA,10,4,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65211,9990,11,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Esen Yel,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,69837,9990,12,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Esen Yel,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,69837,9990,12,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Tat-Sing Chow,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,65212,9990,13,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Santiago Paternain,TBA,10,5,5,ECSE,2024-08-28,2024-12-20,FALL 2024,65213,9990,14,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Liu Liu,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65214,9990,15,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Liu Liu,TBA,10,5,5,ECSE,2024-08-28,2024-12-20,FALL 2024,65214,9990,15,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Ishwara B Bhat,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65215,9990,16,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Ge Wang,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65216,9990,17,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Jianqiang Lu,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66246,9990,19,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Tong Zhang,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,65227,9990,20,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Tong Zhang,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65227,9990,20,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Michael Shur,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65233,9990,21,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Alhussein A Abouzeid,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65234,9990,22,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Qiang Ji,TBA,10,8,2,ECSE,2024-08-28,2024-12-20,FALL 2024,65235,9990,23,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Mohammad Mohammadi Amiri,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65264,9990,24,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Qiang Ji,TBA,10,10,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65235,9990,23,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Mohammad Mohammadi Amiri,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65264,9990,24,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Paul Matthew Schoch,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65266,9990,25,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Eric Fred Schubert,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66249,9990,26,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Birsen Yazici,TBA,10,4,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65271,9990,27,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Tianyi Chen,TBA,10,7,3,ECSE,2024-08-28,2024-12-20,FALL 2024,66348,9990,29,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Meng Wang,TBA,10,6,4,ECSE,2024-08-28,2024-12-20,FALL 2024,65282,9990,30,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Birsen Yazici,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65271,9990,27,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Tianyi Chen,TBA,10,8,2,ECSE,2024-08-28,2024-12-20,FALL 2024,66348,9990,29,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Meng Wang,TBA,10,7,3,ECSE,2024-08-28,2024-12-20,FALL 2024,65282,9990,30,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Joe H Chow,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65447,9990,31,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Koushik Kar,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,65449,9990,32,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Shayla Maya Sawyer,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,66392,9990,33,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Mona Mostafa Hella,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,65456,9990,35,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Shayla Maya Sawyer,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,66392,9990,33,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Franck Berol Djeumou Mbouwe,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65453,9990,34,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Mona Mostafa Hella,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65456,9990,35,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Jian Sun,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65457,9990,37,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Moussa Ngom,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65463,9990,38,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Zhaoran Huang,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65580,9990,39,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Zhaoran Huang,TBA,10,3,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65580,9990,39,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Anak Agung Julius,TBA,10,4,6,ECSE,2024-08-28,2024-12-20,FALL 2024,66536,9990,41,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Robert Frank Karlicek,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,66806,9990,43,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-18,,,,Ali Tajer,TBA,10,4,6,ECSE,2024-08-28,2024-12-20,FALL 2024,67275,9990,44,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Robert Frank Karlicek,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,66806,9990,43,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Ali Tajer,TBA,10,5,5,ECSE,2024-08-28,2024-12-20,FALL 2024,67275,9990,44,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-18,,,,Sufei Shi,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,67852,9990,45,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-CONTROL SYSTEMS ENGINEERING,LEC,3,MR,4:00PM,5:20PM,Santiago Paternain,Jonsson Engineering Center 4107,31,23,8,ECSE,2024-08-28,2024-12-20,FALL 2024,65118,4440,01,ECSE-4440,Control Systems Engineering,"Application of linear feedback theory to the design of large-scale, integrated control systems. Derivation of complex mathematical models of physical systems. Synthesis of appropriate control laws to provide stability. Simulation of complex control systems on digital computers.",Prerequisite: ECSE 2410 or MANE 4500; knowledge of MATLAB recommended.,When Offered: Fall term annually.,"['ECSE 2410', 'MANE 4500']","['ECSE 2410', 'MANE 4500']",Engineering
-ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,45,29,16,ECSE,2024-08-28,2024-12-20,FALL 2024,69152,4961,01,ECSE-4961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
-SYSTEMS ANALYSIS TECHNIQUES,LEC,3,MR,10:00AM,11:50AM,Anak Agung Julius,Russell Sage Laboratory 5510,50,24,26,ECSE,2024-08-28,2024-12-20,FALL 2024,65125,6400,01,ECSE-6400,Systems Analysis Techniques,"Methods of analysis for continuous and discrete-time linear systems. Convolution, classical solution of dynamic equations, transforms, and matrices are reviewed. Emphasis is on the concept of state space. Linear spaces, concept of state, modes, controllability, observability, state transition matrix. State variable feedback, compensation, decoupling.",Prerequisite: ECSE 2410 or equivalent.,When Offered: Fall term annually.,['ECSE 2410'],['ECSE 2410'],Engineering
-REINFORCEMENT LEARNING,LEC,4,TF,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3101,20,10,10,ECSE,2024-08-28,2024-12-20,FALL 2024,69811,6965,01,ECSE-6965,Reinforcement Learning,,,,[],[],Engineering
-ECSE ENRICHMENT SEMINAR,LEC,1,T,4:00PM,4:50PM,John Wen,Low Center for Industrial Inn. 4050,120,85,35,ECSE,2024-08-28,2024-12-20,FALL 2024,67215,2900,01,ECSE-2900,Ecse Enrichment Seminar,"This seminar course addresses a range of issues involving engineering and public policy, innovation systems and economic development, and the National Academy's Engineering Grand Challenges for the 21st Century.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,21,44,ECSE,2024-08-28,2024-12-20,FALL 2024,66344,4480,01,ECSE-4480,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",Prerequisites: MATH 2010 or (MATH 2011 and MATH 2012); and MATH 2400 and knowledge of MATLAB and Python.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2011', 'MATH 2400']","['MATH 2010', 'MATH 2011', 'MATH 2400']",Engineering
-INTEGRATED PHOTONICS & OPTICAL,LEC,3,TF,10:00AM,11:20AM,Zhaoran Huang,Jonsson Engineering Center 4107,30,4,26,ECSE,2024-08-28,2024-12-20,FALL 2024,69693,4962,01,ECSE-4962,Integrated Photonics & Optical,,,,[],[],Engineering
-INTRODUCTION TO PROBABILISTIC GRAPHICAL MODELS,LEC,3,TF,12:30PM,1:50PM,Qiang Ji,Jonsson Engineering Center 4107,30,9,21,ECSE,2024-08-28,2024-12-20,FALL 2024,69609,6810,01,ECSE-6810,Introduction To Probabilistic Graphical Models,"This course covers topics related to learning and inference with different types of Probabilistic Graphical Models (PGMs). It also demonstrates the application of PGMs to different fields. The course covers both directed and undirected graphical models, both parameter and structure learning, and both exact and approximated inference methods.",Prerequisites: ECSE 2500 or equivalent and proficiency in computer programming. Prior knowledge in pattern recognition or machine learning is a plus but is not required.,When Offered: Fall term even-numbered years.,['ECSE 2500'],['ECSE 2500'],Engineering
-DECISION MAKING UNDER UNCERTAI,LEC,3,TF,10:00AM,11:20AM,Esen Yel,Jonsson Engineering Center 6309,15,5,10,ECSE,2024-08-28,2024-12-20,FALL 2024,69695,4964,01,ECSE-4964,Decision Making Under Uncertai,,,,[],[],Engineering
-COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,24,18,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65120,4770,01,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
-COMPUTER HARDWARE DESIGN,LEC,3,W,12:00PM,2:50PM,TBA,Pittsburgh Building 4206,24,18,6,ECSE,2024-08-28,2024-12-20,FALL 2024,65120,4770,01,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
-COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,24,22,2,ECSE,2024-08-28,2024-12-20,FALL 2024,65121,4770,02,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
-COMPUTER HARDWARE DESIGN,LEC,3,W,3:00PM,5:50PM,TBA,Pittsburgh Building 4206,24,22,2,ECSE,2024-08-28,2024-12-20,FALL 2024,65121,4770,02,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+DECISION MAKING UNDER UNCERTAI,LEC,3,TF,10:00AM,11:20AM,Esen Yel,Jonsson Engineering Center 6309,15,3,12,ECSE,2024-08-28,2024-12-20,FALL 2024,69695,4964,01,ECSE-4964,Decision Making Under Uncertai,,,,[],[],Engineering
+INTRODUCTION TO PROBABILISTIC GRAPHICAL MODELS,LEC,3,TF,12:30PM,1:50PM,Qiang Ji,Jonsson Engineering Center 4107,30,11,19,ECSE,2024-08-28,2024-12-20,FALL 2024,69609,6810,01,ECSE-6810,Introduction To Probabilistic Graphical Models,"This course covers topics related to learning and inference with different types of Probabilistic Graphical Models (PGMs). It also demonstrates the application of PGMs to different fields. The course covers both directed and undirected graphical models, both parameter and structure learning, and both exact and approximated inference methods.",Prerequisites: ECSE 2500 or equivalent and proficiency in computer programming. Prior knowledge in pattern recognition or machine learning is a plus but is not required.,When Offered: Fall term even-numbered years.,['ECSE 2500'],['ECSE 2500'],Engineering
+COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,24,21,3,ECSE,2024-08-28,2024-12-20,FALL 2024,65120,4770,01,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+COMPUTER HARDWARE DESIGN,LEC,3,W,12:00PM,2:50PM,TBA,Pittsburgh Building 4206,24,21,3,ECSE,2024-08-28,2024-12-20,FALL 2024,65120,4770,01,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,24,21,3,ECSE,2024-08-28,2024-12-20,FALL 2024,65121,4770,02,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+COMPUTER HARDWARE DESIGN,LEC,3,W,3:00PM,5:50PM,TBA,Pittsburgh Building 4206,24,21,3,ECSE,2024-08-28,2024-12-20,FALL 2024,65121,4770,02,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
 COMPUTER HARDWARE DESIGN,LEC,3,M,2:00PM,4:50PM,TBA,Jonsson Engineering Center 5119,0,0,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65122,4770,03,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
 COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,0,0,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65122,4770,03,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
-COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,0,2,-2,ECSE,2024-08-28,2024-12-20,FALL 2024,65123,4770,04,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
-COMPUTER HARDWARE DESIGN,LEC,3,R,2:00PM,4:50PM,TBA,Jonsson Engineering Center 5119,0,2,-2,ECSE,2024-08-28,2024-12-20,FALL 2024,65123,4770,04,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+COMPUTER HARDWARE DESIGN,LEC,3,TF,12:30PM,1:50PM,Liu Liu,Russell Sage Laboratory 3510,0,0,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65123,4770,04,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
+COMPUTER HARDWARE DESIGN,LEC,3,R,2:00PM,4:50PM,TBA,Jonsson Engineering Center 5119,0,0,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65123,4770,04,ECSE-4770,Computer Hardware Design,"Digital design methodologies including timing chain and counter based ""hardwired"" microprogram design, modules, and modular design. The course bridges LSI and MSI design treating microprocessors, and I/O interfacing. Bus protocol standards, interrupts, direct memory access, priority arbitration, asynchronous timing, and overlap or double buffering. Specific examples of design include controllers for disks, cassettes, video systems, and stepping motors. Course includes a laboratory with access to FPGAs and microprocessors.",Prerequisite: ECSE 2610.,When Offered: Fall term annually.,['ECSE 2610'],['ECSE 2610'],Engineering
 REINFORCEMENT LEARNING,LEC,4,TF,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3101,20,2,18,ECSE,2024-08-28,2024-12-20,FALL 2024,69810,4965,01,ECSE-4965,Reinforcement Learning,,,,[],[],Engineering
-ELECTRIC CIRCUITS,LEC,4,MR,2:00PM,3:50PM,Kimberly Irene Oakes,Academy Hall AUD,42,16,26,ECSE,2024-08-28,2024-12-20,FALL 2024,65435,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
-ELECTRIC CIRCUITS,LEC,4,M,7:00PM,8:50PM,TBA,Darrin Communications Center 330,42,16,26,ECSE,2024-08-28,2024-12-20,FALL 2024,65435,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
-ELECTRIC CIRCUITS,LEC,4,W,9:00AM,11:50AM,TBA,Jonsson Engineering Center 4201,42,16,26,ECSE,2024-08-28,2024-12-20,FALL 2024,65435,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
-ELECTRIC CIRCUITS,LEC,4,MR,2:00PM,3:50PM,Kimberly Irene Oakes,Academy Hall AUD,42,42,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65112,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
-ELECTRIC CIRCUITS,LEC,4,M,7:00PM,8:50PM,TBA,Darrin Communications Center 330,42,42,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65112,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
-ELECTRIC CIRCUITS,LEC,4,W,2:00PM,4:50PM,TBA,Jonsson Engineering Center 4201,42,42,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65112,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,MR,2:00PM,3:50PM,Kimberly Irene Oakes,Academy Hall AUD,42,19,23,ECSE,2024-08-28,2024-12-20,FALL 2024,65435,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,M,7:00PM,8:50PM,TBA,Darrin Communications Center 330,42,19,23,ECSE,2024-08-28,2024-12-20,FALL 2024,65435,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,W,9:00AM,11:50AM,TBA,Jonsson Engineering Center 4201,42,19,23,ECSE,2024-08-28,2024-12-20,FALL 2024,65435,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,MR,2:00PM,3:50PM,Kimberly Irene Oakes,Academy Hall AUD,42,43,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65112,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,M,7:00PM,8:50PM,TBA,Darrin Communications Center 330,42,43,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65112,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,W,2:00PM,4:50PM,TBA,Jonsson Engineering Center 4201,42,43,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65112,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
 PRACTICUM-COLLEGE TEACHING I,LEC,1,,,,Jianqiang Lu,TBA,20,1,19,ECSE,2024-08-28,2024-12-20,FALL 2024,68045,2960,01,ECSE-2960,PRACTICUM-COLLEGE Teaching I,,,,[],[],Engineering
-PRACTICUM-COLLEGE TEACHING II,LEC,2,,,,Jianqiang Lu,TBA,15,3,12,ECSE,2024-08-28,2024-12-20,FALL 2024,68046,2960,02,ECSE-2960,PRACTICUM-COLLEGE Teaching Ii,,,,[],[],Engineering
+PRACTICUM-COLLEGE TEACHING II,LEC,2,,,,Jianqiang Lu,TBA,15,6,9,ECSE,2024-08-28,2024-12-20,FALL 2024,68046,2960,02,ECSE-2960,PRACTICUM-COLLEGE Teaching Ii,,,,[],[],Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,MR,12:00PM,1:50PM,Ishwara B Bhat,Darrin Communications Center 337,40,41,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65113,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,T,7:00PM,8:50PM,TBA,Darrin Communications Center 337,40,41,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65113,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,W,9:00AM,11:50AM,TBA,Jonsson Engineering Center 4104,40,41,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65113,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,MR,12:00PM,1:50PM,Ishwara B Bhat,Darrin Communications Center 337,40,38,2,ECSE,2024-08-28,2024-12-20,FALL 2024,67417,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,T,7:00PM,8:50PM,TBA,Darrin Communications Center 337,40,38,2,ECSE,2024-08-28,2024-12-20,FALL 2024,67417,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,W,12:00PM,2:50PM,TBA,Jonsson Engineering Center 4104,40,38,2,ECSE,2024-08-28,2024-12-20,FALL 2024,67417,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+DIGITAL SIGNAL PROCESSING,LEC,3,MR,10:00AM,11:20AM,Meng Wang,Jonsson Engineering Center 4107,30,7,23,ECSE,2024-08-28,2024-12-20,FALL 2024,66791,4530,01,ECSE-4530,Digital Signal Processing,"This course provides a comprehensive treatment of the theory, design, and implementation of digital signal processing algorithms. The first half of the course emphasizes frequency-domain and Z-transform analysis. The second half of the course investigates advanced topics in signal processing, including FFT algorithms, multi-rate signal processing, filter design, adaptive filtering, and quantizer design. The course provides a strong theoretical foundation for future study in communications, control, or image processing.",Prerequisites: ECSE 2410 and ECSE 2500. Also (MATH 2010 or (MATH 2011 and MATH 2012)) or permission of instructor.,When Offered: Fall term annually.,"['ECSE 2410', 'ECSE 2500', 'MATH 2010', 'MATH 2011']","['ECSE 2410', 'ECSE 2500', 'MATH 2010', 'MATH 2011']",Engineering
+MICROPROCESSOR SYSTEMS,LEC,3,MR,4:00PM,6:50PM,Kyle Richard Wilt,Jonsson Engineering Center 6309,40,43,-3,ECSE,2024-08-28,2024-12-20,FALL 2024,65128,4790,01,ECSE-4790,Microprocessor Systems,"Hardware and software for real-time microprocessor-based digital systems. Basic concepts and operations of on-chip components related to digital system functionality. Architectures, instructions sets, and interfacing with peripherals through serial or parallel ports. Introduction to 32-bit machines with in-depth treatment of 16- and 8-bit machines. Emphasis on C language cross-compilers. Laboratory exercises are included to demonstrate hardware and software development techniques practiced in industry.",Prerequisites: ENGR 2350 required; CSCI 1200 strongly recommended but not required.,When Offered: Fall term annually.,"['ENGR 2350', 'CSCI 1200']","['ENGR 2350', 'CSCI 1200']",Engineering
+INTRODUCTION TO ECSE,LEC,4,TF,12:00PM,1:50PM,Alex Patterson,Darrin Communications Center 337,80,83,-3,ECSE,2024-08-28,2024-12-20,FALL 2024,67831,1010,01,ECSE-1010,Introduction To Ecse,"An experiment-centric development of the basic analysis tools of Electrical, Computer, and Systems Engineering, emphasizing the concepts and mathematics of analog and digital circuits and electronics, programming, data generation and analysis, and system model development using paper and pencil analysis, simulation, and experiment. Problems, applications, and projects are chosen to lay a solid foundation for core EE and CSE courses.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+INTRODUCTION TO ECSE,LEC,4,TF,2:00PM,3:50PM,Alex Patterson,Darrin Communications Center 337,70,67,3,ECSE,2024-08-28,2024-12-20,FALL 2024,67832,1010,02,ECSE-1010,Introduction To Ecse,"An experiment-centric development of the basic analysis tools of Electrical, Computer, and Systems Engineering, emphasizing the concepts and mathematics of analog and digital circuits and electronics, programming, data generation and analysis, and system model development using paper and pencil analysis, simulation, and experiment. Problems, applications, and projects are chosen to lay a solid foundation for core EE and CSE courses.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+FIELDS AND WAVES I,LEC,4,MR,10:00AM,11:50AM,Alex Patterson,Jonsson Engineering Center 4309,36,40,-4,ECSE,2024-08-28,2024-12-20,FALL 2024,65491,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and (MATH 2010 or (MATH 2011 and MATH 2012 )) and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']",Engineering
+FIELDS AND WAVES I,LEC,4,M,7:00PM,8:50PM,TBA,Jonsson Engineering Center 4309,36,40,-4,ECSE,2024-08-28,2024-12-20,FALL 2024,65491,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and (MATH 2010 or (MATH 2011 and MATH 2012 )) and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']",Engineering
+FIELDS AND WAVES I,LEC,4,W,2:00PM,3:50PM,TBA,Jonsson Engineering Center 4107,36,40,-4,ECSE,2024-08-28,2024-12-20,FALL 2024,65491,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and (MATH 2010 or (MATH 2011 and MATH 2012 )) and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']",Engineering
+VLSI DESIGN,LEC,3,MR,12:30PM,1:50PM,Russell P. Kraft,Darrin Communications Center 235,30,31,-1,ECSE,2024-08-28,2024-12-20,FALL 2024,65116,4220,01,ECSE-4220,Vlsi Design,"Introduction to VLSI design. The fabrication, device, circuit, and system aspects of VLSI design are covered in an integrated fashion. Emphasis is placed on NMOS and CMOS technology. Laboratory experiments focus on layout analysis, computer-aided layout, and logic and timing simulation. Project on digital design with standard cells.",Prerequisites: ECSE 2050 and ECSE 2610; ECSE 2210 recommended.,When Offered: Fall and spring terms annually.,"['ECSE 2050', 'ECSE 2610', 'ECSE 2210']","['ECSE 2050', 'ECSE 2610', 'ECSE 2210']",Engineering
 PROFESSIONAL PROJECT,LEC,1-3,,,,Anak Agung Julius,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,67732,6970,01,ECSE-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
 MASTERS PROFESSIONAL PROJECT,LEC,1-3,,,,Richard J Radke,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66848,6970,03,ECSE-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
-INTRODUCTION TO ELECTRONICS,LEC,4,MR,12:00PM,1:50PM,Ishwara B Bhat,Darrin Communications Center 337,40,40,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65113,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-INTRODUCTION TO ELECTRONICS,LEC,4,T,7:00PM,8:50PM,TBA,Darrin Communications Center 337,40,40,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65113,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-INTRODUCTION TO ELECTRONICS,LEC,4,W,9:00AM,11:50AM,TBA,Jonsson Engineering Center 4104,40,40,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65113,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-INTRODUCTION TO ELECTRONICS,LEC,4,MR,12:00PM,1:50PM,Ishwara B Bhat,Darrin Communications Center 337,40,40,0,ECSE,2024-08-28,2024-12-20,FALL 2024,67417,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-INTRODUCTION TO ELECTRONICS,LEC,4,T,7:00PM,8:50PM,TBA,Darrin Communications Center 337,40,40,0,ECSE,2024-08-28,2024-12-20,FALL 2024,67417,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-INTRODUCTION TO ELECTRONICS,LEC,4,W,12:00PM,2:50PM,TBA,Jonsson Engineering Center 4104,40,40,0,ECSE,2024-08-28,2024-12-20,FALL 2024,67417,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-DIGITAL SIGNAL PROCESSING,LEC,3,MR,10:00AM,11:20AM,Meng Wang,Jonsson Engineering Center 4107,30,9,21,ECSE,2024-08-28,2024-12-20,FALL 2024,66791,4530,01,ECSE-4530,Digital Signal Processing,"This course provides a comprehensive treatment of the theory, design, and implementation of digital signal processing algorithms. The first half of the course emphasizes frequency-domain and Z-transform analysis. The second half of the course investigates advanced topics in signal processing, including FFT algorithms, multi-rate signal processing, filter design, adaptive filtering, and quantizer design. The course provides a strong theoretical foundation for future study in communications, control, or image processing.",Prerequisites: ECSE 2410 and ECSE 2500. Also (MATH 2010 or (MATH 2011 and MATH 2012)) or permission of instructor.,When Offered: Fall term annually.,"['ECSE 2410', 'ECSE 2500', 'MATH 2010', 'MATH 2011']","['ECSE 2410', 'ECSE 2500', 'MATH 2010', 'MATH 2011']",Engineering
-MICROPROCESSOR SYSTEMS,LEC,3,MR,4:00PM,6:50PM,Kyle Richard Wilt,Jonsson Engineering Center 6309,40,39,1,ECSE,2024-08-28,2024-12-20,FALL 2024,65128,4790,01,ECSE-4790,Microprocessor Systems,"Hardware and software for real-time microprocessor-based digital systems. Basic concepts and operations of on-chip components related to digital system functionality. Architectures, instructions sets, and interfacing with peripherals through serial or parallel ports. Introduction to 32-bit machines with in-depth treatment of 16- and 8-bit machines. Emphasis on C language cross-compilers. Laboratory exercises are included to demonstrate hardware and software development techniques practiced in industry.",Prerequisites: ENGR 2350 required; CSCI 1200 strongly recommended but not required.,When Offered: Fall term annually.,"['ENGR 2350', 'CSCI 1200']","['ENGR 2350', 'CSCI 1200']",Engineering
-SEMICONDUCTOR DEVICES AND MODELS I,LEC,3,TF,2:00PM,3:20PM,Tat-Sing Chow,Jonsson Engineering Center 4107,30,8,22,ECSE,2024-08-28,2024-12-20,FALL 2024,65124,6230,01,ECSE-6230,Semiconductor Devices And Models I,"The physical operation of basic modern semiconductor devices and the determination of their internal parameters are discussed in detail. A review of semiconductor physics, including incomplete ionization, carrier lifetimes, and carrier transport, and solutions of continuity equation are presented. Devices include pn junction diodes, metal-oxide-semiconductor capacitors and field-effect transistors. Emphasis is placed on the fundamental mechanisms that contribute to device performance. The interrelationship between device parameters and circuit performance is also discussed.",Prerequisite: ECSE 2210 or equivalent.,When Offered: Fall term annually.,['ECSE 2210'],['ECSE 2210'],Engineering
-ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,14,51,ECSE,2024-08-28,2024-12-20,FALL 2024,67637,6470,01,ECSE-6470,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",Prerequisites: MATH 2400 and (MATH 2010 or (MATH 2011 and MATH 2012)) and knowledge of MATLAB and Python.,When Offered: Fall term annually.,"['MATH 2400', 'MATH 2010', 'MATH 2011']","['MATH 2400', 'MATH 2010', 'MATH 2011']",Engineering
+MECHATRONICS-HARDWARE/SOFTWARE,LEC,1,W,12:00PM,12:50PM,Joshua Lucas Hurst,Materials Research Center 136,24,6,18,ECSE,2024-08-28,2024-12-20,FALL 2024,67648,1090,01,ECSE-1090,MECHATRONICS-HARDWARE/SOFTWARE,"A laboratory introduction to simulation and hardware programming with MATLAB and Simulink. Course covers: fundamental theory and programming tools for common sensors and actuators: gyroscopes, accelerometers, magnetometers, encoders, analog sensors, DC Motors, and motor drivers. Including: discretization, sampling, integration, differentiation, delays, saturation, and control. Material covered in a hands on, observable, and application specific way. Weekly one-hour lab/lectures introduce basic topics. Labs reinforce covered topics and are performed at home with provided hardware kits.",,When Offered: Fall and spring term annually upon availability.,[],[],Engineering
+ELECTRICAL ENERGY SYSTEMS,LEC,3,TF,12:30PM,1:50PM,Luigi Vanfretti,Russell Sage Laboratory 3303,46,35,11,ECSE,2024-08-28,2024-12-20,FALL 2024,67816,2110,01,ECSE-2110,Electrical Energy Systems,"This course introduces the major components of today's power system such as transformers, electric machines, and transmission lines. Renewable energy sources and systems are discussed, including wind and solar energy. Integration of energy sources with the grid is addressed.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Summer and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO PROBABILISTIC GRAPHICAL MODELS,LEC,3,TF,12:30PM,1:50PM,Qiang Ji,Jonsson Engineering Center 4107,30,4,26,ECSE,2024-08-28,2024-12-20,FALL 2024,69608,4810,01,ECSE-4810,Introduction To Probabilistic Graphical Models,"This course covers topics related to learning and inference with different types of Probabilistic Graphical Models (PGMs). It also demonstrates the application of PGMs to different fields. The course covers both directed and undirected graphical models, both parameter and structure learning, and both exact and approximated inference methods.",Prerequisites: ECSE 2500 or ENGR 2600; proficiency in computer programming. Prior knowledge in pattern recognition or machine learning is a plus but is not required.,When Offered: Fall term even-numbered years.,"['ECSE 2500', 'ENGR 2600']","['ECSE 2500', 'ENGR 2600']",Engineering
+SEMICONDUCTOR DEVICES AND MODELS I,LEC,3,TF,2:00PM,3:20PM,Tat-Sing Chow,Jonsson Engineering Center 4107,30,9,21,ECSE,2024-08-28,2024-12-20,FALL 2024,65124,6230,01,ECSE-6230,Semiconductor Devices And Models I,"The physical operation of basic modern semiconductor devices and the determination of their internal parameters are discussed in detail. A review of semiconductor physics, including incomplete ionization, carrier lifetimes, and carrier transport, and solutions of continuity equation are presented. Devices include pn junction diodes, metal-oxide-semiconductor capacitors and field-effect transistors. Emphasis is placed on the fundamental mechanisms that contribute to device performance. The interrelationship between device parameters and circuit performance is also discussed.",Prerequisite: ECSE 2210 or equivalent.,When Offered: Fall term annually.,['ECSE 2210'],['ECSE 2210'],Engineering
+ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,18,47,ECSE,2024-08-28,2024-12-20,FALL 2024,67637,6470,01,ECSE-6470,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",Prerequisites: MATH 2400 and (MATH 2010 or (MATH 2011 and MATH 2012)) and knowledge of MATLAB and Python.,When Offered: Fall term annually.,"['MATH 2400', 'MATH 2010', 'MATH 2011']","['MATH 2400', 'MATH 2010', 'MATH 2011']",Engineering
+QUANTUM PROGRAMMING & APPS,LEC,4,MR,10:00AM,11:50AM,Zhiding Liang,Lally Hall 02,15,2,13,ECSE,2024-08-28,2024-12-20,FALL 2024,69921,6973,01,ECSE-6973,Quantum Programming & Apps,,,,[],[],Engineering
+MICROELECTRONICS TECHNOLOGY,LEC,3,TF,2:00PM,3:50PM,Eric Fred Schubert,Low Center for Industrial Inn. 3051,70,60,10,ECSE,2024-08-28,2024-12-20,FALL 2024,67268,2210,01,ECSE-2210,Microelectronics Technology,"An introductory survey of microelectronics technology emphasizing physical properties of semiconductors, device and circuit fabrication, semiconductor device operation. Topics include semiconductor crystals; energy bands; electrons and holes; dopant impurities; fabrication and operation of diodes, bipolar junction transistors, and field-effect transistors.",Prerequisites: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+MICROELECTRONICS TECHNOLOGY,LEC,3,W,7:00PM,8:50PM,TBA,Low Center for Industrial Inn. 3051,70,60,10,ECSE,2024-08-28,2024-12-20,FALL 2024,67268,2210,01,ECSE-2210,Microelectronics Technology,"An introductory survey of microelectronics technology emphasizing physical properties of semiconductors, device and circuit fabrication, semiconductor device operation. Topics include semiconductor crystals; energy bands; electrons and holes; dopant impurities; fabrication and operation of diodes, bipolar junction transistors, and field-effect transistors.",Prerequisites: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+IC PROC & DESIGN,LEC,3,MR,10:00AM,11:20AM,Salih Muhsin Celik,Jonsson Engineering Center 6309,36,11,25,ECSE,2024-08-28,2024-12-20,FALL 2024,65117,4250,01,ECSE-4250,Ic Proc & Design,"The theoretical and practical aspects of techniques utilized in the fabrication of silicon-based microcircuits. Imperfections in semiconductors, crystal growth, solid solubility, alloying and diffusion, ion implantation, oxide masking, epitaxy, metallization, etching, and photolithography. Fabrication techniques for bipolar and MOS-microcircuits, and the electrical performance of devices based on these techniques. Microcircuit design and layout. Students cannot receive credit for both this course and MTLE 4160.",Prerequisite: ECSE 2210.,When Offered: Fall term annually.,['ECSE 2210'],['ECSE 2210'],Engineering
+INTRO TO MACHINE LEARNING,LEC,3,MR,2:00PM,3:20PM,Richard J Radke,Russell Sage Laboratory 5510,65,41,24,ECSE,2024-08-28,2024-12-20,FALL 2024,68868,4840,01,ECSE-4840,Intro To Machine Learning,"A broad introduction to statistical machine learning. Topics include supervised learning: generative/discriminative learning, parametric/non-parametric learning, neural networks, support vector machines; unsupervised learning: clustering, dimensionality reduction, kernel methods; learning theory: bias/variance tradeoffs, practical advice; online learning and reinforcement learning. Recent applications of machine learning, such as to data mining, robot navigation, speech recognition, image processing, and signal processing.",Prerequisites (MATH 2010 or (MATH 2011 and MATH 2012)) and ECSE 2500. Programming skills using MATLAB or Python is preferred.,When Offered: Fall term annually,"['MATH 2010', 'MATH 2011', 'ECSE 2500']","['MATH 2010', 'MATH 2011', 'ECSE 2500']",Engineering
+SR COLLEGE TEACHING PRCTM 1,LEC,1,,,,Jianqiang Lu,TBA,15,0,15,ECSE,2024-08-28,2024-12-20,FALL 2024,69997,4971,01,ECSE-4971,Sr College Teaching Prctm 1,,,,[],[],Engineering
+SR COLLEGE TEACHING PRCTM 2,LEC,2,,,,Jianqiang Lu,TBA,15,1,14,ECSE,2024-08-28,2024-12-20,FALL 2024,69998,4971,02,ECSE-4971,Sr College Teaching Prctm 2,,,,[],[],Engineering
+SR COLLEGE TEACHING PRCTM 3,LEC,3,,,,Jianqiang Lu,TBA,15,0,15,ECSE,2024-08-28,2024-12-20,FALL 2024,69999,4971,03,ECSE-4971,Sr College Teaching Prctm 3,,,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-16,,,,Mona Mostafa Hella,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66201,6980,01,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-16,,,,Luigi Vanfretti,TBA,80,0,80,ECSE,2024-08-28,2024-12-20,FALL 2024,65229,6980,02,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-16,,,,Tianyi Chen,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65237,6980,03,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
@@ -483,17 +515,23 @@ MASTER'S PROJECT,LEC,1-16,,,,Santiago Paternain,TBA,10,0,10,ECSE,2024-08-28,2024
 MASTER'S PROJECT,LEC,1-16,,,,Esen Yel,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,68093,6980,10,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-16,,,,Richard J Radke,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,68132,6980,11,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-16,,,,Kyle Richard Wilt,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,68698,6980,12,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-INTRODUCTION TO ECSE,LEC,4,TF,12:00PM,1:50PM,Alex Patterson,Darrin Communications Center 337,80,87,-7,ECSE,2024-08-28,2024-12-20,FALL 2024,67831,1010,01,ECSE-1010,Introduction To Ecse,"An experiment-centric development of the basic analysis tools of Electrical, Computer, and Systems Engineering, emphasizing the concepts and mathematics of analog and digital circuits and electronics, programming, data generation and analysis, and system model development using paper and pencil analysis, simulation, and experiment. Problems, applications, and projects are chosen to lay a solid foundation for core EE and CSE courses.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-INTRODUCTION TO ECSE,LEC,4,TF,2:00PM,3:50PM,Alex Patterson,Darrin Communications Center 337,70,63,7,ECSE,2024-08-28,2024-12-20,FALL 2024,67832,1010,02,ECSE-1010,Introduction To Ecse,"An experiment-centric development of the basic analysis tools of Electrical, Computer, and Systems Engineering, emphasizing the concepts and mathematics of analog and digital circuits and electronics, programming, data generation and analysis, and system model development using paper and pencil analysis, simulation, and experiment. Problems, applications, and projects are chosen to lay a solid foundation for core EE and CSE courses.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-FIELDS AND WAVES I,LEC,4,MR,10:00AM,11:50AM,Alex Patterson,Jonsson Engineering Center 4309,36,39,-3,ECSE,2024-08-28,2024-12-20,FALL 2024,65491,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and (MATH 2010 or (MATH 2011 and MATH 2012 )) and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']",Engineering
-FIELDS AND WAVES I,LEC,4,M,7:00PM,8:50PM,TBA,Jonsson Engineering Center 4309,36,39,-3,ECSE,2024-08-28,2024-12-20,FALL 2024,65491,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and (MATH 2010 or (MATH 2011 and MATH 2012 )) and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']",Engineering
-FIELDS AND WAVES I,LEC,4,W,2:00PM,3:50PM,TBA,Jonsson Engineering Center 4107,36,39,-3,ECSE,2024-08-28,2024-12-20,FALL 2024,65491,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and (MATH 2010 or (MATH 2011 and MATH 2012 )) and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'MATH 2011', 'PHYS 1200', 'PHYS 1250']",Engineering
-VLSI DESIGN,LEC,3,MR,12:30PM,1:50PM,Russell P. Kraft,Darrin Communications Center 235,30,29,1,ECSE,2024-08-28,2024-12-20,FALL 2024,65116,4220,01,ECSE-4220,Vlsi Design,"Introduction to VLSI design. The fabrication, device, circuit, and system aspects of VLSI design are covered in an integrated fashion. Emphasis is placed on NMOS and CMOS technology. Laboratory experiments focus on layout analysis, computer-aided layout, and logic and timing simulation. Project on digital design with standard cells.",Prerequisites: ECSE 2050 and ECSE 2610; ECSE 2210 recommended.,When Offered: Fall and spring terms annually.,"['ECSE 2050', 'ECSE 2610', 'ECSE 2210']","['ECSE 2050', 'ECSE 2610', 'ECSE 2210']",Engineering
+MASTER'S PROJECT,LEC,1-16,,,,John Wen,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,69916,6980,13,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Alex Patterson,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,69952,6980,14,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Ali Tajer,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,68185,6980,15,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Koushik Kar,TBA,10,2,8,ECSE,2024-08-28,2024-12-20,FALL 2024,70096,6980,16,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Stefan Tomov Radev,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,70121,6980,17,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Qiang Ji,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,70204,6980,18,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Fotios Kopsaftopoulos,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,70279,6980,19,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+SIGNALS & SYSTEMS,LEC,3,TF,10:00AM,11:20AM,Birsen Yazici,Russell Sage Laboratory 4101,70,59,11,ECSE,2024-08-28,2024-12-20,FALL 2024,65114,2410,01,ECSE-2410,Signals & Systems,"Time and frequency-domain representation of continuous- and discrete-time signals and systems. Response of linear, time-invariant systems. Convolution, Fourier series, Fourier transform, Laplace transform, and z-transform. Applications in communication, feedback control, and filtering.",Prerequisite: ECSE 2010,When Offered: Fall and spring terms annually.,['ECSE 2010'],['ECSE 2010'],Engineering
+ANALOG IC DESIGN,LEC,3,TF,10:00AM,11:50AM,Mona Mostafa Hella,Jonsson Engineering Center 4104,25,11,14,ECSE,2024-08-28,2024-12-20,FALL 2024,67416,4030,01,ECSE-4030,Analog Ic Design,"The modeling, analysis, and design of analog integrated circuits using CMOS technology. Topics include basic integrated circuit components, basic amplifier stages, operational amplifiers, frequency compensation and stability, and bandgap references. Emphasis is placed on the design of the fundamental circuits required for analog signal processing. Students undertake several design projects, including a sizeable project that comprises a significant percentage of the final grade.",Prerequisite: ECSE 2050.,When Offered: Fall term annually.,['ECSE 2050'],['ECSE 2050'],Engineering
+QUANTUM PROGRAMMING & APPS,LEC,4,MR,10:00AM,11:50AM,Zhiding Liang,Lally Hall 02,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,69920,4973,01,ECSE-4973,Quantum Programming & Apps,,,,[],[],Engineering
+SEMICOND POWER DEVICES,LEC,3,,,,Tat-Sing Chow,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,70120,6260,01,ECSE-6260,Semicond Power Devices,"Special problems of semiconductor devices operating at high voltage and high current levels. Devices include p-i-n and Schottky diodes, bipolar junction transistors, power MOSFETs and thyristors. Topics include space charge limited current flow, micro plasmas, avalanche breakdown, junction termination, high-level injection, emitter crowding, double injection, second breakdown, triggering mechanisms, plasma propagation, switching and recovery characteristics. Introduction to the Insulated-Gate Bipolar Transistor.",Prerequisites: ECSE 6230 and ECSE 6290 or basic knowledge (at the graduate level) of semiconductor devices or permission of the instructor.,When Offered: Upon availability of instructor,"['ECSE 6230', 'ECSE 6290']","['ECSE 6230', 'ECSE 6290']",Engineering
+SEMINAR IN ECSE,LEC,0,W,3:00PM,6:20PM,Tianyi Chen,Russell Sage Laboratory 3510,110,99,11,ECSE,2024-08-28,2024-12-20,FALL 2024,67885,6900,01,ECSE-6900,Seminar In Ecse,,,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Eric Fred Schubert,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65262,6990,01,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTERS THESIS,LEC,1-12,,,,Esen Yel,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66152,6990,02,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Esen Yel,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,66152,6990,02,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Jianqiang Lu,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66310,6990,03,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Partha S. Dutta,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66161,6990,04,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTERS THESIS,LEC,1-12,,,,Mohammad Mohammadi Amiri,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,65272,6990,05,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Mohammad Mohammadi Amiri,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65272,6990,05,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Tianyi Chen,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66187,6990,06,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,W. Randolph Franklin,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66200,6990,08,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Zheyu Zhang,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,66198,6990,10,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -504,7 +542,7 @@ MASTERS THESIS,LEC,1-12,,,,Tat-Sing Chow,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,
 MASTERS THESIS,LEC,1-12,,,,Michael Shur,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66253,6990,18,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Mona Mostafa Hella,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66254,6990,19,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Moussa Ngom,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66306,6990,20,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTERS THESIS,LEC,1-12,,,,Qiang Ji,TBA,10,1,9,ECSE,2024-08-28,2024-12-20,FALL 2024,66320,6990,21,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Qiang Ji,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66320,6990,21,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Alhussein A Abouzeid,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65378,6990,22,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Ge Wang,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66347,6990,23,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Jian Sun,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,66356,6990,25,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -523,156 +561,144 @@ MASTERS THESIS,LEC,1-12,,,,Luigi Vanfretti,TBA,10,0,10,ECSE,2024-08-28,2024-12-2
 MASTERS THESIS,LEC,1-12,,,,Tong Zhang,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65879,6990,42,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Meng Wang,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,65907,6990,43,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTERS THESIS,LEC,1-12,,,,Bulent Yener,TBA,10,0,10,ECSE,2024-08-28,2024-12-20,FALL 2024,67226,6990,51,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MECHATRONICS-HARDWARE/SOFTWARE,LEC,1,W,12:00PM,12:50PM,Joshua Lucas Hurst,Materials Research Center 136,24,10,14,ECSE,2024-08-28,2024-12-20,FALL 2024,67648,1090,01,ECSE-1090,MECHATRONICS-HARDWARE/SOFTWARE,"A laboratory introduction to simulation and hardware programming with MATLAB and Simulink. Course covers: fundamental theory and programming tools for common sensors and actuators: gyroscopes, accelerometers, magnetometers, encoders, analog sensors, DC Motors, and motor drivers. Including: discretization, sampling, integration, differentiation, delays, saturation, and control. Material covered in a hands on, observable, and application specific way. Weekly one-hour lab/lectures introduce basic topics. Labs reinforce covered topics and are performed at home with provided hardware kits.",,When Offered: Fall and spring term annually upon availability.,[],[],Engineering
-ELECTRICAL ENERGY SYSTEMS,LEC,3,TF,12:30PM,1:50PM,Luigi Vanfretti,Russell Sage Laboratory 3303,46,38,8,ECSE,2024-08-28,2024-12-20,FALL 2024,67816,2110,01,ECSE-2110,Electrical Energy Systems,"This course introduces the major components of today's power system such as transformers, electric machines, and transmission lines. Renewable energy sources and systems are discussed, including wind and solar energy. Integration of energy sources with the grid is addressed.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Summer and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-INTRODUCTION TO PROBABILISTIC GRAPHICAL MODELS,LEC,3,TF,12:30PM,1:50PM,Qiang Ji,Jonsson Engineering Center 4107,30,3,27,ECSE,2024-08-28,2024-12-20,FALL 2024,69608,4810,01,ECSE-4810,Introduction To Probabilistic Graphical Models,"This course covers topics related to learning and inference with different types of Probabilistic Graphical Models (PGMs). It also demonstrates the application of PGMs to different fields. The course covers both directed and undirected graphical models, both parameter and structure learning, and both exact and approximated inference methods.",Prerequisites: ECSE 2500 or ENGR 2600; proficiency in computer programming. Prior knowledge in pattern recognition or machine learning is a plus but is not required.,When Offered: Fall term even-numbered years.,"['ECSE 2500', 'ENGR 2600']","['ECSE 2500', 'ENGR 2600']",Engineering
-SEMINAR IN ECSE,LEC,0,W,3:00PM,6:20PM,Tianyi Chen,Russell Sage Laboratory 3510,110,70,40,ECSE,2024-08-28,2024-12-20,FALL 2024,67885,6900,01,ECSE-6900,Seminar In Ecse,,,,[],[],Engineering
-MICROELECTRONICS TECHNOLOGY,LEC,3,TF,2:00PM,3:50PM,Eric Fred Schubert,Low Center for Industrial Inn. 3051,70,59,11,ECSE,2024-08-28,2024-12-20,FALL 2024,67268,2210,01,ECSE-2210,Microelectronics Technology,"An introductory survey of microelectronics technology emphasizing physical properties of semiconductors, device and circuit fabrication, semiconductor device operation. Topics include semiconductor crystals; energy bands; electrons and holes; dopant impurities; fabrication and operation of diodes, bipolar junction transistors, and field-effect transistors.",Prerequisites: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-MICROELECTRONICS TECHNOLOGY,LEC,3,W,7:00PM,8:50PM,TBA,Low Center for Industrial Inn. 3051,70,59,11,ECSE,2024-08-28,2024-12-20,FALL 2024,67268,2210,01,ECSE-2210,Microelectronics Technology,"An introductory survey of microelectronics technology emphasizing physical properties of semiconductors, device and circuit fabrication, semiconductor device operation. Topics include semiconductor crystals; energy bands; electrons and holes; dopant impurities; fabrication and operation of diodes, bipolar junction transistors, and field-effect transistors.",Prerequisites: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
-IC PROC & DESIGN,LEC,3,MR,10:00AM,11:20AM,Salih Muhsin Celik,Jonsson Engineering Center 6309,36,7,29,ECSE,2024-08-28,2024-12-20,FALL 2024,65117,4250,01,ECSE-4250,Ic Proc & Design,"The theoretical and practical aspects of techniques utilized in the fabrication of silicon-based microcircuits. Imperfections in semiconductors, crystal growth, solid solubility, alloying and diffusion, ion implantation, oxide masking, epitaxy, metallization, etching, and photolithography. Fabrication techniques for bipolar and MOS-microcircuits, and the electrical performance of devices based on these techniques. Microcircuit design and layout. Students cannot receive credit for both this course and MTLE 4160.",Prerequisite: ECSE 2210.,When Offered: Fall term annually.,['ECSE 2210'],['ECSE 2210'],Engineering
-INTRO TO MACHINE LEARNING,LEC,3,MR,2:00PM,3:20PM,Richard J Radke,Russell Sage Laboratory 5510,65,45,20,ECSE,2024-08-28,2024-12-20,FALL 2024,68868,4840,01,ECSE-4840,Intro To Machine Learning,"A broad introduction to statistical machine learning. Topics include supervised learning: generative/discriminative learning, parametric/non-parametric learning, neural networks, support vector machines; unsupervised learning: clustering, dimensionality reduction, kernel methods; learning theory: bias/variance tradeoffs, practical advice; online learning and reinforcement learning. Recent applications of machine learning, such as to data mining, robot navigation, speech recognition, image processing, and signal processing.",Prerequisites (MATH 2010 or (MATH 2011 and MATH 2012)) and ECSE 2500. Programming skills using MATLAB or Python is preferred.,When Offered: Fall term annually,"['MATH 2010', 'MATH 2011', 'ECSE 2500']","['MATH 2010', 'MATH 2011', 'ECSE 2500']",Engineering
-SIGNALS & SYSTEMS,LEC,3,TF,10:00AM,11:20AM,Birsen Yazici,Russell Sage Laboratory 4101,70,65,5,ECSE,2024-08-28,2024-12-20,FALL 2024,65114,2410,01,ECSE-2410,Signals & Systems,"Time and frequency-domain representation of continuous- and discrete-time signals and systems. Response of linear, time-invariant systems. Convolution, Fourier series, Fourier transform, Laplace transform, and z-transform. Applications in communication, feedback control, and filtering.",Prerequisite: ECSE 2010,When Offered: Fall and spring terms annually.,['ECSE 2010'],['ECSE 2010'],Engineering
-ANALOG IC DESIGN,LEC,3,TF,10:00AM,11:50AM,Mona Mostafa Hella,Jonsson Engineering Center 4104,25,12,13,ECSE,2024-08-28,2024-12-20,FALL 2024,67416,4030,01,ECSE-4030,Analog Ic Design,"The modeling, analysis, and design of analog integrated circuits using CMOS technology. Topics include basic integrated circuit components, basic amplifier stages, operational amplifiers, frequency compensation and stability, and bandgap references. Emphasis is placed on the design of the fundamental circuits required for analog signal processing. Students undertake several design projects, including a sizeable project that comprises a significant percentage of the final grade.",Prerequisite: ECSE 2050.,When Offered: Fall term annually.,['ECSE 2050'],['ECSE 2050'],Engineering
-INTRO STOCH SIGN & SYS,LEC,3,TF,2:00PM,3:20PM,Ali Tajer,Jonsson Engineering Center 4104,30,23,7,ECSE,2024-08-28,2024-12-20,FALL 2024,65126,6510,01,ECSE-6510,Intro Stoch Sign & Sys,"Deterministic signal representations and analysis, introduction to random processes and spectral analysis, correlation function and power spectral density of stationary processes, noise mechanisms, the Gaussian and Poisson processes. Markov processes, the analysis of linear and nonlinear systems with random inputs, stochastic signal representations, orthogonal expansions, the Karhunen-Loeve series, channel characterization, introduction to signal detection, linear mean-square filtering, the orthogonality principle, optimum Wiener and Kalman filtering, modulation theory, and systems analysis.",Prerequisites: ECSE 2410 and ECSE 2500 or equivalent.,When Offered: Fall term annually.,"['ECSE 2410', 'ECSE 2500']","['ECSE 2410', 'ECSE 2500']",Engineering
-ENGINEERING PROBABILITY,LEC,3,MR,4:00PM,5:20PM,Tianyi Chen,Low Center for Industrial Inn. 4050,80,76,4,ECSE,2024-08-28,2024-12-20,FALL 2024,66455,2500,01,ECSE-2500,Engineering Probability,"Axioms of probability, joint and conditional probability, random variables, probability density, mass, and distribution functions, functions of one and two random variables, characteristic functions, sequences of independent random variables, central limit theorem, and laws of large numbers. Applications to electrical and computer engineering problems.",Prerequisite:MATH 1020,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Engineering
+ENGINEERING PROBABILITY,LEC,3,MR,4:00PM,5:20PM,Tianyi Chen,Low Center for Industrial Inn. 4050,80,80,0,ECSE,2024-08-28,2024-12-20,FALL 2024,66455,2500,01,ECSE-2500,Engineering Probability,"Axioms of probability, joint and conditional probability, random variables, probability density, mass, and distribution functions, functions of one and two random variables, characteristic functions, sequences of independent random variables, central limit theorem, and laws of large numbers. Applications to electrical and computer engineering problems.",Prerequisite:MATH 1020,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Engineering
 ADVANCED COMPUTER SYSTEMS,LEC,3,MR,2:00PM,3:20PM,Tong Zhang,Jonsson Engineering Center 4104,30,12,18,ECSE,2024-08-28,2024-12-20,FALL 2024,69158,4320,01,ECSE-4320,Advanced Computer Systems,"Key design principles and techniques of modern computer hardware, including instruction-level, data-level, and thread-level parallelism in CPU and GPU, cache and memory hierarchy, DRAM and non-volatile memory technologies and solid-state drive, and heterogeneous and disaggregated computing architecture. Advanced infrastructure software design techniques and algorithms, including indexing data structure, transaction, storage model, and consistency and consensus. Course projects to gain advanced programming skills and deepen the understanding of modern computer hardware and software.",Prerequisite: ECSE 2660 or CSCI 2500 or equivalent.,When Offered: Fall term annually.,"['ECSE 2660', 'CSCI 2500']","['ECSE 2660', 'CSCI 2500']",Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,14,14,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65436,4900,01,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,11,10,1,ECSE,2024-08-28,2024-12-20,FALL 2024,65437,4900,02,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,11,11,0,ECSE,2024-08-28,2024-12-20,FALL 2024,65481,4900,03,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,16,16,0,ECSE,2024-08-28,2024-12-20,FALL 2024,66296,4900,04,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
-ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,30,22,8,ECSE,2024-08-28,2024-12-20,FALL 2024,69607,6961,01,ECSE-6961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
-ENGINEERING DYNAMICS,LEC,4,MR,8:00AM,9:50AM,John A Tichy,Low Center for Industrial Inn. 3051,60,46,14,ENGR,2024-08-28,2024-12-20,FALL 2024,65015,2090,01,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I), MATH 2400, and PHYS 1100 or PHYS 1110 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
-ENGINEERING DYNAMICS,LEC,4,MR,10:00AM,11:50AM,Keith Robert Taylor,Ricketts Building 211,75,63,12,ENGR,2024-08-28,2024-12-20,FALL 2024,66281,2090,02,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I), MATH 2400, and PHYS 1100 or PHYS 1110 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
-ENGINEERING DYNAMICS,LEC,4,TF,2:00PM,3:50PM,Franck Berol Djeumou Mbouwe,Russell Sage Laboratory 4101,60,51,9,ENGR,2024-08-28,2024-12-20,FALL 2024,67712,2090,03,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I), MATH 2400, and PHYS 1100 or PHYS 1110 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
-MODELING PRODUCTION DECISIONS,LEC,3,,,,Rushabh S. Padalia,Online ,25,1,24,ENGR,2024-08-28,2024-12-20,FALL 2024,68605,6206,H01,ENGR-6206,Modeling Production Decisions,,,,[],[],Engineering
-PLATFORM BUS. FOR ENG. & SCI.,LEC,3,MR,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 3039,10,0,10,ENGR,2024-08-28,2024-12-20,FALL 2024,69687,6963,01,ENGR-6963,Platform BUS. For ENG. & SCI.,,,,[],[],Engineering
-ENGINEERING COMMUNICATIONS,LEC,1,M,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,23,27,ENGR,2024-08-28,2024-12-20,FALL 2024,66956,1400,01,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
-ENGINEERING COMMUNICATIONS,LEC,1,T,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,39,11,ENGR,2024-08-28,2024-12-20,FALL 2024,66957,1400,02,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
-ENGINEERING COMMUNICATIONS,LEC,1,W,10:00AM,11:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,28,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66958,1400,03,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
-ENGINEERING COMMUNICATIONS,LEC,1,W,12:00PM,1:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,29,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66959,1400,04,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
-ENGINEERING COMMUNICATIONS,LEC,1,W,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,39,11,ENGR,2024-08-28,2024-12-20,FALL 2024,66960,1400,05,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,14,-14,ECSE,2024-08-28,2024-12-20,FALL 2024,65436,4900,01,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,10,-10,ECSE,2024-08-28,2024-12-20,FALL 2024,65437,4900,02,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,11,-11,ECSE,2024-08-28,2024-12-20,FALL 2024,65481,4900,03,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,17,-17,ECSE,2024-08-28,2024-12-20,FALL 2024,66296,4900,04,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,8:00AM,9:50AM,John A Tichy,Low Center for Industrial Inn. 3051,60,50,10,ENGR,2024-08-28,2024-12-20,FALL 2024,65015,2090,01,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I), MATH 2400, and PHYS 1100 or PHYS 1110 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,10:00AM,11:50AM,Keith Robert Taylor,Ricketts Building 211,75,64,11,ENGR,2024-08-28,2024-12-20,FALL 2024,66281,2090,02,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I), MATH 2400, and PHYS 1100 or PHYS 1110 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+ENGINEERING DYNAMICS,LEC,4,TF,2:00PM,3:50PM,Franck Berol Djeumou Mbouwe,Russell Sage Laboratory 4101,60,49,11,ENGR,2024-08-28,2024-12-20,FALL 2024,67712,2090,03,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I), MATH 2400, and PHYS 1100 or PHYS 1110 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
 MASTERS PROFESSIONAL PROJECT,LEC,3,,,,Michael David Hughes,Online ,15,3,12,ENGR,2024-08-28,2024-12-20,FALL 2024,68843,6970,H01,ENGR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
-ENGINEERING ECONOMICS,LEC,3,MR,8:00AM,9:20AM,John M. Reilly,Pittsburgh Building 4114,50,40,10,ENGR,2024-08-28,2024-12-20,FALL 2024,66040,4760,01,ENGR-4760,Engineering Economics,"The objective is to help engineering students recognize and understand the importance of cost factors that are inherent in all engineering decisions. Development of ability to handle engineering problems that involve economic factors. The course includes economic environment, selections in present economy, value analysis, critical path economy, interest and money-time relationships, depreciation and valuation, capital financing and budgeting, basic methods for undertaking economic studies, risk, uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk costs, the effects of income taxes in economic studies, replacement studies, minimum cost formulas, economic studies of public projects, economic studies in public utilities. Effects of inflation are considered at each step. Students cannot obtain credit for both this course and ENGR 4750.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGINEERING ECONOMICS,LEC,3,MR,10:00AM,11:20AM,John M. Reilly,Pittsburgh Building 4114,55,52,3,ENGR,2024-08-28,2024-12-20,FALL 2024,68744,4760,02,ENGR-4760,Engineering Economics,"The objective is to help engineering students recognize and understand the importance of cost factors that are inherent in all engineering decisions. Development of ability to handle engineering problems that involve economic factors. The course includes economic environment, selections in present economy, value analysis, critical path economy, interest and money-time relationships, depreciation and valuation, capital financing and budgeting, basic methods for undertaking economic studies, risk, uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk costs, the effects of income taxes in economic studies, replacement studies, minimum cost formulas, economic studies of public projects, economic studies in public utilities. Effects of inflation are considered at each step. Students cannot obtain credit for both this course and ENGR 4750.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,Chaitanya Kishore Ullal/John R. LaGraff,Walker Laboratory 6113,50,49,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66284,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,Chaitanya Kishore Ullal,TBA,50,49,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66284,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,50,41,9,ENGR,2024-08-28,2024-12-20,FALL 2024,65394,1600,02,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,50,41,9,ENGR,2024-08-28,2024-12-20,FALL 2024,65394,1600,02,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,M,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,28,22,ENGR,2024-08-28,2024-12-20,FALL 2024,66956,1400,01,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,T,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,41,9,ENGR,2024-08-28,2024-12-20,FALL 2024,66957,1400,02,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,10:00AM,11:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,30,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66958,1400,03,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,12:00PM,1:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,27,3,ENGR,2024-08-28,2024-12-20,FALL 2024,66959,1400,04,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,42,8,ENGR,2024-08-28,2024-12-20,FALL 2024,66960,1400,05,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING ECONOMICS,LEC,3,MR,8:00AM,9:20AM,John M. Reilly,Pittsburgh Building 4114,50,44,6,ENGR,2024-08-28,2024-12-20,FALL 2024,66040,4760,01,ENGR-4760,Engineering Economics,"The objective is to help engineering students recognize and understand the importance of cost factors that are inherent in all engineering decisions. Development of ability to handle engineering problems that involve economic factors. The course includes economic environment, selections in present economy, value analysis, critical path economy, interest and money-time relationships, depreciation and valuation, capital financing and budgeting, basic methods for undertaking economic studies, risk, uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk costs, the effects of income taxes in economic studies, replacement studies, minimum cost formulas, economic studies of public projects, economic studies in public utilities. Effects of inflation are considered at each step. Students cannot obtain credit for both this course and ENGR 4750.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGINEERING ECONOMICS,LEC,3,MR,10:00AM,11:20AM,John M. Reilly,Pittsburgh Building 4114,55,55,0,ENGR,2024-08-28,2024-12-20,FALL 2024,68744,4760,02,ENGR-4760,Engineering Economics,"The objective is to help engineering students recognize and understand the importance of cost factors that are inherent in all engineering decisions. Development of ability to handle engineering problems that involve economic factors. The course includes economic environment, selections in present economy, value analysis, critical path economy, interest and money-time relationships, depreciation and valuation, capital financing and budgeting, basic methods for undertaking economic studies, risk, uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk costs, the effects of income taxes in economic studies, replacement studies, minimum cost formulas, economic studies of public projects, economic studies in public utilities. Effects of inflation are considered at each step. Students cannot obtain credit for both this course and ENGR 4750.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+"MODELING, FORECASTING, SIMULTN",LEC,3,,,,Don Graham,Online ,25,4,21,ENGR,2024-08-28,2024-12-20,FALL 2024,68248,6215,H01,ENGR-6215,"MODELING, FORECASTING, Simultn","Students use analytical tools to gain deeper insights into complex real-world problems. Students apply the data analytic process to real-world problems and questions, applying data preparation techniques, visualization, statistical testing, simulation and forecasting techniques. Students tune models to represent the current state and adjust models as underlying assumptions change.",Prerequisites/Corequisites: ENGR 6200.,,['ENGR 6200'],['ENGR 6200'],Engineering
+MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,Chaitanya Kishore Ullal/John R. LaGraff,Walker Laboratory 6113,50,45,5,ENGR,2024-08-28,2024-12-20,FALL 2024,66284,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,Chaitanya Kishore Ullal,TBA,50,45,5,ENGR,2024-08-28,2024-12-20,FALL 2024,66284,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,50,39,11,ENGR,2024-08-28,2024-12-20,FALL 2024,65394,1600,02,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,50,39,11,ENGR,2024-08-28,2024-12-20,FALL 2024,65394,1600,02,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 ELECTRONIC INSTRUMENTATION,LEC,4,MR,8:00AM,9:50AM,Natalia Maldonado Martinez,Jonsson Engineering Center 4201,60,46,14,ENGR,2024-08-28,2024-12-20,FALL 2024,67083,2300,01,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
 ELECTRONIC INSTRUMENTATION,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4050,60,46,14,ENGR,2024-08-28,2024-12-20,FALL 2024,67083,2300,01,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
-ELECTRONIC INSTRUMENTATION,LEC,4,MR,4:00PM,5:50PM,Natalia Maldonado Martinez,Jonsson Engineering Center 4201,60,55,5,ENGR,2024-08-28,2024-12-20,FALL 2024,67084,2300,02,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
-ELECTRONIC INSTRUMENTATION,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4050,60,55,5,ENGR,2024-08-28,2024-12-20,FALL 2024,67084,2300,02,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
-"MODELING, FORECASTING, SIMULTN",LEC,3,,,,Don Graham,Online ,25,4,21,ENGR,2024-08-28,2024-12-20,FALL 2024,68248,6215,H01,ENGR-6215,"MODELING, FORECASTING, Simultn","Students use analytical tools to gain deeper insights into complex real-world problems. Students apply the data analytic process to real-world problems and questions, applying data preparation techniques, visualization, statistical testing, simulation and forecasting techniques. Students tune models to represent the current state and adjust models as underlying assumptions change.",Prerequisites/Corequisites: ENGR 6200.,,['ENGR 6200'],['ENGR 6200'],Engineering
-INTRODUCTION TO BETTER WORLD ENGINEERING,LEC,1,M,4:00PM,4:50PM,Kurt S Anderson/Shekhar S Garde,Ricketts Building 203,90,75,15,ENGR,2024-08-28,2024-12-20,FALL 2024,68070,1700,01,ENGR-1700,Introduction To Better World Engineering,"This seminar-based course introduces students to the roles the different engineering disciplines play in addressing modern engineering challenges. This course conveys that design is a principal aspect of engineering, often involving multiple disciplines simultaneously and that the associated engineering solutions often have ethical, cultural, social, economic, and environmental consequences. As such these issues must be considered in determining the appropriateness of an engineering solution.",,When Offered: Fall term annually.,[],[],Engineering
-EMBEDDED CONTROL,LEC,4,MR,10:00AM,11:50AM,Kyle Richard Wilt,Jonsson Engineering Center 4201,50,27,23,ENGR,2024-08-28,2024-12-20,FALL 2024,65016,2350,01,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
-EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,Kyle Richard Wilt,Ricketts Building 203,50,27,23,ENGR,2024-08-28,2024-12-20,FALL 2024,65016,2350,01,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
-EMBEDDED CONTROL,LEC,4,MR,2:00PM,3:50PM,James D. Rees/Kyle Richard Wilt,Jonsson Engineering Center 4201,55,48,7,ENGR,2024-08-28,2024-12-20,FALL 2024,65017,2350,02,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
-EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,James D. Rees/Kyle Richard Wilt,Ricketts Building 203,55,48,7,ENGR,2024-08-28,2024-12-20,FALL 2024,65017,2350,02,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
-EMBEDDED CONTROL,LEC,4,TF,10:00AM,11:50AM,Prabhakar Neti/Kyle Richard Wilt,Jonsson Engineering Center 4201,50,36,14,ENGR,2024-08-28,2024-12-20,FALL 2024,69101,2350,03,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
-EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,Prabhakar Neti/Kyle Richard Wilt,Ricketts Building 203,50,36,14,ENGR,2024-08-28,2024-12-20,FALL 2024,69101,2350,03,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
-APPLIED ANALYTICS,LEC,3,,,,Rushabh S. Padalia,Online ,25,8,17,ENGR,2024-08-28,2024-12-20,FALL 2024,68606,6216,H01,ENGR-6216,Applied Analytics,"Working with a faculty member, students develop a big data inquiry model for a complex issue, question or problem of their choosing. Over the semester, the student frames the question to be analyzed, collects and prepares data for analysis, performs the analysis and presents actionable results and recommendations back to the organization.",Prerequisites/Corequisites: ENGR 6200 and ENGR 6215,,"['ENGR 6200', 'ENGR 6215']","['ENGR 6200', 'ENGR 6215']",Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,T,10:00AM,11:50AM,Judith A. Obiero/Tracy N. Sullivan,Walker Laboratory 5113,48,48,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66651,4010,01,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,W,10:00AM,11:50AM,Amy Corron Youmans/Tracy N. Sullivan,Jonsson Engineering Center 4309,30,30,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66434,4010,02,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,MR,4:00PM,5:50PM,Natalia Maldonado Martinez,Jonsson Engineering Center 4201,60,52,8,ENGR,2024-08-28,2024-12-20,FALL 2024,67084,2300,02,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4050,60,52,8,ENGR,2024-08-28,2024-12-20,FALL 2024,67084,2300,02,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+APPLIED ANALYTICS,LEC,3,,,,Rushabh S. Padalia,Online ,25,9,16,ENGR,2024-08-28,2024-12-20,FALL 2024,68606,6216,H01,ENGR-6216,Applied Analytics,"Working with a faculty member, students develop a big data inquiry model for a complex issue, question or problem of their choosing. Over the semester, the student frames the question to be analyzed, collects and prepares data for analysis, performs the analysis and presents actionable results and recommendations back to the organization.",Prerequisites/Corequisites: ENGR 6200 and ENGR 6215,,"['ENGR 6200', 'ENGR 6215']","['ENGR 6200', 'ENGR 6215']",Engineering
+INTRODUCTION TO BETTER WORLD ENGINEERING,LEC,1,M,4:00PM,4:50PM,Kurt S Anderson/Shekhar S Garde,Ricketts Building 203,90,72,18,ENGR,2024-08-28,2024-12-20,FALL 2024,68070,1700,01,ENGR-1700,Introduction To Better World Engineering,"This seminar-based course introduces students to the roles the different engineering disciplines play in addressing modern engineering challenges. This course conveys that design is a principal aspect of engineering, often involving multiple disciplines simultaneously and that the associated engineering solutions often have ethical, cultural, social, economic, and environmental consequences. As such these issues must be considered in determining the appropriateness of an engineering solution.",,When Offered: Fall term annually.,[],[],Engineering
+EMBEDDED CONTROL,LEC,4,MR,10:00AM,11:50AM,Kyle Richard Wilt,Jonsson Engineering Center 4201,50,28,22,ENGR,2024-08-28,2024-12-20,FALL 2024,65016,2350,01,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
+EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,Kyle Richard Wilt,Ricketts Building 203,50,28,22,ENGR,2024-08-28,2024-12-20,FALL 2024,65016,2350,01,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
+EMBEDDED CONTROL,LEC,4,MR,2:00PM,3:50PM,James D. Rees/Kyle Richard Wilt,Jonsson Engineering Center 4201,55,44,11,ENGR,2024-08-28,2024-12-20,FALL 2024,65017,2350,02,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
+EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,James D. Rees/Kyle Richard Wilt,Ricketts Building 203,55,44,11,ENGR,2024-08-28,2024-12-20,FALL 2024,65017,2350,02,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
+EMBEDDED CONTROL,LEC,4,TF,10:00AM,11:50AM,Prabhakar Neti/Kyle Richard Wilt,Jonsson Engineering Center 4201,50,37,13,ENGR,2024-08-28,2024-12-20,FALL 2024,69101,2350,03,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
+EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,Prabhakar Neti/Kyle Richard Wilt,Ricketts Building 203,50,37,13,ENGR,2024-08-28,2024-12-20,FALL 2024,69101,2350,03,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or CSCI 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['CSCI 1100', 'CSCI 1200']","['CSCI 1100', 'CSCI 1200']",Engineering
+DATA ARCHITECTURE,LEC,3,,,,Jan P. Olausson,Online ,25,10,15,ENGR,2024-08-28,2024-12-20,FALL 2024,68607,6220,H01,ENGR-6220,Data Architecture,"Students design and deploy analytical systems that serve as the basis for the analysis, processing, storage, and interface of the machine learing process. Students choose learning models appropriate to the result desired using decision tree, Bayesian, neural net, and vector machine approaches. Students use multiple statistical approaches to evaluate results that lead to best results.","Completion of one of the three following certificates: (Business Intelligence (BIH), Production Analytics (PAH), or Health Analytics (HAH).",,[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,T,10:00AM,11:50AM,Judith A. Obiero/Tracy N. Sullivan,Walker Laboratory 5113,48,47,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66651,4010,01,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,W,10:00AM,11:50AM,Amy Corron Youmans/Tracy N. Sullivan,Jonsson Engineering Center 4309,30,28,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66434,4010,02,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 PD: LEADERSHIP COMPETENCIES,LEC,1,W,10:00AM,11:50AM,Shatoya Denise Michel/Tracy N. Sullivan,Greene Building 120,48,48,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66435,4010,03,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 PD: LEADERSHIP COMPETENCIES,LEC,1,T,12:00PM,1:50PM,Shatoya Denise Michel/Tracy N. Sullivan,Troy Building 2018,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66436,4010,04,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,W,12:00PM,1:50PM,Susan Victoria Henry/Tracy N. Sullivan,Greene Building 120,48,48,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66437,4010,05,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,R,12:00PM,1:50PM,Amy Corron Youmans/Tracy N. Sullivan,Jonsson Engineering Center 3207,20,14,6,ENGR,2024-08-28,2024-12-20,FALL 2024,69767,4010,06,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,T,2:00PM,3:50PM,Amy Corron Youmans/Tracy N. Sullivan,Pittsburgh Building 4206,48,48,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66439,4010,07,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,T,2:00PM,3:50PM,Judith A. Obiero/Tracy N. Sullivan,Folsom Library 107,48,30,18,ENGR,2024-08-28,2024-12-20,FALL 2024,66440,4010,08,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,R,2:00PM,3:50PM,Susan Victoria Henry/Tracy N. Sullivan,Folsom Library 107,48,46,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66652,4010,09,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-PD: LEADERSHIP COMPETENCIES,LEC,1,R,8:00AM,9:50AM,Shatoya Denise Michel/Tracy N. Sullivan,Troy Building 2012,48,26,22,ENGR,2024-08-28,2024-12-20,FALL 2024,67632,4010,10,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-DATA ARCHITECTURE,LEC,3,,,,Jan P. Olausson,Online ,25,9,16,ENGR,2024-08-28,2024-12-20,FALL 2024,68607,6220,H01,ENGR-6220,Data Architecture,"Students design and deploy analytical systems that serve as the basis for the analysis, processing, storage, and interface of the machine learing process. Students choose learning models appropriate to the result desired using decision tree, Bayesian, neural net, and vector machine approaches. Students use multiple statistical approaches to evaluate results that lead to best results.","Completion of one of the three following certificates: (Business Intelligence (BIH), Production Analytics (PAH), or Health Analytics (HAH).",,[],[],Engineering
-STRENGTH OF MATERIALS,LEC,4,MR,10:00AM,11:50AM,Omar Osama El-Shafee,Carnegie Building 113,80,76,4,ENGR,2024-08-28,2024-12-20,FALL 2024,65018,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,80,76,4,ENGR,2024-08-28,2024-12-20,FALL 2024,65018,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,MR,12:00PM,1:50PM,Kristen Lynn Mills,Russell Sage Laboratory 4101,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65019,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65019,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,TF,10:00AM,11:50AM,Sergei Shenogin,Low Center for Industrial Inn. 3051,70,50,20,ENGR,2024-08-28,2024-12-20,FALL 2024,65020,2530,03,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,70,50,20,ENGR,2024-08-28,2024-12-20,FALL 2024,65020,2530,03,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,TF,2:00PM,3:50PM,Sergei Shenogin,Ricketts Building 211,75,60,15,ENGR,2024-08-28,2024-12-20,FALL 2024,65319,2530,04,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,75,60,15,ENGR,2024-08-28,2024-12-20,FALL 2024,65319,2530,04,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,MR,8:00AM,9:50AM,Kristen Lynn Mills,Russell Sage Laboratory 3101,60,27,33,ENGR,2024-08-28,2024-12-20,FALL 2024,69103,2530,05,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,60,27,33,ENGR,2024-08-28,2024-12-20,FALL 2024,69103,2530,05,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
-BUSINESS ISSUES FOR ENGR & SCI,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,5,6,-1,ENGR,2024-08-28,2024-12-20,FALL 2024,65428,4100,01,ENGR-4100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,50,7,43,ENGR,2024-08-28,2024-12-20,FALL 2024,69605,4961,01,ENGR-4961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
-MACHINE LEARNING FRAMEWORKS,LEC,3,,,,Rushabh S. Padalia,Online ,25,5,20,ENGR,2024-08-28,2024-12-20,FALL 2024,68645,6221,H01,ENGR-6221,Machine Learning Frameworks,Students develop predictive models that lead to the least likelihood of unintended variance and build natural language and recommendation engines for common applications such as enhancement engines. Students observe results and tune recommendation models to achieve more accurate predictions and recommendations.,Prerequisites/Corequisites: Successful completion of ENGR 6220.,,['ENGR 6220'],['ENGR 6220'],Engineering
-MODELING & ANALYSIS UNCERTAINT,LEC,3,MR,8:30AM,9:50AM,Esra Agca Aktunc/Xun Wang,Low Center for Industrial Inn. 4050,50,27,23,ENGR,2024-08-28,2024-12-20,FALL 2024,65021,2600,01,ENGR-2600,Modeling & Analysis Uncertaint,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MODELING & ANALYSIS UNCERTAINT,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,50,27,23,ENGR,2024-08-28,2024-12-20,FALL 2024,65021,2600,01,ENGR-2600,Modeling & Analysis Uncertaint,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,W,12:00PM,1:50PM,Susan Victoria Henry/Tracy N. Sullivan,Greene Building 120,48,46,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66437,4010,05,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,R,12:00PM,1:50PM,Amy Corron Youmans/Tracy N. Sullivan,Jonsson Engineering Center 3207,20,18,2,ENGR,2024-08-28,2024-12-20,FALL 2024,69767,4010,06,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,T,2:00PM,3:50PM,Amy Corron Youmans/Tracy N. Sullivan,Pittsburgh Building 4206,48,47,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66439,4010,07,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,T,2:00PM,3:50PM,Judith A. Obiero/Tracy N. Sullivan,Folsom Library 107,48,36,12,ENGR,2024-08-28,2024-12-20,FALL 2024,66440,4010,08,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,R,2:00PM,3:50PM,Susan Victoria Henry/Tracy N. Sullivan,Jonsson Engineering Center 3210,48,47,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66652,4010,09,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,R,8:00AM,9:50AM,Shatoya Denise Michel/Tracy N. Sullivan,Troy Building 2012,48,23,25,ENGR,2024-08-28,2024-12-20,FALL 2024,67632,4010,10,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,50,8,42,ENGR,2024-08-28,2024-12-20,FALL 2024,69605,4961,01,ENGR-4961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
+MACHINE LEARNING FRAMEWORKS,LEC,3,,,,Rushabh S. Padalia,Online ,25,6,19,ENGR,2024-08-28,2024-12-20,FALL 2024,68645,6221,H01,ENGR-6221,Machine Learning Frameworks,Students develop predictive models that lead to the least likelihood of unintended variance and build natural language and recommendation engines for common applications such as enhancement engines. Students observe results and tune recommendation models to achieve more accurate predictions and recommendations.,Prerequisites/Corequisites: Successful completion of ENGR 6220.,,['ENGR 6220'],['ENGR 6220'],Engineering
+STRENGTH OF MATERIALS,LEC,4,MR,10:00AM,11:50AM,Omar Osama El-Shafee,Carnegie Building 113,80,80,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65018,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,80,80,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65018,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,MR,12:00PM,1:50PM,Kristen Lynn Mills,Russell Sage Laboratory 4101,70,69,1,ENGR,2024-08-28,2024-12-20,FALL 2024,65019,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,70,69,1,ENGR,2024-08-28,2024-12-20,FALL 2024,65019,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,TF,10:00AM,11:50AM,Sergei Shenogin,Low Center for Industrial Inn. 3051,70,47,23,ENGR,2024-08-28,2024-12-20,FALL 2024,65020,2530,03,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,70,47,23,ENGR,2024-08-28,2024-12-20,FALL 2024,65020,2530,03,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,TF,2:00PM,3:50PM,Sergei Shenogin,Ricketts Building 211,75,51,24,ENGR,2024-08-28,2024-12-20,FALL 2024,65319,2530,04,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,75,51,24,ENGR,2024-08-28,2024-12-20,FALL 2024,65319,2530,04,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,MR,8:00AM,9:50AM,Kristen Lynn Mills,Russell Sage Laboratory 3101,60,29,31,ENGR,2024-08-28,2024-12-20,FALL 2024,69103,2530,05,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 308,60,29,31,ENGR,2024-08-28,2024-12-20,FALL 2024,69103,2530,05,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100 or MANE 1960 titled Mechanics I.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+BUSINESS ISSUES FOR ENGR & SCI,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,5,5,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65428,4100,01,ENGR-4100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+DEEP LEARNING IN AI SYSTEMS,LEC,3,,,,Jan P. Olausson,Online ,25,1,24,ENGR,2024-08-28,2024-12-20,FALL 2024,68642,6222,H01,ENGR-6222,Deep Learning In Ai Systems,"Working directly with a faculty member, students build machine learning systems that can be used as the foundation for decision-making intelligences, where learning systems transition from recommendations to decision capacities. Over the semester, the student proposes the model, develops the model, and trains the system to improve performance.",Prerequisites/Corequisites: Successful completion of ENGR 6221.,,['ENGR 6221'],['ENGR 6221'],Engineering
+MODELING & ANALYSIS UNCERTAINT,LEC,3,MR,8:30AM,9:50AM,Esra Agca Aktunc/Xun Wang,Low Center for Industrial Inn. 4050,50,31,19,ENGR,2024-08-28,2024-12-20,FALL 2024,65021,2600,01,ENGR-2600,Modeling & Analysis Uncertaint,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MODELING & ANALYSIS UNCERTAINT,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,50,31,19,ENGR,2024-08-28,2024-12-20,FALL 2024,65021,2600,01,ENGR-2600,Modeling & Analysis Uncertaint,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
 MOD & ANALYSIS UNCERTAINTY,LEC,3,MR,12:00PM,1:20PM,Uwe Kruger/Xun Wang,Russell Sage Laboratory 5510,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,68976,2600,02,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
 MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,68976,2600,02,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,8:30AM,9:50AM,Xun Wang,Troy Building 2018,60,55,5,ENGR,2024-08-28,2024-12-20,FALL 2024,66294,2600,03,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,60,55,5,ENGR,2024-08-28,2024-12-20,FALL 2024,66294,2600,03,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,12:00PM,1:20PM,Sergei Shenogin/Xun Wang,Darrin Communications Center 324,75,70,5,ENGR,2024-08-28,2024-12-20,FALL 2024,65022,2600,04,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,75,70,5,ENGR,2024-08-28,2024-12-20,FALL 2024,65022,2600,04,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,2:00PM,3:20PM,Esra Agca Aktunc/Xun Wang,Troy Building 2012,60,45,15,ENGR,2024-08-28,2024-12-20,FALL 2024,67080,2600,05,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,60,45,15,ENGR,2024-08-28,2024-12-20,FALL 2024,67080,2600,05,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
-DEEP LEARNING IN AI SYSTEMS,LEC,3,,,,Jan P. Olausson,Online ,25,1,24,ENGR,2024-08-28,2024-12-20,FALL 2024,68642,6222,H01,ENGR-6222,Deep Learning In Ai Systems,"Working directly with a faculty member, students build machine learning systems that can be used as the foundation for decision-making intelligences, where learning systems transition from recommendations to decision capacities. Over the semester, the student proposes the model, develops the model, and trains the system to improve performance.",Prerequisites/Corequisites: Successful completion of ENGR 6221.,,['ENGR 6221'],['ENGR 6221'],Engineering
-LEAN SIX SIGMA I,LEC,3,,,,Antonella Zompa,Online ,25,7,18,ENGR,2024-08-28,2024-12-20,FALL 2024,68608,6230,H01,ENGR-6230,Lean Six Sigma I,"Learn the fundamentals of lean and six sigma philosophies and gain experience with a toolkit to improve existing processes by applying them to relevant workplace process. The Define, Measure, Analyze, Improve, and Control (DMAIC) improvement cycle is used, in which students learn and gain experience using multiple tools for each step of the improvement cycle, including voice of customer (VOC), quality functional deployment (QFD), 5S, Kaizens, and plan-do-check-act (PDCA).",,,[],[],Engineering
-GEN MANUFACTURING PROC,LEC,3,TF,8:30AM,9:50AM,Samuel G Chiappone,Low Center for Industrial Inn. 3112,20,14,6,ENGR,2024-08-28,2024-12-20,FALL 2024,65023,2710,01,ENGR-2710,Gen Manufacturing Proc,"A classroom study of the basic theory and methods of traditional and nontraditional machining, metal joining, material working, and foundry processes, and the variety of functions performed by the primary machine tools employed by the modern manufacturing community. A basic first course or terminal course for all students who are interested in manufacturing processes.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-PROF DEVELOP: GROUP DYNAMICS,LEC,1,W,8:00AM,9:20AM,Shatoya Denise Michel,Troy Building 2015,30,30,0,ENGR,2024-08-28,2024-12-20,FALL 2024,68244,1010,01,ENGR-1010,Prof DEVELOP: Group Dynamics,"An introduction to the issues related to working in team settings. Topics explored include: communications in teams, public speaking and professional responsibility, stages of group development, building a team, group decision making, and conflict resolution. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.",,When Offered: Fall and Spring term annually.,[],[],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,8:30AM,9:50AM,Xun Wang,Troy Building 2018,60,60,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66294,2600,03,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,60,60,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66294,2600,03,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,12:00PM,1:20PM,Sergei Shenogin/Xun Wang,Darrin Communications Center 324,75,53,22,ENGR,2024-08-28,2024-12-20,FALL 2024,65022,2600,04,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,75,53,22,ENGR,2024-08-28,2024-12-20,FALL 2024,65022,2600,04,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,2:00PM,3:20PM,Esra Agca Aktunc/Xun Wang,Troy Building 2012,60,50,10,ENGR,2024-08-28,2024-12-20,FALL 2024,67080,2600,05,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,12:50PM,TBA,Darrin Communications Center 308,60,50,10,ENGR,2024-08-28,2024-12-20,FALL 2024,67080,2600,05,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+LEAN SIX SIGMA I,LEC,3,,,,Antonella Zompa,Online ,25,6,19,ENGR,2024-08-28,2024-12-20,FALL 2024,68608,6230,H01,ENGR-6230,Lean Six Sigma I,"Learn the fundamentals of lean and six sigma philosophies and gain experience with a toolkit to improve existing processes by applying them to relevant workplace process. The Define, Measure, Analyze, Improve, and Control (DMAIC) improvement cycle is used, in which students learn and gain experience using multiple tools for each step of the improvement cycle, including voice of customer (VOC), quality functional deployment (QFD), 5S, Kaizens, and plan-do-check-act (PDCA).",,,[],[],Engineering
+GEN MANUFACTURING PROC,LEC,3,TF,8:30AM,9:50AM,Samuel G Chiappone,Low Center for Industrial Inn. 3112,20,17,3,ENGR,2024-08-28,2024-12-20,FALL 2024,65023,2710,01,ENGR-2710,Gen Manufacturing Proc,"A classroom study of the basic theory and methods of traditional and nontraditional machining, metal joining, material working, and foundry processes, and the variety of functions performed by the primary machine tools employed by the modern manufacturing community. A basic first course or terminal course for all students who are interested in manufacturing processes.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+MGMT OF ENGINEERING & TECH,LEC,4,MR,12:00PM,1:50PM,Azita Hirsa,Low Center for Industrial Inn. 4040,15,15,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69477,4440,01,ENGR-4440,Mgmt Of Engineering & Tech,"The study of the link between engineering and management. Students will gain an in-depth understanding of the foundations of engineering management. Topics covered include the concept of engineering management, its relationship to engineering, and its historical underpinnings, and the traditional roles of management with a particular emphasis on leadership skills. The course examines the difference between managerial vs. leadership roles in organizational settings. Furthermore, attention is given to evaluating risk, and other organizational and administrative capabilities. The ethical dimensions of the organization and the engineering community are also explored.",,,[],[],Engineering
+BUSINESS ISSUES FOR ENGR & SCI,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,5,5,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65429,6100,01,ENGR-6100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+BUSINESS ISSUES FOR ENGR & SCI,LEC,3,,,,Thomas M. Abbott,Online ,25,13,12,ENGR,2024-08-28,2024-12-20,FALL 2024,68047,6100,H01,ENGR-6100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+PROF DEVELOP: GROUP DYNAMICS,LEC,1,W,8:00AM,9:20AM,Shatoya Denise Michel,Troy Building 2015,30,31,-1,ENGR,2024-08-28,2024-12-20,FALL 2024,68244,1010,01,ENGR-1010,Prof DEVELOP: Group Dynamics,"An introduction to the issues related to working in team settings. Topics explored include: communications in teams, public speaking and professional responsibility, stages of group development, building a team, group decision making, and conflict resolution. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.",,When Offered: Fall and Spring term annually.,[],[],Engineering
 COMPUTER AIDED MACHINING,LEC,3,W,9:00AM,10:50AM,Madeleine Marie Dwyer/Samuel G Chiappone/Larry David Oligny/John P Szczesniak/Scott Frederick Yerbury,Low Center for Industrial Inn. 3039,12,10,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66041,2720,01,ENGR-2720,Computer Aided Machining,"This course will introduce students to the basic concepts associated with computer numerical controlled (CNC) machining. Specifically, the student will be introduced to the processes and operations associated with CNC milling, drilling, and turning. All of these processes will be controlled by code written by the students. Students are expected to apply their knowledge of computer-aided engineering as well as manufacturing processes to class exercises, homework assignments, tests, and a final project.",,When Offered: Fall term annually.,[],[],Engineering
 COMPUTER AIDED MACHINING,LEC,3,W,3:00PM,5:50PM,TBA,Low Center for Industrial Inn. 3039,12,10,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66041,2720,01,ENGR-2720,Computer Aided Machining,"This course will introduce students to the basic concepts associated with computer numerical controlled (CNC) machining. Specifically, the student will be introduced to the processes and operations associated with CNC milling, drilling, and turning. All of these processes will be controlled by code written by the students. Students are expected to apply their knowledge of computer-aided engineering as well as manufacturing processes to class exercises, homework assignments, tests, and a final project.",,When Offered: Fall term annually.,[],[],Engineering
-MGMT OF ENGINEERING & TECH,LEC,4,MR,12:00PM,1:50PM,Azita Hirsa,Low Center for Industrial Inn. 4040,15,14,1,ENGR,2024-08-28,2024-12-20,FALL 2024,69477,4440,01,ENGR-4440,Mgmt Of Engineering & Tech,"The study of the link between engineering and management. Students will gain an in-depth understanding of the foundations of engineering management. Topics covered include the concept of engineering management, its relationship to engineering, and its historical underpinnings, and the traditional roles of management with a particular emphasis on leadership skills. The course examines the difference between managerial vs. leadership roles in organizational settings. Furthermore, attention is given to evaluating risk, and other organizational and administrative capabilities. The ethical dimensions of the organization and the engineering community are also explored.",,,[],[],Engineering
-BUSINESS ISSUES FOR ENGR & SCI,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,5,5,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65429,6100,01,ENGR-6100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-BUSINESS ISSUES FOR ENGR & SCI,LEC,3,,,,Thomas M. Abbott,Online ,25,12,13,ENGR,2024-08-28,2024-12-20,FALL 2024,68047,6100,H01,ENGR-6100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,MR,2:00PM,3:50PM,Keith Robert Taylor,Ricketts Building 211,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69107,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69107,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ADV. MANUFACTURING PROC & SYS,LEC,4,TF,2:00PM,3:50PM,Johnson Samuel,Darrin Communications Center 236,5,1,4,ENGR,2024-08-28,2024-12-20,FALL 2024,67650,6120,01,ENGR-6120,ADV. Manufacturing Proc & Sys,Advanced Manufacturing Processes and Systems (AMP) is a project-based lecture/laboratory course that teaches graduate engineering students how to develop new manufacturing processes and systems.,"Prerequisites/Corequisites: B.S. in Engineering, ENGR 4710 or equivalent.",When Offered: Fall term annually.,['ENGR 4710'],['ENGR 4710'],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,MR,2:00PM,3:50PM,Keith Robert Taylor,Ricketts Building 211,75,72,3,ENGR,2024-08-28,2024-12-20,FALL 2024,69107,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,75,72,3,ENGR,2024-08-28,2024-12-20,FALL 2024,69107,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 INTRO TO ENGR ANALYSIS,LEC,4,MR,10:00AM,11:50AM,Mourad Zeghal,Low Center for Industrial Inn. 3051,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69108,1100,02,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69108,1100,02,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,MR,12:00PM,1:50PM,Tathagata Bhaduri,Ricketts Building 211,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,68975,1100,03,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,68975,1100,03,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,MR,2:00PM,3:50PM,Mourad Zeghal,Russell Sage Laboratory 4101,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69109,1100,04,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69109,1100,04,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,MR,12:00PM,1:50PM,Tathagata Bhaduri,Ricketts Building 211,75,73,2,ENGR,2024-08-28,2024-12-20,FALL 2024,68975,1100,03,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,75,73,2,ENGR,2024-08-28,2024-12-20,FALL 2024,68975,1100,03,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,MR,2:00PM,3:50PM,Mourad Zeghal,Russell Sage Laboratory 4101,70,69,1,ENGR,2024-08-28,2024-12-20,FALL 2024,69109,1100,04,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,70,69,1,ENGR,2024-08-28,2024-12-20,FALL 2024,69109,1100,04,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 INTRO TO ENGR ANALYSIS,LEC,4,TF,8:00AM,9:50AM,Tathagata Bhaduri,Ricketts Building 211,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69110,1100,05,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69110,1100,05,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 INTRO TO ENGR ANALYSIS,LEC,4,TF,10:00AM,11:50AM,Keith Robert Taylor,Ricketts Building 211,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69050,1100,06,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,75,75,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69050,1100,06,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,TF,12:00PM,1:50PM,Tathagata Bhaduri,Low Center for Industrial Inn. 3051,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69111,1100,07,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,70,70,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69111,1100,07,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ADV. MANUFACTURING PROC & SYS,LEC,4,TF,2:00PM,3:50PM,Johnson Samuel,Darrin Communications Center 236,5,2,3,ENGR,2024-08-28,2024-12-20,FALL 2024,67650,6120,01,ENGR-6120,ADV. Manufacturing Proc & Sys,Advanced Manufacturing Processes and Systems (AMP) is a project-based lecture/laboratory course that teaches graduate engineering students how to develop new manufacturing processes and systems.,"Prerequisites/Corequisites: B.S. in Engineering, ENGR 4710 or equivalent.",When Offered: Fall term annually.,['ENGR 4710'],['ENGR 4710'],Engineering
-ENGR GRAPHICS & CAD,LEC,1,T,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65142,1200,01,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR GRAPHICS & CAD,LEC,1,W,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,37,13,ENGR,2024-08-28,2024-12-20,FALL 2024,65068,1200,02,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR GRAPHICS & CAD,LEC,1,W,10:00AM,11:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65067,1200,03,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR GRAPHICS & CAD,LEC,1,W,12:00PM,1:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66775,1200,04,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,TF,12:00PM,1:50PM,Tathagata Bhaduri,Low Center for Industrial Inn. 3051,70,69,1,ENGR,2024-08-28,2024-12-20,FALL 2024,69111,1100,07,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Darrin Communications Center 308,70,69,1,ENGR,2024-08-28,2024-12-20,FALL 2024,69111,1100,07,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,T,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,47,3,ENGR,2024-08-28,2024-12-20,FALL 2024,65142,1200,01,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,W,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,34,16,ENGR,2024-08-28,2024-12-20,FALL 2024,65068,1200,02,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,W,10:00AM,11:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,49,1,ENGR,2024-08-28,2024-12-20,FALL 2024,65067,1200,03,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,W,12:00PM,1:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,49,1,ENGR,2024-08-28,2024-12-20,FALL 2024,66775,1200,04,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 ENGR GRAPHICS & CAD,LEC,1,W,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,30,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65003,1200,05,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR GRAPHICS & CAD,LEC,1,W,4:00PM,5:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65004,1200,06,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR GRAPHICS & CAD,LEC,1,F,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66921,1200,07,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR GRAPHICS & CAD,LEC,1,F,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,50,0,ENGR,2024-08-28,2024-12-20,FALL 2024,66922,1200,08,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,M,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-08-28,2024-12-20,FALL 2024,65005,1300,01,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,M,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,20,8,ENGR,2024-08-28,2024-12-20,FALL 2024,65006,1300,02,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,W,4:00PM,5:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,48,2,ENGR,2024-08-28,2024-12-20,FALL 2024,65004,1200,06,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,F,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,48,2,ENGR,2024-08-28,2024-12-20,FALL 2024,66921,1200,07,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR GRAPHICS & CAD,LEC,1,F,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,43,7,ENGR,2024-08-28,2024-12-20,FALL 2024,66922,1200,08,ENGR-1200,Engr Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+DATA-DRIVEN DECISION MAKING,LEC,3,,,,John Franklin,Online ,25,9,16,ENGR,2024-08-28,2024-12-20,FALL 2024,68247,6200,H01,ENGR-6200,DATA-DRIVEN Decision Making,Students frame questions and problems in forms that can be analyzed using data analytic tools. Students use data wrangling and preparation methods to prepare for analysis. Students use analytical tools to evaluate analytic models using linear/nonlinear multivariate methodologies. Students validate results and develop algorithms that can be used to make recommendations and forecasts. Students work with stakeholders to scope and frame questions and problems so that actionable results can be achieved.,,,[],[],Engineering
+ENGR PROCESSES,LEC,1,M,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65005,1300,01,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,M,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,18,10,ENGR,2024-08-28,2024-12-20,FALL 2024,65006,1300,02,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 ENGR PROCESSES,LEC,1,T,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-08-28,2024-12-20,FALL 2024,65007,1300,03,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,T,1:00PM,3:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65008,1300,04,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,T,1:00PM,3:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,24,4,ENGR,2024-08-28,2024-12-20,FALL 2024,65008,1300,04,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
 ENGR PROCESSES,LEC,1,W,10:00AM,12:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65009,1300,05,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,W,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,26,2,ENGR,2024-08-28,2024-12-20,FALL 2024,67191,1300,06,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,R,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,20,8,ENGR,2024-08-28,2024-12-20,FALL 2024,65010,1300,07,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,R,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,8,20,ENGR,2024-08-28,2024-12-20,FALL 2024,68741,1300,08,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,F,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,4,24,ENGR,2024-08-28,2024-12-20,FALL 2024,68742,1300,09,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,F,12:00PM,2:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,6,22,ENGR,2024-08-28,2024-12-20,FALL 2024,68743,1300,10,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,T,4:00PM,6:50PM,Scott Frederick Yerbury/John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,67192,1300,11,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,R,5:30PM,8:20PM,John P Szczesniak,Jonsson Engineering Center 1010,28,17,11,ENGR,2024-08-28,2024-12-20,FALL 2024,67706,1300,12,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-ENGR PROCESSES,LEC,1,M,5:30PM,8:20PM,John P Szczesniak,Jonsson Engineering Center 1010,28,22,6,ENGR,2024-08-28,2024-12-20,FALL 2024,67805,1300,13,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
-INTRO ENGINEERING DESIGN,LEC,4,MR,10:00AM,11:50AM,Daniel Walczyk/Mark J Anderson/Judith A. Obiero,Low Center for Industrial Inn. 3130,28,23,5,ENGR,2024-08-28,2024-12-20,FALL 2024,65011,2050,01,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN,LEC,4,MR,10:00AM,11:50AM,Zhaoran Huang/Mark J Anderson/Amy Corron Youmans,Jonsson Engineering Center 3207,28,13,15,ENGR,2024-08-28,2024-12-20,FALL 2024,66441,2050,02,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+ENGR PROCESSES,LEC,1,W,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,67191,1300,06,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,R,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,22,6,ENGR,2024-08-28,2024-12-20,FALL 2024,65010,1300,07,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,R,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,10,18,ENGR,2024-08-28,2024-12-20,FALL 2024,68741,1300,08,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,F,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,5,23,ENGR,2024-08-28,2024-12-20,FALL 2024,68742,1300,09,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,F,12:00PM,2:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,7,21,ENGR,2024-08-28,2024-12-20,FALL 2024,68743,1300,10,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,T,4:00PM,6:50PM,Scott Frederick Yerbury/John P Szczesniak,Jonsson Engineering Center 1010,28,25,3,ENGR,2024-08-28,2024-12-20,FALL 2024,67192,1300,11,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,R,5:30PM,8:20PM,John P Szczesniak,Jonsson Engineering Center 1010,28,15,13,ENGR,2024-08-28,2024-12-20,FALL 2024,67706,1300,12,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,M,5:30PM,8:20PM,John P Szczesniak,Jonsson Engineering Center 1010,28,23,5,ENGR,2024-08-28,2024-12-20,FALL 2024,67805,1300,13,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO ENGINEERING DESIGN,LEC,4,MR,10:00AM,11:50AM,Daniel Walczyk/Mark J Anderson/Judith A. Obiero,Low Center for Industrial Inn. 3130,28,21,7,ENGR,2024-08-28,2024-12-20,FALL 2024,65011,2050,01,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,MR,10:00AM,11:50AM,Zhaoran Huang/Mark J Anderson/Amy Corron Youmans,Jonsson Engineering Center 3207,28,19,9,ENGR,2024-08-28,2024-12-20,FALL 2024,66441,2050,02,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
 INTRO ENGINEERING DESIGN,LEC,4,TF,10:00AM,11:50AM,Deanna Marie Thompson/Mark J Anderson/Jordan L Vener,Jonsson Engineering Center 3207,28,21,7,ENGR,2024-08-28,2024-12-20,FALL 2024,67079,2050,03,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN,LEC,4,MR,12:00PM,1:50PM,Julia D Carroll/Mark J Anderson/Judith A. Obiero,Darrin Communications Center 239,30,30,0,ENGR,2024-08-28,2024-12-20,FALL 2024,65012,2050,04,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN,LEC,4,TF,12:00PM,1:50PM,Deanna Marie Thompson/Mark J Anderson/Jordan L Vener,Jonsson Engineering Center 3207,30,24,6,ENGR,2024-08-28,2024-12-20,FALL 2024,65014,2050,05,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,10:00AM,11:50AM,John R. LaGraff/Glen R Gross/George Jiren Lee,Troy Building 2015,30,28,2,ENGR,2024-08-28,2024-12-20,FALL 2024,65013,2050,06,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,12:00PM,1:50PM,Asish Ghosh/Glen R Gross/George Jiren Lee,Jonsson Engineering Center 3232,30,30,0,ENGR,2024-08-28,2024-12-20,FALL 2024,67806,2050,07,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,2:00PM,3:50PM,George Jiren Lee/John R. LaGraff/Jordan L Vener,Jonsson Engineering Center 3232,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,67193,2050,08,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,8:00AM,9:50AM,Casey Jay Hoffman/Christine M Allard/John R. LaGraff/George Jiren Lee,Materials Research Center 136,28,15,13,ENGR,2024-08-28,2024-12-20,FALL 2024,69105,2050,09,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,2:00PM,3:50PM,Asish Ghosh/Glen R Gross/George Jiren Lee,Materials Research Center 136,28,26,2,ENGR,2024-08-28,2024-12-20,FALL 2024,69106,2050,10,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,12:00PM,1:50PM,Semih Akin/Glen R Gross/John R. LaGraff/George Jiren Lee,Jonsson-Rowland Science Center 2C13,28,28,0,ENGR,2024-08-28,2024-12-20,FALL 2024,69567,2050,11,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
-DATA-DRIVEN DECISION MAKING,LEC,3,,,,John Franklin,Online ,25,8,17,ENGR,2024-08-28,2024-12-20,FALL 2024,68247,6200,H01,ENGR-6200,DATA-DRIVEN Decision Making,Students frame questions and problems in forms that can be analyzed using data analytic tools. Students use data wrangling and preparation methods to prepare for analysis. Students use analytical tools to evaluate analytic models using linear/nonlinear multivariate methodologies. Students validate results and develop algorithms that can be used to make recommendations and forecasts. Students work with stakeholders to scope and frame questions and problems so that actionable results can be achieved.,,,[],[],Engineering
-MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,MR,2:00PM,4:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,11,1,ENGR,2024-08-28,2024-12-20,FALL 2024,67803,4710,01,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
-MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,11,1,ENGR,2024-08-28,2024-12-20,FALL 2024,67803,4710,01,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
-MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,MR,10:00AM,12:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,9,3,ENGR,2024-08-28,2024-12-20,FALL 2024,67804,4710,02,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
-MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,9,3,ENGR,2024-08-28,2024-12-20,FALL 2024,67804,4710,02,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,MR,12:00PM,1:50PM,Julia D Carroll/Mark J Anderson/Judith A. Obiero,Amos Eaton Hall 215,30,29,1,ENGR,2024-08-28,2024-12-20,FALL 2024,65012,2050,04,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,12:00PM,1:50PM,Deanna Marie Thompson/Mark J Anderson/Jordan L Vener,Jonsson Engineering Center 3207,30,26,4,ENGR,2024-08-28,2024-12-20,FALL 2024,65014,2050,05,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,10:00AM,11:50AM,John R. LaGraff/George Jiren Lee/Tracy N. Sullivan,Troy Building 2015,30,27,3,ENGR,2024-08-28,2024-12-20,FALL 2024,65013,2050,06,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,12:00PM,1:50PM,Asish Ghosh/George Jiren Lee/Tracy N. Sullivan,Jonsson-Rowland Science Center 2C13,30,28,2,ENGR,2024-08-28,2024-12-20,FALL 2024,67806,2050,07,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,2:00PM,3:50PM,George Jiren Lee/John R. LaGraff/Jordan L Vener,Jonsson Engineering Center 3232,28,27,1,ENGR,2024-08-28,2024-12-20,FALL 2024,67193,2050,08,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,8:00AM,9:50AM,Casey Jay Hoffman/Christine M Allard/John R. LaGraff/George Jiren Lee,Materials Research Center 136,28,16,12,ENGR,2024-08-28,2024-12-20,FALL 2024,69105,2050,09,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,2:00PM,3:50PM,Asish Ghosh/George Jiren Lee/Tracy N. Sullivan,Academy Hall AUD,28,26,2,ENGR,2024-08-28,2024-12-20,FALL 2024,69106,2050,10,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,12:00PM,1:50PM,Semih Akin/John R. LaGraff/George Jiren Lee/Tracy N. Sullivan,Jonsson-Rowland Science Center 2C13,28,27,1,ENGR,2024-08-28,2024-12-20,FALL 2024,69567,2050,11,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010 or MANE 1960 titled Mechanics I); and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200 or PHYS 1250,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,MR,2:00PM,4:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,9,3,ENGR,2024-08-28,2024-12-20,FALL 2024,67803,4710,01,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,9,3,ENGR,2024-08-28,2024-12-20,FALL 2024,67803,4710,01,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,MR,10:00AM,12:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,11,1,ENGR,2024-08-28,2024-12-20,FALL 2024,67804,4710,02,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY I,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,11,1,ENGR,2024-08-28,2024-12-20,FALL 2024,67804,4710,02,ENGR-4710,Manufacturing Processes And Systems Laboratory I,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of selected modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.",Prerequisites: Both ENGR 1300 and ENGR 2710 are suggested.,When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
 PRODUCTION & LOGISTIC ANALYSIS,LEC,3,,,,Don Graham,Online ,25,3,22,ENGR,2024-08-28,2024-12-20,FALL 2024,68842,6205,H01,ENGR-6205,Production & Logistic Analysis,,,,[],[],Engineering
-ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,50,2,48,ENGR,2024-08-28,2024-12-20,FALL 2024,69572,6961,01,ENGR-6961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
+ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,50,1,49,ENGR,2024-08-28,2024-12-20,FALL 2024,69572,6961,01,ENGR-6961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Engineering
+MODELING PRODUCTION DECISIONS,LEC,3,,,,Rushabh S. Padalia,Online ,25,1,24,ENGR,2024-08-28,2024-12-20,FALL 2024,68605,6206,H01,ENGR-6206,Modeling Production Decisions,,,,[],[],Engineering
+PLATFORM BUS. FOR ENG. & SCI.,LEC,3,MR,6:00PM,7:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,10,1,9,ENGR,2024-08-28,2024-12-20,FALL 2024,69687,6963,01,ENGR-6963,Platform BUS. For ENG. & SCI.,,,,[],[],Engineering
 WATER REUSE TECH & APPLICATION,LEC,3,W,4:00PM,6:50PM,Eyosias Legesse Ashenafi,Russell Sage Laboratory 2707,25,11,14,ENVE,2024-08-28,2024-12-20,FALL 2024,69399,4220,01,ENVE-4220,Water Reuse Tech & Application,"This course investigates global water reuse/recycle initiatives, legal frameworks, and treatment technologies. Treatment objectives are developed based on chemical and biological contaminants present in wastewater and models for health risk analysis. Includes critical evaluation and design of advanced treatment technologies to meet water quality criteria, including membrane, disinfection, and advanced oxidation processes. Applications of reclaimed water to agricultural irrigation, industrial processes, groundwater recharge and potable supply are examined.",Prerequisite: ENVE 2110 or instructor approval.,When Offered: Fall annually,['ENVE 2110'],['ENVE 2110'],Engineering
 BENCH SCALE DESIGN,LEC,3,MR,10:00AM,11:50AM,Marianne C. Nyman,Materials Research Center 362,15,4,11,ENVE,2024-08-28,2024-12-20,FALL 2024,68946,4240,01,ENVE-4240,Bench Scale Design,"The design and operation of different laboratory experiments to provide experience for the environmental engineer in the practical application of chemical and biological theory. Design parameters are developed via bench scale testing. Topics can include biological treatment, phytoremediation, composting of solid waste and soil columns, and microbial respirometry.",,When Offered: Upon availability of instructor,[],[],Engineering
-ADV GROUNDWATER HYDROLOGY,LEC,3,TF,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,40,8,32,ENVE,2024-08-28,2024-12-20,FALL 2024,69393,6710,01,ENVE-6710,Adv Groundwater Hydrology,"Study of hydrologic and geologic and other factors controlling groundwater flow, occurrence, and development. Groundwater flow theory and aquifer test methods are introduced. Interactions between surface and subsurface hydrologic systems are covered. Applications to design of infiltration, remediation, and dewatering systems.","Prerequisites/Corequisites: MATH 1020 or equivalent, or permission of the instructor.",When Offered: Fall term annually,['MATH 1020'],['MATH 1020'],Engineering
-MASTERS PROJECT,LEC,1-9,,,,James Kilduff,TBA,5,0,5,ENVE,2024-08-28,2024-12-20,FALL 2024,66459,6980,01,ENVE-6980,Masters Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-INTRODUCTION TO AIR QUALITY CONTROL,LEC,3,TF,10:00AM,11:50AM,Marianne C. Nyman,Jonsson-Rowland Science Center 2C13,15,10,5,ENVE,2024-08-28,2024-12-20,FALL 2024,67057,4330,01,ENVE-4330,Introduction To Air Quality Control,"Quantitative introduction to the engineering methods for the study of air quality. Topics include but are not limited to: estimation procedures for air pollution emissions; indoor air quality problems, impacts and control strategies; sources, impacts and control strategies for greenhouse gases; dispersion modeling for point sources; pollutant acidification of lakes; chemistry of stoichiometric and non-stoichiometric combustion; assessment methods for human exposure to air pollutants.",Prerequisite: ENVE 2110.,When Offered: Fall term annually.,['ENVE 2110'],['ENVE 2110'],Engineering
+ADV GROUNDWATER HYDROLOGY,LEC,3,TF,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,40,6,34,ENVE,2024-08-28,2024-12-20,FALL 2024,69393,6710,01,ENVE-6710,Adv Groundwater Hydrology,"Study of hydrologic and geologic and other factors controlling groundwater flow, occurrence, and development. Groundwater flow theory and aquifer test methods are introduced. Interactions between surface and subsurface hydrologic systems are covered. Applications to design of infiltration, remediation, and dewatering systems.","Prerequisites/Corequisites: MATH 1020 or equivalent, or permission of the instructor.",When Offered: Fall term annually,['MATH 1020'],['MATH 1020'],Engineering
+MASTERS PROJECT,LEC,1-9,,,,James Kilduff,TBA,5,1,4,ENVE,2024-08-28,2024-12-20,FALL 2024,66459,6980,01,ENVE-6980,Masters Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+INTRODUCTION TO AIR QUALITY CONTROL,LEC,3,TF,10:00AM,11:50AM,Marianne C. Nyman,Jonsson-Rowland Science Center 2C13,15,8,7,ENVE,2024-08-28,2024-12-20,FALL 2024,67057,4330,01,ENVE-4330,Introduction To Air Quality Control,"Quantitative introduction to the engineering methods for the study of air quality. Topics include but are not limited to: estimation procedures for air pollution emissions; indoor air quality problems, impacts and control strategies; sources, impacts and control strategies for greenhouse gases; dispersion modeling for point sources; pollutant acidification of lakes; chemistry of stoichiometric and non-stoichiometric combustion; assessment methods for human exposure to air pollutants.",Prerequisite: ENVE 2110.,When Offered: Fall term annually.,['ENVE 2110'],['ENVE 2110'],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Bin Gao,TBA,10,0,10,ENVE,2024-08-28,2024-12-20,FALL 2024,66658,6990,01,ENVE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Marianne C. Nyman,TBA,5,0,5,ENVE,2024-08-28,2024-12-20,FALL 2024,66793,6990,02,ENVE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,James Kilduff,TBA,10,0,10,ENVE,2024-08-28,2024-12-20,FALL 2024,67093,6990,03,ENVE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -681,14 +707,14 @@ BIOL PROCESS IN ENVE,LEC,4,W,12:00PM,3:00PM,TBA,Materials Research Center 362,25
 DISSERTATION,LEC,1-15,,,,Bin Gao,TBA,10,1,9,ENVE,2024-08-28,2024-12-20,FALL 2024,66834,9990,01,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Marianne C. Nyman,TBA,10,2,8,ENVE,2024-08-28,2024-12-20,FALL 2024,65164,9990,02,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,James Kilduff,TBA,10,1,9,ENVE,2024-08-28,2024-12-20,FALL 2024,65226,9990,05,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-APPLIED HYDROLOGY & DESIGN,LEC,4,TF,10:00AM,11:50AM,Eyosias Legesse Ashenafi,Carnegie Building 201,16,18,-2,ENVE,2024-08-28,2024-12-20,FALL 2024,68955,4370,01,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
-APPLIED HYDROLOGY & DESIGN,LEC,4,W,10:00AM,11:50AM,TBA,Jonsson Engineering Center 1034,16,18,-2,ENVE,2024-08-28,2024-12-20,FALL 2024,68955,4370,01,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
-APPLIED HYDROLOGY & DESIGN,LEC,4,TF,10:00AM,11:50AM,Eyosias Legesse Ashenafi,Carnegie Building 201,16,18,-2,ENVE,2024-08-28,2024-12-20,FALL 2024,68956,4370,02,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
-APPLIED HYDROLOGY & DESIGN,LEC,4,W,4:00PM,5:50PM,TBA,Jonsson Engineering Center 1034,16,18,-2,ENVE,2024-08-28,2024-12-20,FALL 2024,68956,4370,02,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
-APPLIED HYDROLOGY & DESIGN,LEC,4,TF,10:00AM,11:50AM,Eyosias Legesse Ashenafi,Carnegie Building 201,16,16,0,ENVE,2024-08-28,2024-12-20,FALL 2024,68957,4370,03,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,10:00AM,11:50AM,Eyosias Legesse Ashenafi,Jonsson Engineering Center 3210,16,17,-1,ENVE,2024-08-28,2024-12-20,FALL 2024,68955,4370,01,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,W,10:00AM,11:50AM,TBA,Jonsson Engineering Center 1034,16,17,-1,ENVE,2024-08-28,2024-12-20,FALL 2024,68955,4370,01,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,10:00AM,11:50AM,Eyosias Legesse Ashenafi,Jonsson Engineering Center 3210,16,19,-3,ENVE,2024-08-28,2024-12-20,FALL 2024,68956,4370,02,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,W,4:00PM,5:50PM,TBA,Jonsson Engineering Center 1034,16,19,-3,ENVE,2024-08-28,2024-12-20,FALL 2024,68956,4370,02,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,10:00AM,11:50AM,Eyosias Legesse Ashenafi,Jonsson Engineering Center 3210,16,16,0,ENVE,2024-08-28,2024-12-20,FALL 2024,68957,4370,03,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
 APPLIED HYDROLOGY & DESIGN,LEC,4,W,8:00AM,9:50AM,TBA,Jonsson Engineering Center 1034,16,16,0,ENVE,2024-08-28,2024-12-20,FALL 2024,68957,4370,03,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
 EMRGING CONTAMNTS: SOIL/WATER,LEC,3,MR,2:00PM,3:50PM,Bin Gao,Darrin Communications Center 235,15,6,9,ENVE,2024-08-28,2024-12-20,FALL 2024,69500,6960,01,ENVE-6960,Emrging CONTAMNTS: SOIL/WATER,,,,[],[],Engineering
-GROUNDWATER HYDROLOGY,LEC,4,TF,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,40,7,33,ENVE,2024-08-28,2024-12-20,FALL 2024,67086,4710,01,ENVE-4710,Groundwater Hydrology,"Study of hydrologic and geologic and other factors controlling groundwater flow, occurrence, and development. Groundwater flow theory and aquifer test methods are introduced. Interactions between surface and subsurface hydrologic systems are covered. Applications to design of infiltration, remediation, and dewatering systems.","Prerequisite: MATH 1020 or equivalent, or permission of the instructor.",When Offered: Fall term annually.,['MATH 1020'],['MATH 1020'],Engineering
+GROUNDWATER HYDROLOGY,LEC,4,TF,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,40,8,32,ENVE,2024-08-28,2024-12-20,FALL 2024,67086,4710,01,ENVE-4710,Groundwater Hydrology,"Study of hydrologic and geologic and other factors controlling groundwater flow, occurrence, and development. Groundwater flow theory and aquifer test methods are introduced. Interactions between surface and subsurface hydrologic systems are covered. Applications to design of infiltration, remediation, and dewatering systems.","Prerequisite: MATH 1020 or equivalent, or permission of the instructor.",When Offered: Fall term annually.,['MATH 1020'],['MATH 1020'],Engineering
 DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-08-28,2024-12-20,FALL 2024,66351,9990,01,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-08-28,2024-12-20,FALL 2024,66412,9990,02,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,Robert Frank Karlicek,TBA,10,0,10,ESCI,2024-08-28,2024-12-20,FALL 2024,66670,9990,04,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -700,170 +726,171 @@ DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-08-28,2024-1
 DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-08-28,2024-12-20,FALL 2024,66146,9990,10,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,Ishwara B Bhat,TBA,10,0,10,ESCI,2024-08-28,2024-12-20,FALL 2024,65980,9990,20,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-9,,,,Li Liu,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,66172,6990,01,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-SEMINAR IN ISYE RESEARCH,LEC,3,TF,10:00AM,11:50AM,Diego Alejandro Moran Ramirez,Nason Hall 130,10,6,4,ISYE,2024-08-28,2024-12-20,FALL 2024,68959,6900,01,ISYE-6900,Seminar In Isye Research,A review of active ISYE doctoral research projects and activities. Students develop a research paper or proposal under the guidance of a selected faculty adviser and present research findings in class. It is anticipated that the research paper will lead to identification of the broad area of dissertation research. The proposal should be of a quality that can be submitted to an external funding agency.,Prerequisite: ISYE doctoral student or permission of instructor.,When Offered: Fall term annually.,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Bahar Cavdar,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,67849,6990,02,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+SEMINAR IN ISYE RESEARCH,LEC,3,TF,10:00AM,11:50AM,Diego Alejandro Moran Ramirez,Russell Sage Laboratory 4203,10,4,6,ISYE,2024-08-28,2024-12-20,FALL 2024,68959,6900,01,ISYE-6900,Seminar In Isye Research,A review of active ISYE doctoral research projects and activities. Students develop a research paper or proposal under the guidance of a selected faculty adviser and present research findings in class. It is anticipated that the research paper will lead to identification of the broad area of dissertation research. The proposal should be of a quality that can be submitted to an external funding agency.,Prerequisite: ISYE doctoral student or permission of instructor.,When Offered: Fall term annually.,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Bahar Cavdar,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,69933,9990,01,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Martha Rose Grabowski,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,65204,9990,02,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,James Bailey,TBA,10,1,9,ISYE,2024-08-28,2024-12-20,FALL 2024,66492,9990,03,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,James Bailey,TBA,10,2,8,ISYE,2024-08-28,2024-12-20,FALL 2024,66492,9990,03,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,65205,9990,04,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,William Alan Wallace,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,65206,9990,05,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Kristen Rene Schell,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,68270,9990,09,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Aparna Gupta,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,66407,9990,11,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,David Joseph Mendonca,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,66777,9990,12,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Jennifer Ann Pazour,TBA,10,3,7,ISYE,2024-08-28,2024-12-20,FALL 2024,67464,9990,13,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jennifer Ann Pazour,TBA,10,4,6,ISYE,2024-08-28,2024-12-20,FALL 2024,67464,9990,13,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Deborah L. McGuinness,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,69035,9990,17,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Yinan Wang,TBA,10,2,8,ISYE,2024-08-28,2024-12-20,FALL 2024,69060,9990,18,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-GAME THEORY APPL: SUPPLY CHAIN,LEC,4,TF,8:00AM,9:50AM,Bahar Cavdar,Pittsburgh Building 4114,15,3,12,ISYE,2024-08-28,2024-12-20,FALL 2024,69179,4960, 01,ISYE-4960,Game Theory APPL: Supply Chain,,,,[],[],Engineering
-APPLIED DATA SCIENCE,LEC,3,MR,12:00PM,1:50PM,Rostyslav Korolov,Jonsson Engineering Center 5119,10,9,1,ISYE,2024-08-28,2024-12-20,FALL 2024,69511,6360,01,ISYE-6360,Applied Data Science,This course is aimed at upper-level undergraduate and graduate students who wish to master the fundamental concepts of machine learning in a lab-like environment. Students will choose a relevant topic/dataset to explore and devise the best approach to extract knowledge from noisy data along with data visualizations for decision making. Graduate students will also conduct an in-depth overview of existing methods and approaches relevant to their topic.,,When Offered: Fall term annually. Restricted to upper-level undergraduate and graduates,[],[],Engineering
-GAME THEORY APP: SUPPLY CHAIN,LEC,3,TF,8:00AM,9:50AM,Bahar Cavdar,Pittsburgh Building 4114,10,2,8,ISYE,2024-08-28,2024-12-20,FALL 2024,69180,6960,01,ISYE-6960,Game Theory APP: Supply Chain,,,,[],[],Engineering
-APPLIED DATA SCIENCE,LEC,4,MR,12:00PM,1:50PM,Rostyslav Korolov,Jonsson Engineering Center 5119,25,23,2,ISYE,2024-08-28,2024-12-20,FALL 2024,68663,4360,01,ISYE-4360,Applied Data Science,This engineering course is an introduction to the fundamental concepts of machine learning in a lab-like environment. The course is structured in three main parts that mimic the daily workflow of a data scientist in a real organization: (i) data preparation; (ii) machine learning algorithms; and (iii) data visualization and decision making.,"Prerequisites/Corequisites: probability and statistics (e.g., ENGR 2600 or MATP 4600 ), calculus, linear algebra and programming (e.g., MATH 1020 or CSCI 1100 ).",When Offered: Upon availability of instructor.,"['ENGR 2600', 'MATP 4600', 'MATH 1020', 'CSCI 1100']","['ENGR 2600', 'MATP 4600', 'MATH 1020', 'CSCI 1100']",Engineering
-DESGN & ANALYS OF SUPPLY CHAIN,LEC,3,MR,8:30AM,9:50AM,Jennifer Ann Pazour,Jonsson Engineering Center 3210,35,26,9,ISYE,2024-08-28,2024-12-20,FALL 2024,67213,4210,01,ISYE-4210,Desgn & Analys Of Supply Chain,"An overview of the principles involved in the management of supply chains with an emphasis on demand forecasting, resource planning, supply chain operations and coordination, inventory management, and network design. The course will emphasize the theoretical aspects of these topics, with the development of quantitative approaches to aid in decision-making and managerial insights.","Prerequisites: ISYE 2210 or MGMT 4110, and ENGR 2600 or MGMT 2100 or equivalent.",When Offered: Fall term annually.,"['ISYE 2210', 'MGMT 4110', 'ENGR 2600', 'MGMT 2100']","['ISYE 2210', 'MGMT 4110', 'ENGR 2600', 'MGMT 2100']",Engineering
-QUALITY CONTROL,LEC,3,TF,10:00AM,11:20AM,Yinan Wang,Peoples Ave Complex J 3401,20,13,7,ISYE,2024-08-28,2024-12-20,FALL 2024,68748,4230,01,ISYE-4230,Quality Control,"The statistical approach to manufacturing quality control is emphasized. Consideration is given to the managerial implications and responsibilities in implementing the statistical approach. Topical coverage includes construction and interpretation of various control charts; special control charts (e.g., CUSUM, EWMA); graphical methods; specifications, tolerance limits, process capability indices; acceptance sampling; discussion of experimental design; and Taguchi methods of quality improvement.",Prerequisites: ISYE 4140 or ISYE 4760.,When Offered: Upon availability of instructor.,"['ISYE 4140', 'ISYE 4760']","['ISYE 4140', 'ISYE 4760']",Engineering
+DISSERTATION,LEC,1-15,,,,Yinan Wang,TBA,10,3,7,ISYE,2024-08-28,2024-12-20,FALL 2024,69060,9990,18,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+GAME THEORY APPL: SUPPLY CHAIN,LEC,4,TF,8:00AM,9:50AM,Bahar Cavdar,Pittsburgh Building 4114,15,2,13,ISYE,2024-08-28,2024-12-20,FALL 2024,69179,4960, 01,ISYE-4960,Game Theory APPL: Supply Chain,,,,[],[],Engineering
+APPLIED DATA SCIENCE,LEC,3,MR,12:00PM,1:50PM,Rostyslav Korolov,Jonsson Engineering Center 5119,10,10,0,ISYE,2024-08-28,2024-12-20,FALL 2024,69511,6360,01,ISYE-6360,Applied Data Science,This course is aimed at upper-level undergraduate and graduate students who wish to master the fundamental concepts of machine learning in a lab-like environment. Students will choose a relevant topic/dataset to explore and devise the best approach to extract knowledge from noisy data along with data visualizations for decision making. Graduate students will also conduct an in-depth overview of existing methods and approaches relevant to their topic.,,When Offered: Fall term annually. Restricted to upper-level undergraduate and graduates,[],[],Engineering
+GAME THEORY APP: SUPPLY CHAIN,LEC,3,TF,8:00AM,9:50AM,Bahar Cavdar,Pittsburgh Building 4114,10,3,7,ISYE,2024-08-28,2024-12-20,FALL 2024,69180,6960,01,ISYE-6960,Game Theory APP: Supply Chain,,,,[],[],Engineering
+APPLIED DATA SCIENCE,LEC,4,MR,12:00PM,1:50PM,Rostyslav Korolov,Jonsson Engineering Center 5119,25,25,0,ISYE,2024-08-28,2024-12-20,FALL 2024,68663,4360,01,ISYE-4360,Applied Data Science,This engineering course is an introduction to the fundamental concepts of machine learning in a lab-like environment. The course is structured in three main parts that mimic the daily workflow of a data scientist in a real organization: (i) data preparation; (ii) machine learning algorithms; and (iii) data visualization and decision making.,"Prerequisites/Corequisites: probability and statistics (e.g., ENGR 2600 or MATP 4600 ), calculus, linear algebra and programming (e.g., MATH 1020 or CSCI 1100 ).",When Offered: Upon availability of instructor.,"['ENGR 2600', 'MATP 4600', 'MATH 1020', 'CSCI 1100']","['ENGR 2600', 'MATP 4600', 'MATH 1020', 'CSCI 1100']",Engineering
+DESGN & ANALYS OF SUPPLY CHAIN,LEC,3,MR,8:30AM,9:50AM,Jennifer Ann Pazour,Jonsson Engineering Center 3210,35,25,10,ISYE,2024-08-28,2024-12-20,FALL 2024,67213,4210,01,ISYE-4210,Desgn & Analys Of Supply Chain,"An overview of the principles involved in the management of supply chains with an emphasis on demand forecasting, resource planning, supply chain operations and coordination, inventory management, and network design. The course will emphasize the theoretical aspects of these topics, with the development of quantitative approaches to aid in decision-making and managerial insights.","Prerequisites: ISYE 2210 or MGMT 4110, and ENGR 2600 or MGMT 2100 or equivalent.",When Offered: Fall term annually.,"['ISYE 2210', 'MGMT 4110', 'ENGR 2600', 'MGMT 2100']","['ISYE 2210', 'MGMT 4110', 'ENGR 2600', 'MGMT 2100']",Engineering
+QUALITY CONTROL,LEC,3,TF,10:00AM,11:20AM,Yinan Wang,Peoples Ave Complex J 3401,20,15,5,ISYE,2024-08-28,2024-12-20,FALL 2024,68748,4230,01,ISYE-4230,Quality Control,"The statistical approach to manufacturing quality control is emphasized. Consideration is given to the managerial implications and responsibilities in implementing the statistical approach. Topical coverage includes construction and interpretation of various control charts; special control charts (e.g., CUSUM, EWMA); graphical methods; specifications, tolerance limits, process capability indices; acceptance sampling; discussion of experimental design; and Taguchi methods of quality improvement.",Prerequisites: ISYE 4140 or ISYE 4760.,When Offered: Upon availability of instructor.,"['ISYE 4140', 'ISYE 4760']","['ISYE 4140', 'ISYE 4760']",Engineering
 MGMT OF ENGINEERING & TECH,LEC,4,MR,12:00PM,1:50PM,Azita Hirsa,Low Center for Industrial Inn. 4040,15,13,2,ISYE,2024-08-28,2024-12-20,FALL 2024,69143,4440,01,ISYE-4440,Mgmt Of Engineering & Tech,"The study of the link between engineering, and management. Students will gain an in-depth understanding of the foundations of engineering management. Topics covered include the concept of engineering management, its relationship to engineering, and its historical underpinnings, the traditional roles of management with particular emphasis on leadership skills. The course examines the difference between managerial vs. leadership roles in organizational settings. Furthermore, attention is given to evaluating risk, and other organizational and administrative capabilities. The ethical dimensions of the organization and the engineering community are also explored.",None.,When Offered: Upon availability of instructor.,[],[],Engineering
-DESIGN OF MANUFACTURING SYSTEMS AND SUPPLY CHAINS,LEC,3,MR,8:30AM,9:50AM,Jennifer Ann Pazour,Jonsson Engineering Center 3210,15,2,13,ISYE,2024-08-28,2024-12-20,FALL 2024,67214,6600,01,ISYE-6600,Design Of Manufacturing Systems And Supply Chains,"An overview of the principles involved in the management of supply chains with an emphasis on demand forecasting, resource planning, supply chain operations and coordination, inventory management, and network design. The course will emphasize the theoretical aspects of these topics, with the development of quantitative approaches to aid in decision-making and managerial insights.",Prerequisites: ISYE 4140 (or equivalent) or permission of instructor.,When Offered: Fall term annually.,['ISYE 4140'],['ISYE 4140'],Engineering
-ENGR PROJ MANAGEMENT,LEC,3,MR,2:00PM,3:20PM,Rostyslav Korolov,Low Center for Industrial Inn. 4034,30,27,3,ISYE,2024-08-28,2024-12-20,FALL 2024,69495,4240,01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
-ENGR PROJ MANAGEMENT,LEC,3,,,,Antonella Zompa,Online ,25,12,13,ISYE,2024-08-28,2024-12-20,FALL 2024,67851,4240,H01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
-SYSTEMS MODELING IN DSES,LEC,3,MR,4:00PM,5:20PM,James Bailey,Low Center for Industrial Inn. 3039,10,6,4,ISYE,2024-08-28,2024-12-20,FALL 2024,66285,6610,01,ISYE-6610,Systems Modeling In Dses,"This course is an introduction to deterministic mathematical modeling for common decision problems in industrial and management engineering including supply chain management, production planning, and public policy. Students will learn to formulate and solve linear and integer programs, evaluate robustness of solutions via sensitivity analysis, and apply duality and other fundamental techniques in deterministic optimization.",Prerequisite: None.,When Offered: Fall term annually.,[],[],Engineering
-SYSTEMS MODELING IN DSES,LEC,3,,,,Amit Mathur,Online ,25,8,17,ISYE,2024-08-28,2024-12-20,FALL 2024,68113,6610,H01,ISYE-6610,Systems Modeling In Dses,"This course is an introduction to deterministic mathematical modeling for common decision problems in industrial and management engineering including supply chain management, production planning, and public policy. Students will learn to formulate and solve linear and integer programs, evaluate robustness of solutions via sensitivity analysis, and apply duality and other fundamental techniques in deterministic optimization.",Prerequisite: None.,When Offered: Fall term annually.,[],[],Engineering
+DESIGN OF MANUFACTURING SYSTEMS AND SUPPLY CHAINS,LEC,3,MR,8:30AM,9:50AM,Jennifer Ann Pazour,Jonsson Engineering Center 3210,15,3,12,ISYE,2024-08-28,2024-12-20,FALL 2024,67214,6600,01,ISYE-6600,Design Of Manufacturing Systems And Supply Chains,"An overview of the principles involved in the management of supply chains with an emphasis on demand forecasting, resource planning, supply chain operations and coordination, inventory management, and network design. The course will emphasize the theoretical aspects of these topics, with the development of quantitative approaches to aid in decision-making and managerial insights.",Prerequisites: ISYE 4140 (or equivalent) or permission of instructor.,When Offered: Fall term annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+ENGR PROJ MANAGEMENT,LEC,3,MR,2:00PM,3:20PM,Rostyslav Korolov,Low Center for Industrial Inn. 4034,30,29,1,ISYE,2024-08-28,2024-12-20,FALL 2024,69495,4240,01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
+ENGR PROJ MANAGEMENT,LEC,3,,,,David Joseph Stec,Online ,25,13,12,ISYE,2024-08-28,2024-12-20,FALL 2024,67851,4240,H01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
+SYSTEMS MODELING IN DSES,LEC,3,MR,4:00PM,5:20PM,James Bailey,Low Center for Industrial Inn. 3039,10,7,3,ISYE,2024-08-28,2024-12-20,FALL 2024,66285,6610,01,ISYE-6610,Systems Modeling In Dses,"This course is an introduction to deterministic mathematical modeling for common decision problems in industrial and management engineering including supply chain management, production planning, and public policy. Students will learn to formulate and solve linear and integer programs, evaluate robustness of solutions via sensitivity analysis, and apply duality and other fundamental techniques in deterministic optimization.",Prerequisite: None.,When Offered: Fall term annually.,[],[],Engineering
+SYSTEMS MODELING IN DSES,LEC,3,,,,Amit Mathur,Online ,25,9,16,ISYE,2024-08-28,2024-12-20,FALL 2024,68113,6610,H01,ISYE-6610,Systems Modeling In Dses,"This course is an introduction to deterministic mathematical modeling for common decision problems in industrial and management engineering including supply chain management, production planning, and public policy. Students will learn to formulate and solve linear and integer programs, evaluate robustness of solutions via sensitivity analysis, and apply duality and other fundamental techniques in deterministic optimization.",Prerequisite: None.,When Offered: Fall term annually.,[],[],Engineering
 DECISION MAKING UNDER UNCERTAI,LEC,3,TF,10:00AM,11:20AM,Esen Yel,Jonsson Engineering Center 6309,15,5,10,ISYE,2024-08-28,2024-12-20,FALL 2024,69773,6964,01,ISYE-6964,Decision Making Under Uncertai,,,,[],[],Engineering
 DISCRETE EVENT SIMULATION,LEC,3,TF,2:00PM,3:50PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,10,2,8,ISYE,2024-08-28,2024-12-20,FALL 2024,69149,6620,01,ISYE-6620,Discrete Event Simulation,"A thorough development of a simulation language is stressed in order to progress through a series of increasingly sophisticated applications of computer simulation. Projects cover a wide range of topics: production systems, inventory, finance, transportation, and public systems. The course includes model development, statistical analysis of simulation input/output data, validation planning, and managing simulation projects.",Prerequisite: ISYE 4140 or equivalent.,When Offered: Spring terms annually.,['ISYE 4140'],['ISYE 4140'],Engineering
 DISCRETE EVENT SIMULATION,LEC,3,,,,Trevor Caskey,Online ,25,12,13,ISYE,2024-08-28,2024-12-20,FALL 2024,69516,6620,H01,ISYE-6620,Discrete Event Simulation,"A thorough development of a simulation language is stressed in order to progress through a series of increasingly sophisticated applications of computer simulation. Projects cover a wide range of topics: production systems, inventory, finance, transportation, and public systems. The course includes model development, statistical analysis of simulation input/output data, validation planning, and managing simulation projects.",Prerequisite: ISYE 4140 or equivalent.,When Offered: Spring terms annually.,['ISYE 4140'],['ISYE 4140'],Engineering
-INFORMATION & DATA SYSTEMS,LEC,4,MR,10:00AM,11:50AM,Rostyslav Korolov,Jonsson Engineering Center 5119,45,43,2,ISYE,2024-08-28,2024-12-20,FALL 2024,68764,2530,01,ISYE-2530,Information & Data Systems,"This course covers the design and implementation of computer-based systems to support the collection, organization and analysis of data and information. Topics include theory and techniques for transforming raw data from various sources into structured and usable information; the role of information and data systems in the engineering enterprise; and approaches to interacting with computer-based information systems to support decision making.",Prerequisite: CSCI 1100.,When Offered: Fall term annually.,['CSCI 1100'],['CSCI 1100'],Engineering
-HUMAN PERFORMANCE MODELING & SUPPORT,LEC,3,TF,12:00PM,1:20PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,25,15,10,ISYE,2024-08-28,2024-12-20,FALL 2024,68960,4260,01,ISYE-4260,Human Performance Modeling & Support,"This course introduces methods, tools, and technologies for describing human performance via various types of models, and supporting this performance via tools and advanced technologies. The course is hands-on, involving student projects that investigate human performance in challenging domains as well as direct engagement with technologies for decision support.",Prerequisite: ENGR 2600.,When Offered: Upon availability of instructor.,['ENGR 2600'],['ENGR 2600'],Engineering
-OPERATIONS RESEARCH METHODS,LEC,3,MR,4:00PM,5:20PM,James Bailey,Low Center for Industrial Inn. 3039,35,27,8,ISYE,2024-08-28,2024-12-20,FALL 2024,66514,4600,01,ISYE-4600,Operations Research Methods,"This course is an introduction to deterministic mathematical modeling for common decision problems in industrial and management engineering including supply chain management, production planning, and public policy. Students will learn to formulate and solve linear and integer programs, evaluate robustness of solutions via sensitivity analysis, and apply duality and other fundamental techniques in deterministic optimization.",Prerequisites: MATH 2010,When Offered: Summer and fall terms annually.,['MATH 2010'],['MATH 2010'],Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Nima Ahmadi,Jonsson Engineering Center 3332,0,2,-2,ISYE,2024-08-28,2024-12-20,FALL 2024,66283,4270,01,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,2,2,0,ISYE,2024-08-28,2024-12-20,FALL 2024,66300,4270,02,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,1,-1,ISYE,2024-08-28,2024-12-20,FALL 2024,66448,4270,03,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,3,3,0,ISYE,2024-08-28,2024-12-20,FALL 2024,66449,4270,04,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-"DISCRETE EVENT SIMULATION, MODELING AND ANALYSIS",LEC,4,TF,2:00PM,3:50PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,18,18,0,ISYE,2024-08-28,2024-12-20,FALL 2024,69148,4290,01,ISYE-4290,"Discrete Event SIMULATION, Modeling And Analysis","Introduction to discrete-event simulation modeling and analysis techniques including; graphical simulation modeling approaches, animation techniques, modeling large-scale and complex systems, pseudo-random number and random variate generation, stochastic processes, input modeling (data collection, analysis, and fitting distribution), output analysis (initial bias and termination bias, variance reduction techniques), sensitivity analysis, design of experiments, interactive simulation-based decision-support systems.",Prerequisites: ISYE 4140 or equivalent and CSCI 1100 or permission of instructor.,When Offered: Spring terms annually.,"['ISYE 4140', 'CSCI 1100']","['ISYE 4140', 'CSCI 1100']",Engineering
-INTRODUCTION TO OPTIMIZATION,LEC,4,TF,12:00PM,1:50PM,John E. Mitchell,Russell Sage Laboratory 4510,15,8,7,ISYE,2024-08-28,2024-12-20,FALL 2024,68540,6780,01,ISYE-6780,Introduction To Optimization,"Convex sets and functions, optimality conditions in nonlinear programming, Lagrangian duality, quadratic programming algorithms for nonlinear programming including Newton's method, quasi-Newton methods, conjugate gradient methods, together with proofs of convergence.","Prerequisite: MATH 4200 or equivalent, or permission of instructor.",When Offered: Fall term annually.,['MATH 4200'],['MATH 4200'],Engineering
+INFORMATION & DATA SYSTEMS,LEC,4,MR,10:00AM,11:50AM,Rostyslav Korolov,Jonsson Engineering Center 5119,45,42,3,ISYE,2024-08-28,2024-12-20,FALL 2024,68764,2530,01,ISYE-2530,Information & Data Systems,"This course covers the design and implementation of computer-based systems to support the collection, organization and analysis of data and information. Topics include theory and techniques for transforming raw data from various sources into structured and usable information; the role of information and data systems in the engineering enterprise; and approaches to interacting with computer-based information systems to support decision making.",Prerequisite: CSCI 1100.,When Offered: Fall term annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+HUMAN PERFORMANCE MODELING & SUPPORT,LEC,3,TF,12:00PM,1:20PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,25,12,13,ISYE,2024-08-28,2024-12-20,FALL 2024,68960,4260,01,ISYE-4260,Human Performance Modeling & Support,"This course introduces methods, tools, and technologies for describing human performance via various types of models, and supporting this performance via tools and advanced technologies. The course is hands-on, involving student projects that investigate human performance in challenging domains as well as direct engagement with technologies for decision support.",Prerequisite: ENGR 2600.,When Offered: Upon availability of instructor.,['ENGR 2600'],['ENGR 2600'],Engineering
+OPERATIONS RESEARCH METHODS,LEC,3,MR,4:00PM,5:20PM,James Bailey,Low Center for Industrial Inn. 3039,35,26,9,ISYE,2024-08-28,2024-12-20,FALL 2024,66514,4600,01,ISYE-4600,Operations Research Methods,"This course is an introduction to deterministic mathematical modeling for common decision problems in industrial and management engineering including supply chain management, production planning, and public policy. Students will learn to formulate and solve linear and integer programs, evaluate robustness of solutions via sensitivity analysis, and apply duality and other fundamental techniques in deterministic optimization.",Prerequisites: MATH 2010,When Offered: Summer and fall terms annually.,['MATH 2010'],['MATH 2010'],Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Nima Ahmadi,Jonsson Engineering Center 3332,0,1,-1,ISYE,2024-08-28,2024-12-20,FALL 2024,66283,4270,01,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,1,-1,ISYE,2024-08-28,2024-12-20,FALL 2024,66300,4270,02,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,2,-2,ISYE,2024-08-28,2024-12-20,FALL 2024,66448,4270,03,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,3,-3,ISYE,2024-08-28,2024-12-20,FALL 2024,66449,4270,04,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+"DISCRETE EVENT SIMULATION, MODELING AND ANALYSIS",LEC,4,TF,2:00PM,3:50PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,18,21,-3,ISYE,2024-08-28,2024-12-20,FALL 2024,69148,4290,01,ISYE-4290,"Discrete Event SIMULATION, Modeling And Analysis","Introduction to discrete-event simulation modeling and analysis techniques including; graphical simulation modeling approaches, animation techniques, modeling large-scale and complex systems, pseudo-random number and random variate generation, stochastic processes, input modeling (data collection, analysis, and fitting distribution), output analysis (initial bias and termination bias, variance reduction techniques), sensitivity analysis, design of experiments, interactive simulation-based decision-support systems.",Prerequisites: ISYE 4140 or equivalent and CSCI 1100 or permission of instructor.,When Offered: Spring terms annually.,"['ISYE 4140', 'CSCI 1100']","['ISYE 4140', 'CSCI 1100']",Engineering
+INTRODUCTION TO OPTIMIZATION,LEC,4,TF,12:00PM,1:50PM,John E. Mitchell,Russell Sage Laboratory 4510,15,7,8,ISYE,2024-08-28,2024-12-20,FALL 2024,68540,6780,01,ISYE-6780,Introduction To Optimization,"Convex sets and functions, optimality conditions in nonlinear programming, Lagrangian duality, quadratic programming algorithms for nonlinear programming including Newton's method, quasi-Newton methods, conjugate gradient methods, together with proofs of convergence.","Prerequisite: MATH 4200 or equivalent, or permission of instructor.",When Offered: Fall term annually.,['MATH 4200'],['MATH 4200'],Engineering
 PROFESSIONAL PROJECT,LEC,3,,,,Antonella Zompa,Online ,20,4,16,ISYE,2024-08-28,2024-12-20,FALL 2024,68264,6970,H01,ISYE-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
 MASTERS PROJECT,LEC,3,,,,Li Liu,TBA,10,0,10,ISYE,2024-08-28,2024-12-20,FALL 2024,69364,6980,02,ISYE-6980,Masters Project,"Active participation in a master's-level project under the supervision of a faculty adviser, leading to a master's project report. Grades of IP are assigned until the master's project has been approved by the faculty adviser. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the Library. Grades will then be listed as S.",,,[],[],Engineering
 MASTERS PROJECT,LEC,1-9,,,,TBA,TBA,100,0,100,ISYE,2024-08-28,2024-12-20,FALL 2024,65200,6980,03,ISYE-6980,Masters Project,"Active participation in a master's-level project under the supervision of a faculty adviser, leading to a master's project report. Grades of IP are assigned until the master's project has been approved by the faculty adviser. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the Library. Grades will then be listed as S.",,,[],[],Engineering
 MASTERS PROJECT,LEC,1-9,,,,Li Liu,TBA,100,0,100,ISYE,2024-08-28,2024-12-20,FALL 2024,65203,6980,04,ISYE-6980,Masters Project,"Active participation in a master's-level project under the supervision of a faculty adviser, leading to a master's project report. Grades of IP are assigned until the master's project has been approved by the faculty adviser. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the Library. Grades will then be listed as S.",,,[],[],Engineering
-INTRO COMPUTAT FLUID DYNAMICS,LEC,3,TF,12:00PM,1:20PM,Tara Gallaway Cohen,Russell Sage Laboratory 4112,30,22,8,MANE,2024-08-28,2024-12-20,FALL 2024,69312,4140,01,MANE-4140,Intro Computat Fluid Dynamics,"This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.","Prerequisites: MANE 2110, MANE 2720, and (MATH 2010 or (MATH 2011 and MATH 2012)).",When Offered: Fall and Spring terms annually.,"['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']","['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']",Engineering
-MECH BEHAVIOR OF MATERIALS,LEC,3,TF,10:00AM,11:20AM,Catalin R Picu,Jonsson Engineering Center 4309,36,33,3,MANE,2024-08-28,2024-12-20,FALL 2024,65363,4670,01,MANE-4670,Mech Behavior Of Materials,"Stress, strain, balance equations, elementary constitutive models. Elements of plasticity. Effect of temperature and deformation rate on mechanical behavior of engineering materials. Theory of dislocations. Deformation of metals and strengthening mechanisms. Creep behavior and viscoelastic models of material behavior.",Prerequisite: ENGR 2530 or BMED 2540,When Offered: Fall term annually.,"['ENGR 2530', 'BMED 2540']","['ENGR 2530', 'BMED 2540']",Engineering
-ADV. MANUFACTURING PROC & SYS,LEC,4,TF,2:00PM,3:50PM,Johnson Samuel,Darrin Communications Center 236,24,16,8,MANE,2024-08-28,2024-12-20,FALL 2024,67651,6230,01,MANE-6230,ADV. Manufacturing Proc & Sys,Advanced Manufacturing Processes and Systems (AMP) is a project-based lecture/laboratory course that teaches graduate engineering students how to develop new manufacturing processes and systems.,"Prerequisites: MANE 4640 (or equivalent), and ENGR 4710 (or equivalent); B.S. in Engineering is required.",When Offered: Fall term annually.,"['MANE 4640', 'ENGR 4710']","['MANE 4640', 'ENGR 4710']",Engineering
-ADVANCED HEAT TRANSFER,LEC,3,MR,12:00PM,1:50PM,Diana Andra Borca Tasciuc,Greene Building 120,15,12,3,MANE,2024-08-28,2024-12-20,FALL 2024,69710,6790,01,MANE-6790,Advanced Heat Transfer,Comprehensive treatment of conduction and convection heat transfer. Emphasis is on physical and mathematical modeling of heat transfer phenomena with applications in engineering systems. Analytical and computational solution methods are discussed. The class is centered around a semester long project.,Prerequisite: MANE 4730,When Offered: Spring term annually.,['MANE 4730'],['MANE 4730'],Engineering
-ADVANCED HEAT TRANSFER,LEC,3,,,,Francisco J Cunha,Online ,25,10,15,MANE,2024-08-28,2024-12-20,FALL 2024,68951,6790,H01,MANE-6790,Advanced Heat Transfer,Comprehensive treatment of conduction and convection heat transfer. Emphasis is on physical and mathematical modeling of heat transfer phenomena with applications in engineering systems. Analytical and computational solution methods are discussed. The class is centered around a semester long project.,Prerequisite: MANE 4730,When Offered: Spring term annually.,['MANE 4730'],['MANE 4730'],Engineering
-AEROSPACE PROPULSION LAB,LEC,3,R,2:00PM,4:50PM,Kevin Wayne Housley,Jonsson Engineering Center 2220,16,9,7,MANE,2024-08-28,2024-12-20,FALL 2024,69718,6965,01,MANE-6965,Aerospace Propulsion Lab,,,,[],[],Engineering
-RADIOLOGICAL ENGINEERING,LEC,3,W,2:00PM,4:50PM,Dominik Arthur Fritz/Thomas Clark Haley,Materials Research Center 136,27,21,6,MANE,2024-08-28,2024-12-20,FALL 2024,68240,4470,01,MANE-4470,Radiological Engineering,"A foundational course on the principles of radiation and radiation protection (health physics). Provides a fundamental understanding of natural and anthropogenic sources of radiation, radiation interactions in matter, the biological effects of radiation, internal and external dosimetry, and radiation shielding. The use of computational and simulation techniques is emphasized throughout the course. Studio-style case studies examine the medical, socio-political, and regulatory aspects of radiation utilization and protection.",Prerequisite: (MANE 2110 or CSCI 1100 ) and MANE 2830. MANE 4350 is recommended.,When Offered: Fall term annually.,"['MANE 2110', 'CSCI 1100', 'MANE 2830', 'MANE 4350']","['MANE 2110', 'CSCI 1100', 'MANE 2830', 'MANE 4350']",Engineering
-MULTIDISCIP DESIGN OPTIMIZATN,LEC,3,MR,2:00PM,3:20PM,Prabhat Hajela,Low Center for Industrial Inn. 3130,14,8,6,MANE,2024-08-28,2024-12-20,FALL 2024,69724,6966,01,MANE-6966,Multidiscip Design Optimizatn,,,,[],[],Engineering
-MECHATRONICS-HARDWARE/SOFTWARE,LEC,1,W,12:00PM,12:50PM,Joshua Lucas Hurst,Materials Research Center 136,24,13,11,MANE,2024-08-28,2024-12-20,FALL 2024,67647,1090,01,MANE-1090,MECHATRONICS-HARDWARE/SOFTWARE,"A laboratory introduction to simulation and hardware programming with MATLAB and Simulink. Course covers: fundamental theory and programming tools for common sensors and actuators: gyroscopes, accelerometers, magnetometers, encoders, analog sensors, DC Motors, and motor drivers. Including: discretization, sampling, integration, differentiation, delays, saturation, and control. Material covered in a hands-on, observable, and application specific way. Weekly one-hour lab/lectures introduce basic topics. Labs reinforce covered topics and are performed at home with provided hardware kits.",,"When Offered: Fall term annually, spring term on sufficient demand.",[],[],Engineering
-MECHANICS 2,LEC,3,TF,2:00PM,3:50PM,Ali Shahsavari/Catalin R Picu,Low Center for Industrial Inn. 3112,30,15,15,MANE,2024-08-28,2024-12-20,FALL 2024,69182,2960,01,MANE-2960,Mechanics 2,,,When Offered: Upon sufficient demand.,[],[],Engineering
-MECHANICS 2,LEC,3,W,4:00PM,5:50PM,Ali Shahsavari,Low Center for Industrial Inn. 3116,30,15,15,MANE,2024-08-28,2024-12-20,FALL 2024,69182,2960,01,MANE-2960,Mechanics 2,,,When Offered: Upon sufficient demand.,[],[],Engineering
-VIBRATIONS,LEC,3,TF,2:00PM,3:20PM,Karthikeyan Panneerselvam,Russell Sage Laboratory 2707,25,17,8,MANE,2024-08-28,2024-12-20,FALL 2024,68258,4160,01,MANE-4160,Vibrations,"Free and forced linear vibrations of damped and undamped mechanical and electrical systems of n degrees of freedom. Continuous system vibration. Manual and computer methods of finding natural frequencies, mode shapes, and final solutions. Self-and nonself-adjoint problems. Eigenfunction expansion. Integral transforms. Methods of approximating natural frequencies: Rayleigh quotient, Rayleigh Energy, Rayleigh-Ritz, Ritz-Galerkin, Holzer, Matrix iteration. Perturbation techniques. Stability criteria.",Prerequisite: ENGR 2090 and MATH 2400,When Offered: Fall term annually.,"['ENGR 2090', 'MATH 2400']","['ENGR 2090', 'MATH 2400']",Engineering
+RADIOLOGICAL ENGINEERING,LEC,3,W,2:00PM,4:50PM,Dominik Arthur Fritz/Thomas Clark Haley,Materials Research Center 136,27,20,7,MANE,2024-08-28,2024-12-20,FALL 2024,68240,4470,01,MANE-4470,Radiological Engineering,"A foundational course on the principles of radiation and radiation protection (health physics). Provides a fundamental understanding of natural and anthropogenic sources of radiation, radiation interactions in matter, the biological effects of radiation, internal and external dosimetry, and radiation shielding. The use of computational and simulation techniques is emphasized throughout the course. Studio-style case studies examine the medical, socio-political, and regulatory aspects of radiation utilization and protection.",Prerequisite: (MANE 2110 or CSCI 1100 ) and MANE 2830. MANE 4350 is recommended.,When Offered: Fall term annually.,"['MANE 2110', 'CSCI 1100', 'MANE 2830', 'MANE 4350']","['MANE 2110', 'CSCI 1100', 'MANE 2830', 'MANE 4350']",Engineering
+MULTIDISCIP DESIGN OPTIMIZATN,LEC,3,MR,2:00PM,3:20PM,Prabhat Hajela,Low Center for Industrial Inn. 3130,14,7,7,MANE,2024-08-28,2024-12-20,FALL 2024,69724,6966,01,MANE-6966,Multidiscip Design Optimizatn,,,,[],[],Engineering
+VIBRATIONS,LEC,3,TF,2:00PM,3:20PM,Karthikeyan Panneerselvam,Russell Sage Laboratory 2707,25,20,5,MANE,2024-08-28,2024-12-20,FALL 2024,68258,4160,01,MANE-4160,Vibrations,"Free and forced linear vibrations of damped and undamped mechanical and electrical systems of n degrees of freedom. Continuous system vibration. Manual and computer methods of finding natural frequencies, mode shapes, and final solutions. Self-and nonself-adjoint problems. Eigenfunction expansion. Integral transforms. Methods of approximating natural frequencies: Rayleigh quotient, Rayleigh Energy, Rayleigh-Ritz, Ritz-Galerkin, Holzer, Matrix iteration. Perturbation techniques. Stability criteria.",Prerequisite: ENGR 2090 and MATH 2400,When Offered: Fall term annually.,"['ENGR 2090', 'MATH 2400']","['ENGR 2090', 'MATH 2400']",Engineering
 PHYSICS OF NUCLEAR REACTORS,LEC,4,MR,2:00PM,3:50PM,Yaron Danon,Jonsson Engineering Center 4304,31,28,3,MANE,2024-08-28,2024-12-20,FALL 2024,68241,4480,01,MANE-4480,Physics Of Nuclear Reactors,Basic nuclear reactor theory; fuel cycles. Neutron diffusion and slowing down; criticality analyses for homogeneous and heterogeneous systems; reactor kinetics and control; reactivity coefficients; fuel management. Reactor systems and types; reactor design. Power plant safety.,Prerequisite: MANE 2110 and MANE 2400 and (MATH 2010 or (MATH 2011 and MATH 2012 ),When Offered: Fall term annually.,"['MANE 2110', 'MANE 2400', 'MATH 2010', 'MATH 2011', 'MATH 2012']","['MANE 2110', 'MANE 2400', 'MATH 2010', 'MATH 2011', 'MATH 2012']",Engineering
-HEAT TRANSFER,LEC,3,MR,12:00PM,1:50PM,Shankar Narayan,Walker Laboratory 6113,50,53,-3,MANE,2024-08-28,2024-12-20,FALL 2024,68252,4730,01,MANE-4730,Heat Transfer,"Comprehensive treatment of conduction, convection (including boiling and condensation), and radiation heat transfer. Thermal system design and performance (including heat exchangers). Emphasis is on physical and mathematical modeling of engineering systems for application of modern analytical and computational solution methods.",Prerequisite: MANE 2710,"When Offered: Fall, spring and summer terms annually.",['MANE 2710'],['MANE 2710'],Engineering
+HEAT TRANSFER,LEC,3,MR,12:00PM,1:50PM,Shankar Narayan,Walker Laboratory 6113,50,55,-5,MANE,2024-08-28,2024-12-20,FALL 2024,68252,4730,01,MANE-4730,Heat Transfer,"Comprehensive treatment of conduction, convection (including boiling and condensation), and radiation heat transfer. Thermal system design and performance (including heat exchangers). Emphasis is on physical and mathematical modeling of engineering systems for application of modern analytical and computational solution methods.",Prerequisite: MANE 2710,"When Offered: Fall, spring and summer terms annually.",['MANE 2710'],['MANE 2710'],Engineering
 HEAT TRANSFER,LEC,3,MR,10:00AM,11:50AM,Diana Andra Borca Tasciuc,Folsom Library 107,50,56,-6,MANE,2024-08-28,2024-12-20,FALL 2024,68561,4730,02,MANE-4730,Heat Transfer,"Comprehensive treatment of conduction, convection (including boiling and condensation), and radiation heat transfer. Thermal system design and performance (including heat exchangers). Emphasis is on physical and mathematical modeling of engineering systems for application of modern analytical and computational solution methods.",Prerequisite: MANE 2710,"When Offered: Fall, spring and summer terms annually.",['MANE 2710'],['MANE 2710'],Engineering
-COMPOSITES MANUFACTURING,LEC,3,MR,2:00PM,3:20PM,Daniel Walczyk,Russell Sage Laboratory 2701,15,9,6,MANE,2024-08-28,2024-12-20,FALL 2024,69741,6967,01,MANE-6967,Composites Manufacturing,,,,[],[],Engineering
-MODELING & CONTROL OF DYN SYS,LEC,3,MR,2:00PM,3:50PM,Luiz Victor Repolho Cagliari,Darrin Communications Center 318,85,85,0,MANE,2024-08-28,2024-12-20,FALL 2024,68253,4500,01,MANE-4500,Modeling & Control Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
-MODELING & CONTROL OF DYN SYS,LEC,3,MR,4:00PM,5:50PM,Luiz Victor Repolho Cagliari,Darrin Communications Center 318,85,72,13,MANE,2024-08-28,2024-12-20,FALL 2024,68966,4500,02,MANE-4500,Modeling & Control Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,M,9:00AM,11:50AM,Kathleen M. Stockton/Fudong Han,Low Center for Industrial Inn. 5118,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,68614,4740,01,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,68614,4740,01,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,M,2:00PM,4:50PM,Bimal K Malaviya/Kathleen M. Stockton/Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68615,4740,02,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+COMPOSITES MANUFACTURING,LEC,3,MR,2:00PM,3:20PM,Daniel Walczyk,Russell Sage Laboratory 2701,15,7,8,MANE,2024-08-28,2024-12-20,FALL 2024,69741,6967,01,MANE-6967,Composites Manufacturing,,,,[],[],Engineering
+MECHATRONICS-HARDWARE/SOFTWARE,LEC,1,W,12:00PM,12:50PM,Joshua Lucas Hurst,Materials Research Center 136,24,10,14,MANE,2024-08-28,2024-12-20,FALL 2024,67647,1090,01,MANE-1090,MECHATRONICS-HARDWARE/SOFTWARE,"A laboratory introduction to simulation and hardware programming with MATLAB and Simulink. Course covers: fundamental theory and programming tools for common sensors and actuators: gyroscopes, accelerometers, magnetometers, encoders, analog sensors, DC Motors, and motor drivers. Including: discretization, sampling, integration, differentiation, delays, saturation, and control. Material covered in a hands-on, observable, and application specific way. Weekly one-hour lab/lectures introduce basic topics. Labs reinforce covered topics and are performed at home with provided hardware kits.",,"When Offered: Fall term annually, spring term on sufficient demand.",[],[],Engineering
+MECHANICS 2,LEC,3,TF,2:00PM,3:50PM,Ali Shahsavari/Catalin R Picu,Low Center for Industrial Inn. 3112,30,13,17,MANE,2024-08-28,2024-12-20,FALL 2024,69182,2960,01,MANE-2960,Mechanics 2,,,When Offered: Upon sufficient demand.,[],[],Engineering
+MECHANICS 2,LEC,3,W,4:00PM,5:50PM,Ali Shahsavari,Low Center for Industrial Inn. 3116,30,13,17,MANE,2024-08-28,2024-12-20,FALL 2024,69182,2960,01,MANE-2960,Mechanics 2,,,When Offered: Upon sufficient demand.,[],[],Engineering
+MODELING & CONTROL OF DYN SYS,LEC,3,MR,2:00PM,3:50PM,Luiz Victor Repolho Cagliari,Darrin Communications Center 318,85,83,2,MANE,2024-08-28,2024-12-20,FALL 2024,68253,4500,01,MANE-4500,Modeling & Control Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+MODELING & CONTROL OF DYN SYS,LEC,3,MR,4:00PM,5:50PM,Luiz Victor Repolho Cagliari,Darrin Communications Center 318,85,68,17,MANE,2024-08-28,2024-12-20,FALL 2024,68966,4500,02,MANE-4500,Modeling & Control Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,M,9:00AM,11:50AM,Fudong Han,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68614,4740,01,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68614,4740,01,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,M,2:00PM,4:50PM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68615,4740,02,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
 Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68615,4740,02,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,T,9:00AM,11:50AM,Fred Thomas Willett/Bimal K Malaviya/Kathleen M. Stockton,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68616,4740,03,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,T,9:00AM,11:50AM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68616,4740,03,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
 Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68616,4740,03,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,T,2:00PM,4:50PM,Bimal K Malaviya/Kathleen M. Stockton/Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68617,4740,04,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,T,2:00PM,4:50PM,Theodorian Borca-Tasciuc,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68617,4740,04,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
 Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68617,4740,04,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,W,9:00AM,11:50AM,Kathleen M. Stockton/Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68618,4740,05,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68618,4740,05,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68619,4740,06,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,W,2:00PM,4:50PM,Kathleen M. Stockton/Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68619,4740,06,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,68620,4740,07,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,R,9:00AM,11:50AM,Kathleen M. Stockton/Fudong Han,Low Center for Industrial Inn. 5118,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,68620,4740,07,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,9:00AM,11:50AM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,68618,4740,05,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,68618,4740,05,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68619,4740,06,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,2:00PM,4:50PM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68619,4740,06,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,68620,4740,07,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,R,9:00AM,11:50AM,Fudong Han,Low Center for Industrial Inn. 5118,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,68620,4740,07,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
 Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Amos Eaton Hall 214,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68621,4740,08,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-Thermal and Fluids Engineering Laboratory,LEC,2,R,2:00PM,4:50PM,Kathleen M. Stockton/Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68621,4740,08,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
-QUANTUM COMPUT APPLIC FOR ENG,LEC,3,T,4:00PM,6:50PM,Brian James McDermott/Thomas Clark Haley,Low Center for Industrial Inn. 3039,30,25,5,MANE,2024-08-28,2024-12-20,FALL 2024,69725,4960,01,MANE-4960,Quantum Comput Applic For Eng,,,When Offered: Upon sufficient demand.,[],[],Engineering
-HELI AERODYNAMIC & PERFORMANCE,LEC,3,TF,10:00AM,11:50AM,Robert John Niemiec,Materials Research Center 136,12,3,9,MANE,2024-08-28,2024-12-20,FALL 2024,69704,6060,01,MANE-6060,Heli Aerodynamic & Performance,"Aerodynamic analysis of rotocraft in hover, axial, and edgewise flight. Rotor blade flapping, and response to rotor pitch controls. Rotor hub loads and aircraft equilibrium procedures. Helicopter performance calculations. Effect of rotor design on rotor aerodynamic performance.",Prerequisite: MANE 4070,When Offered: Upon availability of instructor,['MANE 4070'],['MANE 4070'],Engineering
-NEUTRON SCATTER FOR SOFT MAT,LEC,3,WF,1:25PM,2:40PM,Li Liu,TBA,0,3,-3,MANE,2024-08-28,2024-12-20,FALL 2024,69795,6968,01,MANE-6968,Neutron Scatter For Soft Mat,,,,[],[],Engineering
-CONTROL SYSTEMS LAB,LEC,2,W,8:00AM,9:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,32,16,16,MANE,2024-08-28,2024-12-20,FALL 2024,68555,4510,01,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,R,2:00PM,4:50PM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68621,4740,08,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+QUANTUM COMPUT APPLIC FOR ENG,LEC,3,T,4:00PM,6:50PM,Brian James McDermott/Thomas Clark Haley,Low Center for Industrial Inn. 3039,30,31,-1,MANE,2024-08-28,2024-12-20,FALL 2024,69725,4960,01,MANE-4960,Quantum Comput Applic For Eng,,,When Offered: Upon sufficient demand.,[],[],Engineering
+HELI AERODYNAMIC & PERFORMANCE,LEC,3,TF,10:00AM,11:50AM,Robert John Niemiec,Materials Research Center 136,12,2,10,MANE,2024-08-28,2024-12-20,FALL 2024,69704,6060,01,MANE-6060,Heli Aerodynamic & Performance,"Aerodynamic analysis of rotocraft in hover, axial, and edgewise flight. Rotor blade flapping, and response to rotor pitch controls. Rotor hub loads and aircraft equilibrium procedures. Helicopter performance calculations. Effect of rotor design on rotor aerodynamic performance.",Prerequisite: MANE 4070,When Offered: Upon availability of instructor,['MANE 4070'],['MANE 4070'],Engineering
+NEUTRON SCATTER FOR SOFT MAT,LEC,3,WF,1:25PM,2:40PM,Li Liu,TBA,0,2,-2,MANE,2024-08-28,2024-12-20,FALL 2024,69795,6968,01,MANE-6968,Neutron Scatter For Soft Mat,,,,[],[],Engineering
+CONTROL SYSTEMS LAB,LEC,2,W,8:00AM,9:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,32,19,13,MANE,2024-08-28,2024-12-20,FALL 2024,68555,4510,01,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
 CONTROL SYSTEMS LAB,LEC,2,W,10:00AM,11:50AM,Sarah Helen Felix,Jonsson Engineering Center 4304,32,32,0,MANE,2024-08-28,2024-12-20,FALL 2024,68556,4510,02,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
-CONTROL SYSTEMS LAB,LEC,2,W,12:00PM,1:50PM,Sarah Helen Felix,Jonsson Engineering Center 4304,32,32,0,MANE,2024-08-28,2024-12-20,FALL 2024,68557,4510,03,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+CONTROL SYSTEMS LAB,LEC,2,W,12:00PM,1:50PM,Sarah Helen Felix,Jonsson Engineering Center 4304,32,31,1,MANE,2024-08-28,2024-12-20,FALL 2024,68557,4510,03,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
 CONTROL SYSTEMS LAB,LEC,2,W,2:00PM,3:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,32,32,0,MANE,2024-08-28,2024-12-20,FALL 2024,68558,4510,04,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
-CONTROL SYSTEMS LAB,LEC,2,T,8:00AM,9:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,32,32,0,MANE,2024-08-28,2024-12-20,FALL 2024,68559,4510,05,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+CONTROL SYSTEMS LAB,LEC,2,T,8:00AM,9:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,32,30,2,MANE,2024-08-28,2024-12-20,FALL 2024,68559,4510,05,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
 CONTROL SYSTEMS LAB,LEC,2,F,8:00AM,9:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,32,15,17,MANE,2024-08-28,2024-12-20,FALL 2024,68560,4510,06,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously)Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
-ELEMENTS OF MECH DESIGN,LEC,4,TF,8:00AM,9:50AM,M Arshad Zahangir Chowdhury,Darrin Communications Center 337,57,47,10,MANE,2024-08-28,2024-12-20,FALL 2024,65358,4030,01,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
-ELEMENTS OF MECH DESIGN,LEC,4,TF,10:00AM,11:50AM,M Arshad Zahangir Chowdhury,Darrin Communications Center 337,83,83,0,MANE,2024-08-28,2024-12-20,FALL 2024,68830,4030,02,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
-MECHATRONICS,LEC,3,TF,12:00PM,1:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,24,23,1,MANE,2024-08-28,2024-12-20,FALL 2024,68259,4520,01,MANE-4520,Mechatronics,"The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design.",Prerequisites: MANE 4500 or ECSE 2410,When Offered: Fall and spring terms annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
-"HEATING, VENTILATION, & AC",LEC,3,W,6:00PM,8:50PM,William Dwight Gerstler/Chester T Vogel,Materials Research Center 136,28,21,7,MANE,2024-08-28,2024-12-20,FALL 2024,66663,4760,01,MANE-4760,"HEATING, VENTILATION, & Ac","Principles for the control of air properties to meet comfort and industrial requirements, load determination, psychrometry, cycles, transmission, distribution, and automatic control.",Prerequisites: MANE 2710 and MANE 2720. MANE 4740 is recommended.,When Offered: Fall term annually.,"['MANE 2710', 'MANE 2720', 'MANE 4740']","['MANE 2710', 'MANE 2720', 'MANE 4740']",Engineering
-RADIATION TRANSPORT METHODS,LEC,3,MR,12:00PM,1:20PM,Wei Ji,Low Center for Industrial Inn. 4034,15,3,12,MANE,2024-08-28,2024-12-20,FALL 2024,69165,6290,01,MANE-6290,Radiation Transport Methods,"This course will present the foundations of numerical (deterministic) and Monte Carlo methods that are widely used in the modeling and analysis of nuclear reactor design, radiation dosimetry, and radiation shielding. Emphasis will be placed on the three fundamental aspects of computation methods: (i) discretization methods for the transport and diffusion equations; (ii) iterative methods for solving the system of discretized equations; and (iii) Monte Carlo methods for solving general fixed-source and eigenvalue problems.",,When Offered: Fall term every two to three years.,[],[],Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,20,12,8,MANE,2024-08-28,2024-12-20,FALL 2024,65365,6660,01,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,20,12,8,MANE,2024-08-28,2024-12-20,FALL 2024,65365,6660,01,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,20,9,11,MANE,2024-08-28,2024-12-20,FALL 2024,69701,6660,02,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,20,9,11,MANE,2024-08-28,2024-12-20,FALL 2024,69701,6660,02,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+NUCLEAR POWER SYSTEMS ENGR,LEC,1,,,,Shanbin Shi,TBA,15,15,0,MANE,2024-08-28,2024-12-20,FALL 2024,70291,4961,01,MANE-4961,Nuclear Power Systems Engr,,,,[],[],Engineering
+FUNDAMENTALS FINITE ELMNT METH,LEC,3,MR,8:30AM,9:50AM,Jacob Simon Merson,Darrin Communications Center 324,10,6,4,MANE,2024-08-28,2024-12-20,FALL 2024,70055,6969,01,MANE-6969,Fundamentals Finite Elmnt Meth,,,,[],[],Engineering
+FUNDAMENTALS FINITE ELMNT METH,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,10,6,4,MANE,2024-08-28,2024-12-20,FALL 2024,70055,6969,01,MANE-6969,Fundamentals Finite Elmnt Meth,,,,[],[],Engineering
+MECHATRONICS,LEC,3,TF,12:00PM,1:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,24,20,4,MANE,2024-08-28,2024-12-20,FALL 2024,68259,4520,01,MANE-4520,Mechatronics,"The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design.",Prerequisites: MANE 4500 or ECSE 2410,When Offered: Fall and spring terms annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
+"HEATING, VENTILATION, & AC",LEC,3,W,6:00PM,8:50PM,William Dwight Gerstler/Chester T Vogel,Materials Research Center 136,28,19,9,MANE,2024-08-28,2024-12-20,FALL 2024,66663,4760,01,MANE-4760,"HEATING, VENTILATION, & Ac","Principles for the control of air properties to meet comfort and industrial requirements, load determination, psychrometry, cycles, transmission, distribution, and automatic control.",Prerequisites: MANE 2710 and MANE 2720. MANE 4740 is recommended.,When Offered: Fall term annually.,"['MANE 2710', 'MANE 2720', 'MANE 4740']","['MANE 2710', 'MANE 2720', 'MANE 4740']",Engineering
+RADIATION TRANSPORT METHODS,LEC,3,MR,12:00PM,1:20PM,Wei Ji,Low Center for Industrial Inn. 4034,15,2,13,MANE,2024-08-28,2024-12-20,FALL 2024,69165,6290,01,MANE-6290,Radiation Transport Methods,"This course will present the foundations of numerical (deterministic) and Monte Carlo methods that are widely used in the modeling and analysis of nuclear reactor design, radiation dosimetry, and radiation shielding. Emphasis will be placed on the three fundamental aspects of computation methods: (i) discretization methods for the transport and diffusion equations; (ii) iterative methods for solving the system of discretized equations; and (iii) Monte Carlo methods for solving general fixed-source and eigenvalue problems.",,When Offered: Fall term every two to three years.,[],[],Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,20,7,13,MANE,2024-08-28,2024-12-20,FALL 2024,65365,6660,01,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,20,7,13,MANE,2024-08-28,2024-12-20,FALL 2024,65365,6660,01,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,20,3,17,MANE,2024-08-28,2024-12-20,FALL 2024,69701,6660,02,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,20,3,17,MANE,2024-08-28,2024-12-20,FALL 2024,69701,6660,02,MANE-6660,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.","Prerequisites: MATH 2400, MANE 2110, or permission of the instructor.",When Offered: Fall and spring terms annually.,"['MATH 2400', 'MANE 2110']","['MATH 2400', 'MANE 2110']",Engineering
 PROFESSIONAL PROJECT,LEC,3,,,,Francisco J Cunha,Online ,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,68105,6970,H02,MANE-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A,B,C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
 PROFESSIONAL PROJECT,LEC,3,,,,Ernesto Gutierrez-Miravete,Online ,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,67847,6970,H03,MANE-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A,B,C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
-MECHANICAL SYSTEMS LAB,LEC,2,W,8:00AM,9:50AM,Ali Shahsavari,Jonsson Engineering Center 1219,23,22,1,MANE,2024-08-28,2024-12-20,FALL 2024,65842,4040,01,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
-MECHANICAL SYSTEMS LAB,LEC,2,W,11:00AM,12:50PM,Ali Shahsavari,Jonsson Engineering Center 1219,23,23,0,MANE,2024-08-28,2024-12-20,FALL 2024,65843,4040,02,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
-MECHANICAL SYSTEMS LAB,LEC,2,W,2:00PM,3:50PM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,23,24,-1,MANE,2024-08-28,2024-12-20,FALL 2024,65844,4040,03,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
-MECHANICAL SYSTEMS LAB,LEC,2,W,5:00PM,6:50PM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,23,23,0,MANE,2024-08-28,2024-12-20,FALL 2024,65841,4040,04,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
-MECHANICAL SYSTEMS LAB,LEC,2,R,10:00AM,11:50AM,Ali Shahsavari,Jonsson Engineering Center 1219,23,21,2,MANE,2024-08-28,2024-12-20,FALL 2024,66819,4040,05,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
-MECHANICAL SYSTEMS LAB,LEC,2,R,2:00PM,3:50PM,Ali Shahsavari,Jonsson Engineering Center 1219,23,23,0,MANE,2024-08-28,2024-12-20,FALL 2024,67078,4040,06,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
-NUCLEAR ENGINEERING LAB,LEC,4,W,9:00AM,12:50PM,Jie Lian,Low Center for Industrial Inn. 3130,20,16,4,MANE,2024-08-28,2024-12-20,FALL 2024,65367,4370,01,MANE-4370,Nuclear Engineering Lab,"A laboratory course covering topics applied physics, fluid dynamics, radiation spectroscopy and instrumentations, computer-controlled instrument interfacing and data acquisition. Estimation and reporting of measurement errors is emphasized. Lab attendance is required along with formal written lab reports",Prerequisites: ENGR 2600 and MANE 2830,When Offered: Fall term annually.,"['ENGR 2600', 'MANE 2830']","['ENGR 2600', 'MANE 2830']",Engineering
-CONTROL SYSTEM ENGINEERING,LEC,3,MR,4:00PM,5:20PM,Santiago Paternain,Jonsson Engineering Center 4107,5,5,0,MANE,2024-08-28,2024-12-20,FALL 2024,68242,4530,01,MANE-4530,Control System Engineering,"Application of linear feedback theory to the design of large-scale, integrated control systems. Derivation of complex mathematical models of physical systems. Synthesis of appropriate control laws to provide stability. Simulation of complex systems on digital computers.",Prerequisite: ECSE 2410 or MANE 4500; knowledge of MATLAB highly encouraged.,When Offered: Fall term annually,"['ECSE 2410', 'MANE 4500']","['ECSE 2410', 'MANE 4500']",Engineering
+ELEMENTS OF MECH DESIGN,LEC,4,TF,8:00AM,9:50AM,M Arshad Zahangir Chowdhury,Darrin Communications Center 337,57,47,10,MANE,2024-08-28,2024-12-20,FALL 2024,65358,4030,01,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
+ELEMENTS OF MECH DESIGN,LEC,4,TF,10:00AM,11:50AM,M Arshad Zahangir Chowdhury,Darrin Communications Center 337,80,83,-3,MANE,2024-08-28,2024-12-20,FALL 2024,68830,4030,02,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
+NUCLEAR ENGINEERING LAB,LEC,4,W,9:00AM,12:50PM,Jie Lian,Low Center for Industrial Inn. 3130,20,17,3,MANE,2024-08-28,2024-12-20,FALL 2024,65367,4370,01,MANE-4370,Nuclear Engineering Lab,"A laboratory course covering topics applied physics, fluid dynamics, radiation spectroscopy and instrumentations, computer-controlled instrument interfacing and data acquisition. Estimation and reporting of measurement errors is emphasized. Lab attendance is required along with formal written lab reports",Prerequisites: ENGR 2600 and MANE 2830,When Offered: Fall term annually.,"['ENGR 2600', 'MANE 2830']","['ENGR 2600', 'MANE 2830']",Engineering
+CONTROL SYSTEM ENGINEERING,LEC,3,MR,4:00PM,5:20PM,Santiago Paternain,Jonsson Engineering Center 4107,5,8,-3,MANE,2024-08-28,2024-12-20,FALL 2024,68242,4530,01,MANE-4530,Control System Engineering,"Application of linear feedback theory to the design of large-scale, integrated control systems. Derivation of complex mathematical models of physical systems. Synthesis of appropriate control laws to provide stability. Simulation of complex systems on digital computers.",Prerequisite: ECSE 2410 or MANE 4500; knowledge of MATLAB highly encouraged.,When Offered: Fall term annually,"['ECSE 2410', 'MANE 4500']","['ECSE 2410', 'MANE 4500']",Engineering
 ENGINEERING ACOUSTICS,LEC,3,W,10:00AM,12:50PM,Ning Xiang,Low Center for Industrial Inn. 3116,17,4,13,MANE,2024-08-28,2024-12-20,FALL 2024,69311,4963,01,MANE-4963,Engineering Acoustics,,,,[],[],Engineering
-GRADUATE SEMINAR,LEC,0,W,10:00AM,11:50AM,Shankar Narayan,Russell Sage Laboratory 3303,250,117,133,MANE,2024-08-28,2024-12-20,FALL 2024,65366,6900,01,MANE-6900,Graduate Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+GRADUATE SEMINAR,LEC,0,W,10:00AM,11:50AM,Shankar Narayan,Russell Sage Laboratory 3303,250,141,109,MANE,2024-08-28,2024-12-20,FALL 2024,65366,6900,01,MANE-6900,Graduate Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Johnson Samuel,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66702,6980,01,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Theodorian Borca-Tasciuc,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,66707,6980,02,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Theodorian Borca-Tasciuc,TBA,10,6,4,MANE,2024-08-28,2024-12-20,FALL 2024,66707,6980,02,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Daniel Walczyk,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,66716,6980,03,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Hyun Gook Kang,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66717,6980,04,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Mark S Shephard,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66795,6980,05,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Kurt S Anderson,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66987,6980,06,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Kurt S Anderson,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,66987,6980,06,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Thierry Blanchet,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66991,6980,07,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Wei Ji,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,68092,6980,08,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Sandeep Singh,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67287,6980,09,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Sandeep Singh,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,67287,6980,09,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Jie Lian,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67298,6980,10,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,John Wen,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,67437,6980,11,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Asish Ghosh,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67442,6980,12,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Li Liu,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67497,6980,13,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Fotios Kopsaftopoulos,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,68087,6980,14,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Fotios Kopsaftopoulos,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,68087,6980,14,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Lucy T. Zhang,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67562,6980,15,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Onkar Sahni,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,68101,6980,16,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Yaron Danon,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67735,6980,17,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Johnson Samuel,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67743,6980,18,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Johnson Samuel,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67743,6980,18,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Suvranu De,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67886,6980,19,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Kristen Lynn Mills,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67887,6980,20,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Catalin R Picu,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67888,6980,21,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Shaowu Pan,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67890,6980,22,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Shaowu Pan,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67890,6980,22,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Sarah Helen Felix,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67893,6980,23,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Fudong Han,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,68316,6980,24,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Semih Akin,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69800,6980,25,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Franck Berol Djeumou Mbouwe,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69859,6980,26,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Prabhat Hajela,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,69982,6980,27,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Karthikeyan Panneerselvam,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,68512,6980,36,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Nikhil Koratkar,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67279,6980,41,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Shankar Narayan,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67477,6980,50,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Sandipan Mishra,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67217,6980,63,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Sandipan Mishra,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,67217,6980,63,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Shanbin Shi,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,67218,6980,64,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Michael Amitay,TBA,10,5,5,MANE,2024-08-28,2024-12-20,FALL 2024,67222,6980,65,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Matthew Adam Oehlschlaeger,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67224,6980,66,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Amir Hirsa,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67225,6980,67,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Jason Edward Hicken,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,67232,6980,68,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Diana Andra Borca Tasciuc,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67403,6980,69,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Antoinette Maniatty,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,67621,6980,70,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Antoinette Maniatty,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67621,6980,70,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Hunter Christophe Belanger,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69420,6980,71,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Jacob Simon Merson,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69423,6980,72,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-9,,,,Leonid Pogorelyuk,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69426,6980,73,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-MASTER'S PROJECT,LEC,1-9,,,,Ozgur Tumuklu,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,69429,6980,74,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-NUCLEAR ENG SENIOR DSGN PROJ I,LEC,1,F,2:00PM,3:50PM,James Edward Olson/Thomas Clark Haley/Bimal K Malaviya,Darrin Communications Center 239,18,12,6,MANE,2024-08-28,2024-12-20,FALL 2024,65368,4380,01,MANE-4380,Nuclear Eng Senior Dsgn Proj I,"This is the first of a two-semester sequence for seniors intended to be a ""capstone"" design project where students have the opportunity to utilize the broad range of their undergraduate experience in an interdisciplinary design project. Projects are selected to provide interaction between nuclear engineering and engineering physics majors to provide exposure to cross-fertilization of ideas and team interaction, which simulates anticipated future professional experience. The product of each design project is a comprehensive report or design proposal having both global and detail completeness. Under some circumstances, the project may involve development of cost information necessary to effect construction and may actually involve construction and commissioning of the designed apparatus. This is a communication-intensive course.",Senior standing or permission of instructor.,When Offered: Fall term annually.,[],[],Engineering
-WIND ENERGY ENGINEERING,LEC,3,MR,10:00AM,11:50AM,Fred Thomas Willett/Etana Alemayehe Ferede,Peoples Ave Complex J 3402,15,5,10,MANE,2024-08-28,2024-12-20,FALL 2024,69712,4780,01,MANE-4780,Wind Energy Engineering,"An introductory course on wind energy: wind turbine subsystem design and underlying theory, power plant siting and economics, applications and potential for wind turbines.","Prerequisites: ENGR 2090 ( ENGR 2530, or MANE 2960) MANE 2720, MANE 4500 *(* Can also be taken simultaneously)",When Offered: Upon availability of instructor.,"['ENGR 2090', 'ENGR 2530', 'MANE 2720', 'MANE 4500']","['ENGR 2090', 'ENGR 2530', 'MANE 2720', 'MANE 4500']",Engineering
-COMPUTATIONAL REACTOR DESIGN,LEC,3,MR,10:00AM,11:20AM,Hunter Christophe Belanger,Jonsson Engineering Center 4304,25,5,20,MANE,2024-08-28,2024-12-20,FALL 2024,69715,4964,01,MANE-4964,Computational Reactor Design,,,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Ozgur Tumuklu,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,69429,6980,74,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,8:00AM,9:50AM,Ali Shahsavari,Jonsson Engineering Center 1219,23,20,3,MANE,2024-08-28,2024-12-20,FALL 2024,65842,4040,01,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,11:00AM,12:50PM,Ali Shahsavari,Jonsson Engineering Center 1219,23,21,2,MANE,2024-08-28,2024-12-20,FALL 2024,65843,4040,02,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,2:00PM,3:50PM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,23,23,0,MANE,2024-08-28,2024-12-20,FALL 2024,65844,4040,03,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,5:00PM,6:50PM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,23,20,3,MANE,2024-08-28,2024-12-20,FALL 2024,65841,4040,04,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,R,10:00AM,11:50AM,Ali Shahsavari,Jonsson Engineering Center 1219,23,21,2,MANE,2024-08-28,2024-12-20,FALL 2024,66819,4040,05,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,R,2:00PM,3:50PM,Ali Shahsavari,Jonsson Engineering Center 1219,23,23,0,MANE,2024-08-28,2024-12-20,FALL 2024,67078,4040,06,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+NUCLEAR ENG SENIOR DSGN PROJ I,LEC,1,F,2:00PM,3:50PM,James Edward Olson/Thomas Clark Haley/Bimal K Malaviya,Darrin Communications Center 239,18,13,5,MANE,2024-08-28,2024-12-20,FALL 2024,65368,4380,01,MANE-4380,Nuclear Eng Senior Dsgn Proj I,"This is the first of a two-semester sequence for seniors intended to be a ""capstone"" design project where students have the opportunity to utilize the broad range of their undergraduate experience in an interdisciplinary design project. Projects are selected to provide interaction between nuclear engineering and engineering physics majors to provide exposure to cross-fertilization of ideas and team interaction, which simulates anticipated future professional experience. The product of each design project is a comprehensive report or design proposal having both global and detail completeness. Under some circumstances, the project may involve development of cost information necessary to effect construction and may actually involve construction and commissioning of the designed apparatus. This is a communication-intensive course.",Senior standing or permission of instructor.,When Offered: Fall term annually.,[],[],Engineering
+WIND ENERGY ENGINEERING,LEC,3,MR,10:00AM,11:50AM,Fred Thomas Willett/Etana Alemayehe Ferede,Peoples Ave Complex J 3402,15,7,8,MANE,2024-08-28,2024-12-20,FALL 2024,69712,4780,01,MANE-4780,Wind Energy Engineering,"An introductory course on wind energy: wind turbine subsystem design and underlying theory, power plant siting and economics, applications and potential for wind turbines.","Prerequisites: ENGR 2090 ( ENGR 2530, or MANE 2960) MANE 2720, MANE 4500 *(* Can also be taken simultaneously)",When Offered: Upon availability of instructor.,"['ENGR 2090', 'ENGR 2530', 'MANE 2720', 'MANE 4500']","['ENGR 2090', 'ENGR 2530', 'MANE 2720', 'MANE 4500']",Engineering
+COMPUTATIONAL REACTOR DESIGN,LEC,3,MR,10:00AM,11:20AM,Hunter Christophe Belanger,Jonsson Engineering Center 4304,25,4,21,MANE,2024-08-28,2024-12-20,FALL 2024,69715,4964,01,MANE-4964,Computational Reactor Design,,,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Onkar Sahni,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66135,6990,01,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Yaron Danon,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66176,6990,02,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Fotios Kopsaftopoulos,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,68088,6990,03,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTER'S THESIS,LEC,1-12,,,,Jie Lian,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66357,6990,04,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jie Lian,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66357,6990,04,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Thierry Blanchet,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,65343,6990,05,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Shanbin Shi,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66179,6990,06,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Hyun Gook Kang,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,65344,6990,07,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Wei Ji,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66358,6990,08,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTER'S THESIS,LEC,1-12,,,,Shaowu Pan,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,65334,6990,09,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Shaowu Pan,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,65334,6990,09,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Matthew Adam Oehlschlaeger,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66180,6990,10,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Daniel Walczyk,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,65335,6990,11,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Semih Akin,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66360,6990,12,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Franck Berol Djeumou Mbouwe,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66189,6990,13,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Lucy T. Zhang,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66190,6990,14,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTER'S THESIS,LEC,1-12,,,,Fudong Han,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66370,6990,16,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Fudong Han,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,66370,6990,16,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Mark S Shephard,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66383,6990,17,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Nikhil Koratkar,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66191,6990,18,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTER'S THESIS,LEC,1-12,,,,Amir Hirsa,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66225,6990,19,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Amir Hirsa,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,66225,6990,19,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Diana Andra Borca Tasciuc,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66389,6990,20,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,John Wen,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66390,6990,21,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Kurt S Anderson,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66643,6990,23,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -883,56 +910,54 @@ MASTER'S THESIS,LEC,1-12,,,,Hunter Christophe Belanger,TBA,10,0,10,MANE,2024-08-
 MASTER'S THESIS,LEC,1-12,,,,Jacob Simon Merson,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69424,6990,72,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Leonid Pogorelyuk,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69427,6990,73,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-12,,,,Ozgur Tumuklu,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,69430,6990,74,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-AEROSPACE STRUCT & MATERIALS,LEC,4,TF,10:00AM,11:50AM,Fotios Kopsaftopoulos,Pittsburgh Building 5216,56,52,4,MANE,2024-08-28,2024-12-20,FALL 2024,67043,4060,01,MANE-4060,Aerospace Struct & Materials,"Beam structures under combined shear, bending, and torsional loads. Semi-monocoque structures: idealizations involving wings, ribs, and fuselage bulkheads. Effects of taper and cutouts in stiffened shell structures, shear deformations and warping, location of elastic axis in open and closed sections, torsion of multicell sections. Stability of beam and membrane elements. Introduction to materials used in aerospace vehicles including metals, ceramics, and composites with special emphasis on fiber-reinforced composite materials. Methods for material analysis and selection for various aerospace components.",Prerequisites/Corequisites: ENGR 2530 or MANE-2960,"When Offered: Fall, spring, and summer terms annually.",['ENGR 2530'],['ENGR 2530'],Engineering
-INVENTORS STUDIO 2,LEC,4,TF,12:00PM,1:50PM,Asish Ghosh/Susan Victoria Henry/Tracy N. Sullivan,Russell Sage Laboratory 2211,24,27,-3,MANE,2024-08-28,2024-12-20,FALL 2024,65440,4220,01,MANE-4220,Inventors Studio 2,"Students work in teams to continue innovation, design, and development work on approved projects that started in other courses such as Introduction to Engineering Design or Inventors Studio 1 or equivalent. New projects can also be proposed by students. Emphasis will be on innovating, completing the design, building an improved prototype, applying for patent protection, and licensing the design. Open to undergraduate and graduate students. Oral and written concept, midterm and final presentations are required. This is a communication-intensive course. This course meets with ENGR 4010.   This course will cancel any credit for ENGR 4010 if ENGR 4010 was or is taken",Prerequisite: MANE 2220 or ENGR 2050; or permission of instructor.,When Offered: Fall and spring terms annually.,"['MANE 2220', 'ENGR 2050']","['MANE 2220', 'ENGR 2050']",Engineering
-INVENTORS STUDIO 2,LEC,4,TF,2:00PM,3:50PM,Clinton T. Ballinger/Susan Victoria Henry/Tracy N. Sullivan,Russell Sage Laboratory 2211,28,30,-2,MANE,2024-08-28,2024-12-20,FALL 2024,68551,4220,02,MANE-4220,Inventors Studio 2,"Students work in teams to continue innovation, design, and development work on approved projects that started in other courses such as Introduction to Engineering Design or Inventors Studio 1 or equivalent. New projects can also be proposed by students. Emphasis will be on innovating, completing the design, building an improved prototype, applying for patent protection, and licensing the design. Open to undergraduate and graduate students. Oral and written concept, midterm and final presentations are required. This is a communication-intensive course. This course meets with ENGR 4010.   This course will cancel any credit for ENGR 4010 if ENGR 4010 was or is taken",Prerequisite: MANE 2220 or ENGR 2050; or permission of instructor.,When Offered: Fall and spring terms annually.,"['MANE 2220', 'ENGR 2050']","['MANE 2220', 'ENGR 2050']",Engineering
-ADVANCED HEAT TRANSFER,LEC,3,MR,12:00PM,1:50PM,Diana Andra Borca Tasciuc,Greene Building 120,15,3,12,MANE,2024-08-28,2024-12-20,FALL 2024,69709,4790,01,MANE-4790,Advanced Heat Transfer,Comprehensive treatment of conduction and convection heat transfer. Emphasis is on physical and mathematical modeling of heat transfer phenomena with applications in engineering systems. Analytical and computational solution methods are discussed. The class is centered around a semester long project.,Prerequisite: MANE 4730,When Offered: Spring term annually.,['MANE 4730'],['MANE 4730'],Engineering
-AEROSPACE PROPULSION LAB,LEC,3,R,2:00PM,4:50PM,Kevin Wayne Housley,Jonsson Engineering Center 2220,16,7,9,MANE,2024-08-28,2024-12-20,FALL 2024,69717,4965,01,MANE-4965,Aerospace Propulsion Lab,,,,[],[],Engineering
-ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,11,54,MANE,2024-08-28,2024-12-20,FALL 2024,67190,6120,01,MANE-6120,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",,When Offered: Fall term annually.,[],[],Engineering
-FLUID MECHANICS,LEC,3,MR,12:00PM,1:20PM,John A Tichy,Low Center for Industrial Inn. 3116,30,27,3,MANE,2024-08-28,2024-12-20,FALL 2024,67649,6520,01,MANE-6520,Fluid Mechanics,"An introductory graduate course in fluid mechanics. Topics include: continuum hypothesis; perfect gas and departures from perfect gas; vectors and tensors; conservation laws for a continuum: mass momentum and energy; constitutive theory for fluids; viscosity and molecular transport; compressible Navier-Stokes equations; kinematics of the flow field: vorticity, streamlines; incompressible Navier-Stokes equations and their applications: Poiseuille flow, low Reynolds number flows, flows at large Reynolds number, boundary layers, external flows: flow stability and introduction to the theory of turbulence.",,When Offered: Fall term annually.,[],[],Engineering
-NUMERICAL DESIGN OPTIMIZATION,LEC,3,TF,10:00AM,11:20AM,Jason Edward Hicken,Troy Building 2012,20,19,1,MANE,2024-08-28,2024-12-20,FALL 2024,68238,6710,01,MANE-6710,Numerical Design Optimization,"This course introduces the theory and practical use of numerical design optimization methods. Topics include: gradient-based methods for unconstrained and constrained nonlinear optimization; numerical evaluation of derivatives; polynomial and kriging-based surrogate models; gradient-free optimization methods; optimization under uncertainty; multi-objective and multi-disciplinary optimization. Projects require the use of computer programs to generate numerical results; therefore, experience with programming is highly recommended.",,When Offered: Fall term annually.,[],[],Engineering
-NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,12:00PM,1:50PM,Thomas Clark Haley,Low Center for Industrial Inn. 3039,41,41,0,MANE,2024-08-28,2024-12-20,FALL 2024,68231,2110,01,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
-NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,2:00PM,3:50PM,Thomas Clark Haley,Low Center for Industrial Inn. 3039,41,39,2,MANE,2024-08-28,2024-12-20,FALL 2024,68234,2110,02,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
-NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,2:00PM,3:50PM,Shaowu Pan,Russell Sage Laboratory 3713,41,41,0,MANE,2024-08-28,2024-12-20,FALL 2024,68550,2110,03,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
-NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,12:00PM,1:50PM,Onkar Sahni,Pittsburgh Building 5216,41,40,1,MANE,2024-08-28,2024-12-20,FALL 2024,69764,2110,04,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+AEROSPACE STRUCT & MATERIALS,LEC,4,TF,10:00AM,11:50AM,Fotios Kopsaftopoulos,Pittsburgh Building 5216,56,51,5,MANE,2024-08-28,2024-12-20,FALL 2024,67043,4060,01,MANE-4060,Aerospace Struct & Materials,"Beam structures under combined shear, bending, and torsional loads. Semi-monocoque structures: idealizations involving wings, ribs, and fuselage bulkheads. Effects of taper and cutouts in stiffened shell structures, shear deformations and warping, location of elastic axis in open and closed sections, torsion of multicell sections. Stability of beam and membrane elements. Introduction to materials used in aerospace vehicles including metals, ceramics, and composites with special emphasis on fiber-reinforced composite materials. Methods for material analysis and selection for various aerospace components.",Prerequisites/Corequisites: ENGR 2530 or MANE-2960,"When Offered: Fall, spring, and summer terms annually.",['ENGR 2530'],['ENGR 2530'],Engineering
+INVENTORS STUDIO 2,LEC,4,TF,12:00PM,1:50PM,Asish Ghosh/Susan Victoria Henry/Tracy N. Sullivan,Russell Sage Laboratory 2211,24,28,-4,MANE,2024-08-28,2024-12-20,FALL 2024,65440,4220,01,MANE-4220,Inventors Studio 2,"Students work in teams to continue innovation, design, and development work on approved projects that started in other courses such as Introduction to Engineering Design or Inventors Studio 1 or equivalent. New projects can also be proposed by students. Emphasis will be on innovating, completing the design, building an improved prototype, applying for patent protection, and licensing the design. Open to undergraduate and graduate students. Oral and written concept, midterm and final presentations are required. This is a communication-intensive course. This course meets with ENGR 4010.   This course will cancel any credit for ENGR 4010 if ENGR 4010 was or is taken",Prerequisite: MANE 2220 or ENGR 2050; or permission of instructor.,When Offered: Fall and spring terms annually.,"['MANE 2220', 'ENGR 2050']","['MANE 2220', 'ENGR 2050']",Engineering
+INVENTORS STUDIO 2,LEC,4,TF,2:00PM,3:50PM,Clinton T. Ballinger/Susan Victoria Henry/Tracy N. Sullivan,Russell Sage Laboratory 2211,28,27,1,MANE,2024-08-28,2024-12-20,FALL 2024,68551,4220,02,MANE-4220,Inventors Studio 2,"Students work in teams to continue innovation, design, and development work on approved projects that started in other courses such as Introduction to Engineering Design or Inventors Studio 1 or equivalent. New projects can also be proposed by students. Emphasis will be on innovating, completing the design, building an improved prototype, applying for patent protection, and licensing the design. Open to undergraduate and graduate students. Oral and written concept, midterm and final presentations are required. This is a communication-intensive course. This course meets with ENGR 4010.   This course will cancel any credit for ENGR 4010 if ENGR 4010 was or is taken",Prerequisite: MANE 2220 or ENGR 2050; or permission of instructor.,When Offered: Fall and spring terms annually.,"['MANE 2220', 'ENGR 2050']","['MANE 2220', 'ENGR 2050']",Engineering
+ADVANCED HEAT TRANSFER,LEC,3,MR,12:00PM,1:50PM,Diana Andra Borca Tasciuc,Greene Building 120,15,4,11,MANE,2024-08-28,2024-12-20,FALL 2024,69709,4790,01,MANE-4790,Advanced Heat Transfer,Comprehensive treatment of conduction and convection heat transfer. Emphasis is on physical and mathematical modeling of heat transfer phenomena with applications in engineering systems. Analytical and computational solution methods are discussed. The class is centered around a semester long project.,Prerequisite: MANE 4730,When Offered: Spring term annually.,['MANE 4730'],['MANE 4730'],Engineering
+AEROSPACE PROPULSION LAB,LEC,3,R,2:00PM,4:50PM,Kevin Wayne Housley,Jonsson Engineering Center 2220,16,6,10,MANE,2024-08-28,2024-12-20,FALL 2024,69717,4965,01,MANE-4965,Aerospace Propulsion Lab,,,,[],[],Engineering
+ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,12,53,MANE,2024-08-28,2024-12-20,FALL 2024,67190,6120,01,MANE-6120,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",,When Offered: Fall term annually.,[],[],Engineering
+FLUID MECHANICS,LEC,3,MR,12:00PM,1:20PM,John A Tichy,Low Center for Industrial Inn. 3116,30,29,1,MANE,2024-08-28,2024-12-20,FALL 2024,67649,6520,01,MANE-6520,Fluid Mechanics,"An introductory graduate course in fluid mechanics. Topics include: continuum hypothesis; perfect gas and departures from perfect gas; vectors and tensors; conservation laws for a continuum: mass momentum and energy; constitutive theory for fluids; viscosity and molecular transport; compressible Navier-Stokes equations; kinematics of the flow field: vorticity, streamlines; incompressible Navier-Stokes equations and their applications: Poiseuille flow, low Reynolds number flows, flows at large Reynolds number, boundary layers, external flows: flow stability and introduction to the theory of turbulence.",,When Offered: Fall term annually.,[],[],Engineering
+NUMERICAL DESIGN OPTIMIZATION,LEC,3,TF,10:00AM,11:20AM,Jason Edward Hicken,Troy Building 2012,20,18,2,MANE,2024-08-28,2024-12-20,FALL 2024,68238,6710,01,MANE-6710,Numerical Design Optimization,"This course introduces the theory and practical use of numerical design optimization methods. Topics include: gradient-based methods for unconstrained and constrained nonlinear optimization; numerical evaluation of derivatives; polynomial and kriging-based surrogate models; gradient-free optimization methods; optimization under uncertainty; multi-objective and multi-disciplinary optimization. Projects require the use of computer programs to generate numerical results; therefore, experience with programming is highly recommended.",,When Offered: Fall term annually.,[],[],Engineering
 AERODYNAMICS,LEC,4,MR,12:00PM,1:50PM,Amir Hirsa,Carnegie Building 113,82,75,7,MANE,2024-08-28,2024-12-20,FALL 2024,67812,4070,01,MANE-4070,Aerodynamics,"Introduction to fixed-wing flight mechanics. Lift generation, thin-airfoil, and wing theories. Boundary layers and applications to wings. One and two-dimensional compressible flow and applications to aircraft and rocket engines.",Prerequisites: MANE 2710 and MANE 2720,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
-NUCLEAR POWER SYST ENGR,LEC,3,TF,10:00AM,11:50AM,Shanbin Shi,Russell Sage Laboratory 2707,25,19,6,MANE,2024-08-28,2024-12-20,FALL 2024,68239,4400,01,MANE-4400,Nuclear Power Syst Engr,"Application of thermodynamics, heat transfer, and fluid flow principles to nuclear energy generation systems, including nuclear reactors, nuclear fusion devices and systems, and radiation technology. Engineering aspects of 1st and 2nd Laws of Thermodynamics will be emphasized. Characteristics and safety aspects of nuclear power equipment will be discussed.",Prerequisite: MANE 2720 and MANE 4730,When Offered: Fall term annually.,"['MANE 2720', 'MANE 4730']","['MANE 2720', 'MANE 4730']",Engineering
-ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,19,46,MANE,2024-08-28,2024-12-20,FALL 2024,68521,4560,01,MANE-4560,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.","Prerequisites: MATH 2400 and (MATH 2010 or (MATH 2011 and MATH 2012 )), and knowledge of MATLAB and Python.",When Offered: Fall term annually,"['MATH 2400', 'MATH 2010', 'MATH 2011', 'MATH 2012']","['MATH 2400', 'MATH 2010', 'MATH 2011', 'MATH 2012']",Engineering
-ENGR BIZ & TECH TRANSLATION,LEC,2,W,2:00PM,3:50PM,Clinton T. Ballinger,Darrin Communications Center 235,14,8,6,MANE,2024-08-28,2024-12-20,FALL 2024,69722,4966,01,MANE-4966,Engr Biz & Tech Translation,,,,[],[],Engineering
-INTRO COMPUTAT FLUID DYNAMICS,LEC,3,TF,12:00PM,1:20PM,Tara Gallaway Cohen,Russell Sage Laboratory 4112,30,10,20,MANE,2024-08-28,2024-12-20,FALL 2024,69313,6140,01,MANE-6140,Intro Computat Fluid Dynamics,"This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid-dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.","Prerequisites/Corequisites: MANE 2110, MANE 2720, and (MATH 2010 or (MATH 2011 and MATH 2012 )) or equivalents.",When Offered: Fall and Spring terms annually.,"['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']","['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']",Engineering
-INVENTOR'S STUDIO 1,LEC,4,MR,12:00PM,1:50PM,Casey Jay Hoffman/Tracy N. Sullivan/Jordan L Vener,Russell Sage Laboratory 2211,28,28,0,MANE,2024-08-28,2024-12-20,FALL 2024,67834,2220,01,MANE-2220,INVENTOR'S Studio 1,"A first course in enhancing critical skills for leaders of technological innovation. The course emphasizes creativity, teamwork, communication and work across engineering disciplines. Students learn how to build on personal and innate talents through critical thinking skills, design-oriented mindsets, and an understanding of appropriate tool and process selection. Students will utilize tools and processes for ideation and innovation, develop ideas from concepts to minimum viable products via the ideate - build - learn cycle, and recognize and understand prototyping methods.",Prerequisites: (ENGR 1100 or ECSE 1010 or MANE-1960) and (ENGR 1200 or ENGR 1400 or CIVL 1200 ) and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']",Engineering
-PROPULSION SYSTEMS,LEC,3,MR,8:30AM,9:50AM,Matthew Adam Oehlschlaeger,Academy Hall AUD,83,78,5,MANE,2024-08-28,2024-12-20,FALL 2024,67818,4080,01,MANE-4080,Propulsion Systems,"Analysis of thrust generation from rockets, gas turbines, and propellers. Applications of one- and two-dimensional compressible flow to analysis of propulsion systems. Gas turbine component performance including diffusers and nozzles, turbomachinery, and combustors.",Prerequisites: MANE 2710 and MANE 2720; or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,26,4,MANE,2024-08-28,2024-12-20,FALL 2024,65360,4240,01,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,30,26,4,MANE,2024-08-28,2024-12-20,FALL 2024,65360,4240,01,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,9,21,MANE,2024-08-28,2024-12-20,FALL 2024,69162,4240,02,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,30,9,21,MANE,2024-08-28,2024-12-20,FALL 2024,69162,4240,02,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
+NUCLEAR POWER SYST ENGR,LEC,3,TF,10:00AM,11:50AM,Shanbin Shi,Russell Sage Laboratory 2707,25,15,10,MANE,2024-08-28,2024-12-20,FALL 2024,68239,4400,01,MANE-4400,Nuclear Power Syst Engr,"Application of thermodynamics, heat transfer, and fluid flow principles to nuclear energy generation systems, including nuclear reactors, nuclear fusion devices and systems, and radiation technology. Engineering aspects of 1st and 2nd Laws of Thermodynamics will be emphasized. Characteristics and safety aspects of nuclear power equipment will be discussed.",Prerequisite: MANE 2720 and MANE 4730,When Offered: Fall term annually.,"['MANE 2720', 'MANE 4730']","['MANE 2720', 'MANE 4730']",Engineering
+ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,15,50,MANE,2024-08-28,2024-12-20,FALL 2024,68521,4560,01,MANE-4560,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.","Prerequisites: MATH 2400 and (MATH 2010 or (MATH 2011 and MATH 2012 )), and knowledge of MATLAB and Python.",When Offered: Fall term annually,"['MATH 2400', 'MATH 2010', 'MATH 2011', 'MATH 2012']","['MATH 2400', 'MATH 2010', 'MATH 2011', 'MATH 2012']",Engineering
+ENGR BIZ & TECH TRANSLATION,LEC,2,W,2:00PM,3:50PM,Clinton T. Ballinger,Darrin Communications Center 235,14,14,0,MANE,2024-08-28,2024-12-20,FALL 2024,69722,4966,01,MANE-4966,Engr Biz & Tech Translation,,,,[],[],Engineering
+INTRO COMPUTAT FLUID DYNAMICS,LEC,3,TF,12:00PM,1:20PM,Tara Gallaway Cohen,Russell Sage Laboratory 4112,30,9,21,MANE,2024-08-28,2024-12-20,FALL 2024,69313,6140,01,MANE-6140,Intro Computat Fluid Dynamics,"This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid-dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.","Prerequisites/Corequisites: MANE 2110, MANE 2720, and (MATH 2010 or (MATH 2011 and MATH 2012 )) or equivalents.",When Offered: Fall and Spring terms annually.,"['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']","['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,12:00PM,1:50PM,Thomas Clark Haley,Low Center for Industrial Inn. 3039,41,42,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68231,2110,01,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,2:00PM,3:50PM,Thomas Clark Haley,Low Center for Industrial Inn. 3039,41,40,1,MANE,2024-08-28,2024-12-20,FALL 2024,68234,2110,02,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,2:00PM,3:50PM,Shaowu Pan,Russell Sage Laboratory 3713,41,40,1,MANE,2024-08-28,2024-12-20,FALL 2024,68550,2110,03,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,12:00PM,1:50PM,Onkar Sahni,Folsom Library 107,41,42,-1,MANE,2024-08-28,2024-12-20,FALL 2024,69764,2110,04,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: (ENGR 1100,or MANE 1960) MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+PROPULSION SYSTEMS,LEC,3,MR,8:30AM,9:50AM,Matthew Adam Oehlschlaeger,Academy Hall AUD,83,80,3,MANE,2024-08-28,2024-12-20,FALL 2024,67818,4080,01,MANE-4080,Propulsion Systems,"Analysis of thrust generation from rockets, gas turbines, and propellers. Applications of one- and two-dimensional compressible flow to analysis of propulsion systems. Gas turbine component performance including diffusers and nozzles, turbomachinery, and combustors.",Prerequisites: MANE 2710 and MANE 2720; or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,23,7,MANE,2024-08-28,2024-12-20,FALL 2024,65360,4240,01,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Jacob Simon Merson,Pittsburgh Building 4206,30,23,7,MANE,2024-08-28,2024-12-20,FALL 2024,65360,4240,01,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,11,19,MANE,2024-08-28,2024-12-20,FALL 2024,69162,4240,02,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,8:00AM,9:50AM,Kartik Josyula,Pittsburgh Building 5216,30,11,19,MANE,2024-08-28,2024-12-20,FALL 2024,69162,4240,02,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
 FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,30,0,MANE,2024-08-28,2024-12-20,FALL 2024,68236,4240,03,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
 FINITE ELEMENT METHODS,LEC,3,W,10:00AM,11:50AM,Jacob Simon Merson,Pittsburgh Building 4206,30,30,0,MANE,2024-08-28,2024-12-20,FALL 2024,68236,4240,03,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
-FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,29,1,MANE,2024-08-28,2024-12-20,FALL 2024,68237,4240,04,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
-FINITE ELEMENT METHODS,LEC,3,W,10:00AM,11:50AM,Kartik Josyula,Pittsburgh Building 5216,30,29,1,MANE,2024-08-28,2024-12-20,FALL 2024,68237,4240,04,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
+FINITE ELEMENT METHODS,LEC,3,MR,8:30AM,9:50AM,Mark S Shephard,Darrin Communications Center 324,30,30,0,MANE,2024-08-28,2024-12-20,FALL 2024,68237,4240,04,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
+FINITE ELEMENT METHODS,LEC,3,W,10:00AM,11:50AM,Kartik Josyula,Pittsburgh Building 5216,30,30,0,MANE,2024-08-28,2024-12-20,FALL 2024,68237,4240,04,MANE-4240,Finite Element Methods,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
 FINITE ELEMENTS METHOD,LEC,3,,,,Ernesto Gutierrez-Miravete,Online ,25,7,18,MANE,2024-08-28,2024-12-20,FALL 2024,68584,4240,H01,MANE-4240,Finite Elements Method,"This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",Prerequisites: (ENGR 2530 or BMED 2540 ) and MATH 2400.,When Offered: Fall and spring terms annually.,"['ENGR 2530', 'BMED 2540', 'MATH 2400']","['ENGR 2530', 'BMED 2540', 'MATH 2400']",Engineering
-MANUFACTURING PROC & SYS LAB,LEC,4,MR,2:00PM,4:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,7,5,MANE,2024-08-28,2024-12-20,FALL 2024,69187,4610,01,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
-MANUFACTURING PROC & SYS LAB,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,7,5,MANE,2024-08-28,2024-12-20,FALL 2024,69187,4610,01,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
-MANUFACTURING PROC & SYS LAB,LEC,4,MR,10:00AM,12:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,12,0,MANE,2024-08-28,2024-12-20,FALL 2024,69188,4610,02,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
-MANUFACTURING PROC & SYS LAB,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,12,0,MANE,2024-08-28,2024-12-20,FALL 2024,69188,4610,02,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROC & SYS LAB,LEC,4,MR,2:00PM,4:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,8,4,MANE,2024-08-28,2024-12-20,FALL 2024,69187,4610,01,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROC & SYS LAB,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,8,4,MANE,2024-08-28,2024-12-20,FALL 2024,69187,4610,01,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROC & SYS LAB,LEC,4,MR,10:00AM,12:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Low Center for Industrial Inn. 1027,12,9,3,MANE,2024-08-28,2024-12-20,FALL 2024,69188,4610,02,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
+MANUFACTURING PROC & SYS LAB,LEC,4,W,12:00PM,1:50PM,Samuel G Chiappone/Madeleine Marie Dwyer/Larry David Oligny/Johnson Samuel,Jonsson Engineering Center 3232,12,9,3,MANE,2024-08-28,2024-12-20,FALL 2024,69188,4610,02,MANE-4610,Manufacturing Proc & Sys Lab,"Manufacturing theory, laboratory experimentation, and manufacturing systems design and development comprised of select modern manufacturing technologies. Technologies include robotics and automation, injection molding, computer numerically controlled (CNC) machining, metal forming, inspection, rapid prototyping, and advanced manufacturing topics. Student teams apply lessons to develop a proposal to produce a product requiring multiple coordinated manufacturing processes. Students prepare technical documentation for communicating key engineering and management aspects of the developed manufacturing system to a separate fabrication group.","Prerequisites: None; however, both ENGR 1300 and ENGR 2710 are suggested, not required.",When Offered: Fall term annually.,"['ENGR 1300', 'ENGR 2710']","['ENGR 1300', 'ENGR 2710']",Engineering
 TRIBOLOGY,LEC,3,MR,10:00AM,11:20AM,Thierry Blanchet,Russell Sage Laboratory 4112,16,10,6,MANE,2024-08-28,2024-12-20,FALL 2024,69708,6730,01,MANE-6730,Tribology,"A basic course in tribology that covers both the fundamental and applied aspects of the subject. Content includes viscometry, the Reynolds equation, thrust and journal bearings (including design), thermal effects, dynamic loading and instability of bearings, rolling contact bearings, dry bearings, and theories of wear. This course includes design principles and data and is basic to other courses offered in tribology.",,When Offered: Fall term even-numbered years.,[],[],Engineering
-ADJOINTS FOR ENGINEERS,LEC,3,W,2:00PM,4:50PM,Jason Edward Hicken,Darrin Communications Center 232,15,11,4,MANE,2024-08-28,2024-12-20,FALL 2024,69713,6960,01,MANE-6960,Adjoints For Engineers,,,When Offered: Fall and spring terms annually.,[],[],Engineering
-FLIGHT MECHANICS,LEC,4,MR,2:00PM,3:50PM,Michael Amitay,Low Center for Industrial Inn. 3039,43,40,3,MANE,2024-08-28,2024-12-20,FALL 2024,65359,4090,01,MANE-4090,Flight Mechanics,"Performance, stability, and control of airplanes. General equations of motion for rigid aircraft, aerodynamic forces and moments, quasi-steady and nonsteady flight paths. Generalized performance methods, flight envelope. Small disturbance theory, stability derivatives, longitudinal and lateral static stability. Basic airplane motion, response to control actions and to atmospheric disturbances. Automatic flight control. Simulation of aircraft performance and dynamics.",Prerequisites: MANE 4070 and MANE 4500,When Offered: Fall term annually.,"['MANE 4070', 'MANE 4500']","['MANE 4070', 'MANE 4500']",Engineering
-SPACE VEHICLE DESIGN,LEC,3,TF,12:00PM,1:50PM,Kurt S Anderson,Carnegie Building 201,42,46,-4,MANE,2024-08-28,2024-12-20,FALL 2024,68603,4250,01,MANE-4250,Space Vehicle Design,"This course introduces all elements of the spacecraft system design process from proposal preparation through detailed specification. Students are organized into design teams associated with different subsystems and tasks, to develop a solution to a space vehicle system problem of practical interest, by drawing on their background in aerospace engineering science and design. Topics include problem definition and requirement analysis, design specifications, concept development, reliability, materials considerations of alternative solutions, materials considerations, risk assessment and mitigation, manufacturability, mission analysis, and presentation skills. This is a communication-intensive course.",Prerequisites/Corequisites: MANE 4100 is strongly recommended but not required. Restricted to AERO and ASPC majors with senior standing; other majors are encouraged to request permission of the instructor based on interest and applicable background.,When Offered: Fall term annually.,['MANE 4100'],['MANE 4100'],Engineering
-SPACE VEHICLE DESIGN,LEC,3,TF,2:00PM,3:50PM,Leonid Pogorelyuk,Russell Sage Laboratory 5510,30,20,10,MANE,2024-08-28,2024-12-20,FALL 2024,68604,4250,02,MANE-4250,Space Vehicle Design,"This course introduces all elements of the spacecraft system design process from proposal preparation through detailed specification. Students are organized into design teams associated with different subsystems and tasks, to develop a solution to a space vehicle system problem of practical interest, by drawing on their background in aerospace engineering science and design. Topics include problem definition and requirement analysis, design specifications, concept development, reliability, materials considerations of alternative solutions, materials considerations, risk assessment and mitigation, manufacturability, mission analysis, and presentation skills. This is a communication-intensive course.",Prerequisites/Corequisites: MANE 4100 is strongly recommended but not required. Restricted to AERO and ASPC majors with senior standing; other majors are encouraged to request permission of the instructor based on interest and applicable background.,When Offered: Fall term annually.,['MANE 4100'],['MANE 4100'],Engineering
+ADJOINTS FOR ENGINEERS,LEC,3,W,2:00PM,4:50PM,Jason Edward Hicken,Darrin Communications Center 232,15,8,7,MANE,2024-08-28,2024-12-20,FALL 2024,69713,6960,01,MANE-6960,Adjoints For Engineers,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+INVENTOR'S STUDIO 1,LEC,4,MR,12:00PM,1:50PM,Casey Jay Hoffman/Tracy N. Sullivan/Jordan L Vener,Russell Sage Laboratory 2211,28,28,0,MANE,2024-08-28,2024-12-20,FALL 2024,67834,2220,01,MANE-2220,INVENTOR'S Studio 1,"A first course in enhancing critical skills for leaders of technological innovation. The course emphasizes creativity, teamwork, communication and work across engineering disciplines. Students learn how to build on personal and innate talents through critical thinking skills, design-oriented mindsets, and an understanding of appropriate tool and process selection. Students will utilize tools and processes for ideation and innovation, develop ideas from concepts to minimum viable products via the ideate - build - learn cycle, and recognize and understand prototyping methods.",Prerequisites: (ENGR 1100 or ECSE 1010 or MANE-1960) and (ENGR 1200 or ENGR 1400 or CIVL 1200 ) and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']",Engineering
+FLIGHT MECHANICS,LEC,4,MR,2:00PM,3:50PM,Michael Amitay,Low Center for Industrial Inn. 3039,43,38,5,MANE,2024-08-28,2024-12-20,FALL 2024,65359,4090,01,MANE-4090,Flight Mechanics,"Performance, stability, and control of airplanes. General equations of motion for rigid aircraft, aerodynamic forces and moments, quasi-steady and nonsteady flight paths. Generalized performance methods, flight envelope. Small disturbance theory, stability derivatives, longitudinal and lateral static stability. Basic airplane motion, response to control actions and to atmospheric disturbances. Automatic flight control. Simulation of aircraft performance and dynamics.",Prerequisites: MANE 4070 and MANE 4500,When Offered: Fall term annually.,"['MANE 4070', 'MANE 4500']","['MANE 4070', 'MANE 4500']",Engineering
+SPACE VEHICLE DESIGN,LEC,3,TF,12:00PM,1:50PM,Kurt S Anderson,Carnegie Building 201,42,45,-3,MANE,2024-08-28,2024-12-20,FALL 2024,68603,4250,01,MANE-4250,Space Vehicle Design,"This course introduces all elements of the spacecraft system design process from proposal preparation through detailed specification. Students are organized into design teams associated with different subsystems and tasks, to develop a solution to a space vehicle system problem of practical interest, by drawing on their background in aerospace engineering science and design. Topics include problem definition and requirement analysis, design specifications, concept development, reliability, materials considerations of alternative solutions, materials considerations, risk assessment and mitigation, manufacturability, mission analysis, and presentation skills. This is a communication-intensive course.",Prerequisites/Corequisites: MANE 4100 is strongly recommended but not required. Restricted to AERO and ASPC majors with senior standing; other majors are encouraged to request permission of the instructor based on interest and applicable background.,When Offered: Fall term annually.,['MANE 4100'],['MANE 4100'],Engineering
+SPACE VEHICLE DESIGN,LEC,3,TF,2:00PM,3:50PM,Leonid Pogorelyuk,Russell Sage Laboratory 5510,30,21,9,MANE,2024-08-28,2024-12-20,FALL 2024,68604,4250,02,MANE-4250,Space Vehicle Design,"This course introduces all elements of the spacecraft system design process from proposal preparation through detailed specification. Students are organized into design teams associated with different subsystems and tasks, to develop a solution to a space vehicle system problem of practical interest, by drawing on their background in aerospace engineering science and design. Topics include problem definition and requirement analysis, design specifications, concept development, reliability, materials considerations of alternative solutions, materials considerations, risk assessment and mitigation, manufacturability, mission analysis, and presentation skills. This is a communication-intensive course.",Prerequisites/Corequisites: MANE 4100 is strongly recommended but not required. Restricted to AERO and ASPC majors with senior standing; other majors are encouraged to request permission of the instructor based on interest and applicable background.,When Offered: Fall term annually.,['MANE 4100'],['MANE 4100'],Engineering
 MANE LABORATORY SAFETY PROGRAM,LEC,0,,,,Thomas Clark Haley,TBA,0,0,0,MANE,2024-08-28,2024-12-20,FALL 2024,67842,4880,01,MANE-4880,Mane Laboratory Safety Program,,,,[],[],Engineering
 ADVANCED ENGR MATHEMATICS I,LEC,3,,,,Francisco J Cunha,TBA,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,67843,5000,01,MANE-5000,Advanced Engr Mathematics I,"A presentation of mathematical methods useful in engineering practice. The course covers analytical and numerical techniques used in linear algebra, the numerical solution of nonlinear equations, the foundations of vector and tensor algebra and an introduction to vector operators. Also covered are methods of polynomial and trigonometric interpolation and approximation, numerical solution methods for initial and boundary value problems for ordinary differential equations and an overview of the fundamentals of probability and statistics including random variables, density and distribution functions and hypothesis testing. Symbolic manipulation and scientific computation software used extensively. Emphasis on reliable computing is made throughout.",,,[],[],Engineering
 ADVANCED ENGR MATHEMATICS I,LEC,3,,,,Francisco J Cunha,Online ,25,2,23,MANE,2024-08-28,2024-12-20,FALL 2024,67669,5000,H01,MANE-5000,Advanced Engr Mathematics I,"A presentation of mathematical methods useful in engineering practice. The course covers analytical and numerical techniques used in linear algebra, the numerical solution of nonlinear equations, the foundations of vector and tensor algebra and an introduction to vector operators. Also covered are methods of polynomial and trigonometric interpolation and approximation, numerical solution methods for initial and boundary value problems for ordinary differential equations and an overview of the fundamentals of probability and statistics including random variables, density and distribution functions and hypothesis testing. Symbolic manipulation and scientific computation software used extensively. Emphasis on reliable computing is made throughout.",,,[],[],Engineering
-MECHANICS OF SOLIDS,LEC,3,TF,8:30AM,9:50AM,Antoinette Maniatty,Darrin Communications Center 232,20,13,7,MANE,2024-08-28,2024-12-20,FALL 2024,66443,6170,01,MANE-6170,Mechanics Of Solids,"This course provides an introduction to the mechanics of solids from a continuum perspective. Topics covered in this course include: vector and tensor analysis, coordinate systems and calculus in curvilinear coordinate systems, kinematics (motion, deformation and strain), stress and momentum balance, energy principles and balance laws, linear isotropic and anisotropic elasticity, thermoelasticity, method of solutions for 2D and 3D linear elastic boundary value problems, applications to simple structures.",,When Offered: Fall term annually.,[],[],Engineering
-ADVANCED SPACEFLIGHT MECH,LEC,3,MR,12:00PM,1:20PM,Sandeep Singh,Materials Research Center 136,21,15,6,MANE,2024-08-28,2024-12-20,FALL 2024,69714,6961,01,MANE-6961,Advanced Spaceflight Mech,,,,[],[],Engineering
-THERMODYNAMICS,LEC,3,TF,8:30AM,9:50AM,James Edward Olson,Darrin Communications Center 324,165,151,14,MANE,2024-08-28,2024-12-20,FALL 2024,68232,2710,01,MANE-2710,Thermodynamics,"Introduction to the First and Second Laws of Thermodynamics for open and closed systems. Thermodynamic properties of solids, liquids, and gases. Elementary power and refrigeration cycles.",Prerequisites: MATH 1020 and (PHYS 1100 or PHYS 1150 or PHYS 1110 ).,When Offered: Fall and spring terms annually.,"['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']","['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']",Engineering
-THERMODYNAMICS,LEC,3,TF,10:00AM,11:20AM,James Edward Olson,Darrin Communications Center 324,165,165,0,MANE,2024-08-28,2024-12-20,FALL 2024,68233,2710,02,MANE-2710,Thermodynamics,"Introduction to the First and Second Laws of Thermodynamics for open and closed systems. Thermodynamic properties of solids, liquids, and gases. Elementary power and refrigeration cycles.",Prerequisites: MATH 1020 and (PHYS 1100 or PHYS 1150 or PHYS 1110 ).,When Offered: Fall and spring terms annually.,"['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']","['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Casey Jay Hoffman/Junichi Kanai,Jonsson Engineering Center 3332,15,14,1,MANE,2024-08-28,2024-12-20,FALL 2024,65361,4260,01,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Sandipan Mishra,Jonsson Engineering Center 3332,12,12,0,MANE,2024-08-28,2024-12-20,FALL 2024,65362,4260,02,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Clinton T. Ballinger/Junichi Kanai,Jonsson Engineering Center 3332,25,25,0,MANE,2024-08-28,2024-12-20,FALL 2024,65490,4260,03,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Ukwatte Lokuliyanage Indika Upendra Perera,Jonsson Engineering Center 3332,18,18,0,MANE,2024-08-28,2024-12-20,FALL 2024,66287,4260,04,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
-AEROELASTICITY & STRUCT VIBES,LEC,3,TF,8:30AM,9:50AM,Robert John Niemiec,Russell Sage Laboratory 5510,64,56,8,MANE,2024-08-28,2024-12-20,FALL 2024,67813,4900,01,MANE-4900,Aeroelasticity & Struct Vibes,"Basic concepts in static and dynamic aeroelasticity. Structural vibrations, free and forced motion of discrete and continuous structures, introduction to modal analysis, and use of materials for dynamics tailoring. Aeroelastic behavior of complex structures, dynamic aeroelasticity. The phenomena of divergence, control surface effectiveness, and flutter and the use of composite materials for aeroelastic tailoring. The role of numerical methods will be emphasized.",Prerequisites: MANE 4060 and MATH 2400,When Offered: Fall and spring terms annually.,"['MANE 4060', 'MATH 2400']","['MANE 4060', 'MATH 2400']",Engineering
-NANO MICRO SCALE HEAT CONDUCT,LEC,3,TF,12:00PM,1:20PM,Theodorian Borca-Tasciuc,Russell Sage Laboratory 2707,14,7,7,MANE,2024-08-28,2024-12-20,FALL 2024,69183,6962,01,MANE-6962,Nano Micro Scale Heat Conduct,,,,[],[],Engineering
+MECHANICS OF SOLIDS,LEC,3,TF,8:30AM,9:50AM,Antoinette Maniatty,Darrin Communications Center 232,20,10,10,MANE,2024-08-28,2024-12-20,FALL 2024,66443,6170,01,MANE-6170,Mechanics Of Solids,"This course provides an introduction to the mechanics of solids from a continuum perspective. Topics covered in this course include: vector and tensor analysis, coordinate systems and calculus in curvilinear coordinate systems, kinematics (motion, deformation and strain), stress and momentum balance, energy principles and balance laws, linear isotropic and anisotropic elasticity, thermoelasticity, method of solutions for 2D and 3D linear elastic boundary value problems, applications to simple structures.",,When Offered: Fall term annually.,[],[],Engineering
+ADVANCED SPACEFLIGHT MECH,LEC,3,MR,12:00PM,1:20PM,Sandeep Singh,Materials Research Center 136,21,18,3,MANE,2024-08-28,2024-12-20,FALL 2024,69714,6961,01,MANE-6961,Advanced Spaceflight Mech,,,,[],[],Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Casey Jay Hoffman/Junichi Kanai,Jonsson Engineering Center 3332,0,15,-15,MANE,2024-08-28,2024-12-20,FALL 2024,65361,4260,01,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Sandipan Mishra,Jonsson Engineering Center 3332,0,11,-11,MANE,2024-08-28,2024-12-20,FALL 2024,65362,4260,02,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Clinton T. Ballinger/Junichi Kanai,Jonsson Engineering Center 3332,0,25,-25,MANE,2024-08-28,2024-12-20,FALL 2024,65490,4260,03,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Ukwatte Lokuliyanage Indika Upendra Perera,Jonsson Engineering Center 3332,0,18,-18,MANE,2024-08-28,2024-12-20,FALL 2024,66287,4260,04,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220; restricted to MECL majors with senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+AEROELASTICITY & STRUCT VIBES,LEC,3,TF,8:30AM,9:50AM,Robert John Niemiec,Russell Sage Laboratory 5510,64,51,13,MANE,2024-08-28,2024-12-20,FALL 2024,67813,4900,01,MANE-4900,Aeroelasticity & Struct Vibes,"Basic concepts in static and dynamic aeroelasticity. Structural vibrations, free and forced motion of discrete and continuous structures, introduction to modal analysis, and use of materials for dynamics tailoring. Aeroelastic behavior of complex structures, dynamic aeroelasticity. The phenomena of divergence, control surface effectiveness, and flutter and the use of composite materials for aeroelastic tailoring. The role of numerical methods will be emphasized.",Prerequisites: MANE 4060 and MATH 2400,When Offered: Fall and spring terms annually.,"['MANE 4060', 'MATH 2400']","['MANE 4060', 'MATH 2400']",Engineering
+NANO MICRO SCALE HEAT CONDUCT,LEC,3,TF,12:00PM,1:20PM,Theodorian Borca-Tasciuc,Russell Sage Laboratory 2707,14,6,8,MANE,2024-08-28,2024-12-20,FALL 2024,69183,6962,01,MANE-6962,Nano Micro Scale Heat Conduct,,,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,John A Tichy,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66132,9990,01,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Shaowu Pan,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,65346,9990,02,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Antoinette Maniatty,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,65336,9990,03,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -941,21 +966,21 @@ DISSERTATION,LEC,1-16,,,,Thierry Blanchet,TBA,10,1,9,MANE,2024-08-28,2024-12-20,
 DISSERTATION,LEC,1-16,,,,Prabhat Hajela,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66178,9990,06,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Hyun Gook Kang,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,65338,9990,07,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Li Liu,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,66182,9990,08,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Franck Berol Djeumou Mbouwe,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,66186,9990,09,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Franck Berol Djeumou Mbouwe,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66186,9990,09,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Kurt S Anderson,TBA,10,0,10,MANE,2024-08-28,2024-12-20,FALL 2024,65339,9990,10,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Diana Andra Borca Tasciuc,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66194,9990,11,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Amir Hirsa,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,65348,9990,13,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Daniel Walczyk,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,66305,9990,14,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Daniel Walczyk,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66305,9990,14,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Catalin R Picu,TBA,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,65341,9990,15,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Jie Lian,TBA,10,5,5,MANE,2024-08-28,2024-12-20,FALL 2024,66345,9990,16,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Jie Lian,TBA,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,66345,9990,16,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Wei Ji,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66346,9990,17,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Fudong Han,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66359,9990,19,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Sandipan Mishra,TBA,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,66803,9990,20,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Johnson Samuel,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66805,9990,21,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Suvranu De,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,65349,9990,22,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Sandeep Singh,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67894,9990,24,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Sandeep Singh,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,67894,9990,24,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Mark S Shephard,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,65351,9990,28,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Fotios Kopsaftopoulos,TBA,10,5,5,MANE,2024-08-28,2024-12-20,FALL 2024,66983,9990,29,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Fotios Kopsaftopoulos,TBA,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,66983,9990,29,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Shaowu Pan,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,65875,9990,30,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Yaron Danon,TBA,10,7,3,MANE,2024-08-28,2024-12-20,FALL 2024,65354,9990,37,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Kristen Lynn Mills,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,67461,9990,38,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -966,7 +991,7 @@ DISSERTATION,LEC,1-16,,,,Shanbin Shi,TBA,10,5,5,MANE,2024-08-28,2024-12-20,FALL
 DISSERTATION,LEC,1-16,,,,Michael Amitay,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,65409,9990,47,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Shankar Narayan,TBA,10,6,4,MANE,2024-08-28,2024-12-20,FALL 2024,67475,9990,50,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Matthew Adam Oehlschlaeger,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,65870,9990,51,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-DISSERTATION,LEC,1-16,,,,Jason Edward Hicken,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66971,9990,54,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Jason Edward Hicken,TBA,10,5,5,MANE,2024-08-28,2024-12-20,FALL 2024,66971,9990,54,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Farhan Gandhi,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,66973,9990,55,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,John Wen,TBA,10,1,9,MANE,2024-08-28,2024-12-20,FALL 2024,65986,9990,56,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Lucy T. Zhang,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,66020,9990,61,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
@@ -974,24 +999,32 @@ DISSERTATION,LEC,1-16,,,,Hunter Christophe Belanger,TBA,10,1,9,MANE,2024-08-28,2
 DISSERTATION,LEC,1-16,,,,Jacob Simon Merson,TBA,10,4,6,MANE,2024-08-28,2024-12-20,FALL 2024,69425,9990,72,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Leonid Pogorelyuk,TBA,10,3,7,MANE,2024-08-28,2024-12-20,FALL 2024,69428,9990,73,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 DISSERTATION,LEC,1-16,,,,Ozgur Tumuklu,TBA,10,2,8,MANE,2024-08-28,2024-12-20,FALL 2024,69431,9990,74,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-FLUID MECHANICS,LEC,3,MR,4:00PM,5:20PM,Ozgur Tumuklu,Darrin Communications Center 337,114,110,4,MANE,2024-08-28,2024-12-20,FALL 2024,68235,2720,01,MANE-2720,Fluid Mechanics,"The fundamentals of fluid statics and dynamics. Hydrostatics, fluid flow fields, control-volume analysis, and the Navier-Stokes equations. Inviscid, viscous, and turbulent flows. Similitude, boundary layers, internal and external flows.","Prerequisites: ENGR 1100, (PHYS 1100 or PHYS 1110 or PHYS 1150 ) Prerequisites or Corequisites: (MATH 2010 * or MATH 2011 *) and MATH 2400 *. (*can also be taken simultaneously)","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+THERMODYNAMICS,LEC,3,TF,8:30AM,9:50AM,James Edward Olson,Darrin Communications Center 324,165,141,24,MANE,2024-08-28,2024-12-20,FALL 2024,68232,2710,01,MANE-2710,Thermodynamics,"Introduction to the First and Second Laws of Thermodynamics for open and closed systems. Thermodynamic properties of solids, liquids, and gases. Elementary power and refrigeration cycles.",Prerequisites: MATH 1020 and (PHYS 1100 or PHYS 1150 or PHYS 1110 ).,When Offered: Fall and spring terms annually.,"['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']","['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']",Engineering
+THERMODYNAMICS,LEC,3,TF,10:00AM,11:20AM,James Edward Olson,Darrin Communications Center 324,165,161,4,MANE,2024-08-28,2024-12-20,FALL 2024,68233,2710,02,MANE-2710,Thermodynamics,"Introduction to the First and Second Laws of Thermodynamics for open and closed systems. Thermodynamic properties of solids, liquids, and gases. Elementary power and refrigeration cycles.",Prerequisites: MATH 1020 and (PHYS 1100 or PHYS 1150 or PHYS 1110 ).,When Offered: Fall and spring terms annually.,"['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']","['MATH 1020', 'PHYS 1100', 'PHYS 1150', 'PHYS 1110']",Engineering
 HELI AERODYNAMIC & PERFORMANCE,LEC,4,TF,10:00AM,11:50AM,Robert John Niemiec,Materials Research Center 136,12,5,7,MANE,2024-08-28,2024-12-20,FALL 2024,69703,4120,01,MANE-4120,Heli Aerodynamic & Performance,"Aerodynamic analysis of rotocraft in hover, axial, and edgewise flight. Rotor blade flapping, and response to rotor pitch controls. Rotor hub loads and aircraft equilibrium procedures. Helicopter performance calculations. Effect of rotor design on rotor aerodynamic performance.",Prerequisite: MANE 4070,When Offered: Upon availability of instructor,['MANE 4070'],['MANE 4070'],Engineering
-NUMERICAL DESIGN OPTIMIZATION,LEC,3,TF,10:00AM,11:20AM,Jason Edward Hicken,Troy Building 2012,68,42,26,MANE,2024-08-28,2024-12-20,FALL 2024,67665,4280,01,MANE-4280,Numerical Design Optimization,"This course introduces the theory and practical use of numerical design optimization methods. Topics include: gradient-based methods for unconstrained and constrained nonlinear optimization; numerical evaluation of derivatives; polynomial- and kriging-based surrogate models; gradient-free optimization methods; optimization under uncertainty; multi-objective and multi-disciplinary optimization. Projects require the use of computer programs to generate numerical results; therefore, experience with programming is highly recommended.","Prerequisites: (MATH 2010 or (MATH 2011 and MATH 2012 )) and (MANE 2110 or CSCI 1100, or permission of instructor).",When Offered: Fall term annually.,"['MATH 2010', 'MATH 2011', 'MANE 2110', 'CSCI 1100']","['MATH 2010', 'MATH 2011', 'MANE 2110', 'CSCI 1100']",Engineering
-FLUID DYNAMICS LAB,LEC,2,W,8:00AM,9:50AM,Kathleen M. Stockton/Kevin Wayne Housley,Jonsson Engineering Center 2220,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,65364,4910,01,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
-FLUID DYNAMICS LAB,LEC,2,W,10:00AM,11:50AM,Kathleen M. Stockton/Kevin Wayne Housley,Jonsson Engineering Center 2220,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,65485,4910,02,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
-FLUID DYNAMICS LAB,LEC,2,W,12:00PM,1:50PM,Kathleen M. Stockton/M Arshad Zahangir Chowdhury,Jonsson Engineering Center 2220,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,65486,4910,03,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
-FLUID DYNAMICS LAB,LEC,2,W,2:00PM,3:50PM,Kathleen M. Stockton/M Arshad Zahangir Chowdhury,Jonsson Engineering Center 2220,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,65487,4910,04,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
-FLUID DYNAMICS LAB,LEC,2,R,8:00AM,9:50AM,Kathleen M. Stockton/Kevin Wayne Housley,Jonsson Engineering Center 2220,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,68071,4910,05,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
-FLUID DYNAMICS LAB,LEC,2,R,10:00AM,11:50AM,Kathleen M. Stockton/Kevin Wayne Housley,Jonsson Engineering Center 2220,10,11,-1,MANE,2024-08-28,2024-12-20,FALL 2024,68072,4910,06,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+NUMERICAL DESIGN OPTIMIZATION,LEC,3,TF,10:00AM,11:20AM,Jason Edward Hicken,Troy Building 2012,68,39,29,MANE,2024-08-28,2024-12-20,FALL 2024,67665,4280,01,MANE-4280,Numerical Design Optimization,"This course introduces the theory and practical use of numerical design optimization methods. Topics include: gradient-based methods for unconstrained and constrained nonlinear optimization; numerical evaluation of derivatives; polynomial- and kriging-based surrogate models; gradient-free optimization methods; optimization under uncertainty; multi-objective and multi-disciplinary optimization. Projects require the use of computer programs to generate numerical results; therefore, experience with programming is highly recommended.","Prerequisites: (MATH 2010 or (MATH 2011 and MATH 2012 )) and (MANE 2110 or CSCI 1100, or permission of instructor).",When Offered: Fall term annually.,"['MATH 2010', 'MATH 2011', 'MANE 2110', 'CSCI 1100']","['MATH 2010', 'MATH 2011', 'MANE 2110', 'CSCI 1100']",Engineering
+FLUID DYNAMICS LAB,LEC,2,W,8:00AM,9:50AM,Kevin Wayne Housley,Jonsson Engineering Center 2220,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,65364,4910,01,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,W,10:00AM,11:50AM,Kevin Wayne Housley,Jonsson Engineering Center 2220,10,12,-2,MANE,2024-08-28,2024-12-20,FALL 2024,65485,4910,02,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,W,12:00PM,1:50PM,M Arshad Zahangir Chowdhury,Jonsson Engineering Center 2220,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,65486,4910,03,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,W,2:00PM,3:50PM,M Arshad Zahangir Chowdhury,Jonsson Engineering Center 2220,10,10,0,MANE,2024-08-28,2024-12-20,FALL 2024,65487,4910,04,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,R,8:00AM,9:50AM,Kevin Wayne Housley,Jonsson Engineering Center 2220,10,9,1,MANE,2024-08-28,2024-12-20,FALL 2024,68071,4910,05,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,R,10:00AM,11:50AM,Kevin Wayne Housley,Jonsson Engineering Center 2220,10,12,-2,MANE,2024-08-28,2024-12-20,FALL 2024,68072,4910,06,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
 ENGINEERING ACOUSTICS,LEC,3,W,10:00AM,12:50PM,Ning Xiang,Low Center for Industrial Inn. 3116,17,0,17,MANE,2024-08-28,2024-12-20,FALL 2024,69184,6963,01,MANE-6963,Engineering Acoustics,,,,[],[],Engineering
-NUCLEAR PHENOMENA FOR ENGINEERING APPLICATIONS,LEC,4,TF,12:00PM,1:50PM,Li Liu,Darrin Communications Center 239,30,24,6,MANE,2024-08-28,2024-12-20,FALL 2024,68048,2830,01,MANE-2830,Nuclear Phenomena For Engineering Applications,"A survey of atomic and nuclear phenomena and their application in various engineering disciplines. Systematics of atoms and nuclei; nuclear reactions and their characterization; radioactive decay; fission and fusion energy release; radiation effects on materials and biological systems; radiation production, detection, and protection. Applications include energy production, manufacturing, and medicine.",Prerequisites: (PHYS 1100 or PHYS 1150 or PHYS 1110 ) and (CHEM 1100 or CHEM 1110 or CHEM 1120 ).,When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
-RADIATION TRANSPORT METHODS,LEC,3,MR,12:00PM,1:20PM,Wei Ji,Low Center for Industrial Inn. 4034,15,6,9,MANE,2024-08-28,2024-12-20,FALL 2024,69164,4290,01,MANE-4290,Radiation Transport Methods,"This course will present the foundations of numerical (deterministic) and Monte Carlo methods that are widely used in the modeling and analysis of nuclear reactor design, radiation dosimetry, and radiation shielding. Emphasis will be placed on the three fundamental aspects of computation methods: (i) discretization methods for the transport and diffusion equations; (ii) iterative methods for solving the system of discretized equations; and (iii) Monte Carlo methods for solving general fixed-source and eigenvalue problems.",Prerequisites: MANE 2110 and MANE 4480,When Offered: Fall term.,"['MANE 2110', 'MANE 4480']","['MANE 2110', 'MANE 4480']",Engineering
-AEROSPACE STRUCTURES AND CONTROL LABORATORY,LEC,2,W,9:00AM,11:50AM,Nikhil Koratkar,Pittsburgh Building 5114,40,29,11,MANE,2024-08-28,2024-12-20,FALL 2024,67814,4920,01,MANE-4920,Aerospace Structures And Control Laboratory,"Laboratory experiments with emphasis on the static and dynamic response of lightweight and flexible structures, that are used in aircraft, spacecraft, and rotorcraft. Experiments include tensile testing, buckling characterization, free and forced vibration testing, damping measurement, and high strain-rate impact loading of fiber-reinforced composite materials.",Prerequisite: MANE 4060,When Offered: Fall and spring terms annually.,['MANE 4060'],['MANE 4060'],Engineering
+FLUID MECHANICS,LEC,3,MR,4:00PM,5:20PM,Ozgur Tumuklu,Darrin Communications Center 337,114,112,2,MANE,2024-08-28,2024-12-20,FALL 2024,68235,2720,01,MANE-2720,Fluid Mechanics,"The fundamentals of fluid statics and dynamics. Hydrostatics, fluid flow fields, control-volume analysis, and the Navier-Stokes equations. Inviscid, viscous, and turbulent flows. Similitude, boundary layers, internal and external flows.","Prerequisites: ENGR 1100, (PHYS 1100 or PHYS 1110 or PHYS 1150 ) Prerequisites or Corequisites: (MATH 2010 * or MATH 2011 *) and MATH 2400 *. (*can also be taken simultaneously)","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']","['ENGR 1100', 'PHYS 1100', 'PHYS 1110', 'PHYS 1150']",Engineering
+RADIATION TRANSPORT METHODS,LEC,3,MR,12:00PM,1:20PM,Wei Ji,Low Center for Industrial Inn. 4034,15,5,10,MANE,2024-08-28,2024-12-20,FALL 2024,69164,4290,01,MANE-4290,Radiation Transport Methods,"This course will present the foundations of numerical (deterministic) and Monte Carlo methods that are widely used in the modeling and analysis of nuclear reactor design, radiation dosimetry, and radiation shielding. Emphasis will be placed on the three fundamental aspects of computation methods: (i) discretization methods for the transport and diffusion equations; (ii) iterative methods for solving the system of discretized equations; and (iii) Monte Carlo methods for solving general fixed-source and eigenvalue problems.",Prerequisites: MANE 2110 and MANE 4480,When Offered: Fall term.,"['MANE 2110', 'MANE 4480']","['MANE 2110', 'MANE 4480']",Engineering
+AEROSPACE STRUCTURES AND CONTROL LABORATORY,LEC,2,W,9:00AM,11:50AM,Nikhil Koratkar,Pittsburgh Building 5114,40,28,12,MANE,2024-08-28,2024-12-20,FALL 2024,67814,4920,01,MANE-4920,Aerospace Structures And Control Laboratory,"Laboratory experiments with emphasis on the static and dynamic response of lightweight and flexible structures, that are used in aircraft, spacecraft, and rotorcraft. Experiments include tensile testing, buckling characterization, free and forced vibration testing, damping measurement, and high strain-rate impact loading of fiber-reinforced composite materials.",Prerequisite: MANE 4060,When Offered: Fall and spring terms annually.,['MANE 4060'],['MANE 4060'],Engineering
 AEROSPACE STRUCTURES AND CONTROL LABORATORY,LEC,2,W,2:00PM,4:50PM,Nikhil Koratkar,Pittsburgh Building 5114,40,37,3,MANE,2024-08-28,2024-12-20,FALL 2024,68243,4920,02,MANE-4920,Aerospace Structures And Control Laboratory,"Laboratory experiments with emphasis on the static and dynamic response of lightweight and flexible structures, that are used in aircraft, spacecraft, and rotorcraft. Experiments include tensile testing, buckling characterization, free and forced vibration testing, damping measurement, and high strain-rate impact loading of fiber-reinforced composite materials.",Prerequisite: MANE 4060,When Offered: Fall and spring terms annually.,['MANE 4060'],['MANE 4060'],Engineering
-SYSTEMS ANALYSIS TECHNIQUES,LEC,3,MR,10:00AM,11:50AM,Anak Agung Julius,Russell Sage Laboratory 5510,50,20,30,MANE,2024-08-28,2024-12-20,FALL 2024,67405,6600,01,MANE-6600,Systems Analysis Techniques,"Methods of analysis for continuous and discrete-time linear systems. Convolution, classical solution of dynamic equations, transforms and matrices are reviewed. Emphasis is on the concept of state space. Linear spaces, concept of state, modes, controllability, observability, state transition matrix. State variable feedback, compensation, decoupling.",Prerequisite: MANE 4500 or ECSE 2410,When Offered: Fall term annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
-COMPUTATIONAL REACTOR DESIGN,LEC,3,MR,10:00AM,11:20AM,Hunter Christophe Belanger,Jonsson Engineering Center 4304,25,12,13,MANE,2024-08-28,2024-12-20,FALL 2024,69716,6964,01,MANE-6964,Computational Reactor Design,,,,[],[],Engineering
-MATERIAL INFORMATICS AND DATA,LEC,3,TF,8:00AM,9:20AM,Ravishankar Sundararaman,Low Center for Industrial Inn. 4040,16,6,10,MTLE,2024-08-28,2024-12-20,FALL 2024,69700,6730,01,MTLE-6730,Material Informatics And Data,"Introduction to data science and machine learning, with case studies in discovery of structure-property relationships and new materials from experimental and computational data. Brief review of required background in linear algebra and statistics with hands-on exercises in Python. Data science topics: model fitting, clustering, dimensionality reduction, ontologies, Bayesian inference, and design of experiments.","Prerequisites/Corequisites: ENGR 2600, or equivalent.","When Offered: Fall term, even years",['ENGR 2600'],['ENGR 2600'],Engineering
-ADVANCED MECHANICAL PROPERTIES,LEC,4,MR,10:00AM,11:50AM,Rahmi Ozisik,Materials Research Center 136,28,7,21,MTLE,2024-08-28,2024-12-20,FALL 2024,66297,6250,01,MTLE-6250,Advanced Mechanical Properties,"The phenomenological, mechanistic, and micro-structural aspects of the mechanical properties of materials are developed, with particular emphasis on the similarities and differences among various material systems including metals, ceramics, and polymers. Phenomenological aspects of the three-dimensional characteristics of stress and strain, various yield criteria, elastic behavior, viscoelastic behavior, plastic behavior, statistical aspects of brittle fracture and fracture mechanics are presented. Mechanistic and micro-structural topics include edge and screw dislocation behavior, slip systems, critical resolved shear stress, dislocation multiplication and interactions, barriers to motion, polymer chain conformation and entropy.",,When Offered: Fall term annually.,[],[],Engineering
+SYSTEMS ANALYSIS TECHNIQUES,LEC,3,MR,10:00AM,11:50AM,Anak Agung Julius,Russell Sage Laboratory 5510,50,19,31,MANE,2024-08-28,2024-12-20,FALL 2024,67405,6600,01,MANE-6600,Systems Analysis Techniques,"Methods of analysis for continuous and discrete-time linear systems. Convolution, classical solution of dynamic equations, transforms and matrices are reviewed. Emphasis is on the concept of state space. Linear spaces, concept of state, modes, controllability, observability, state transition matrix. State variable feedback, compensation, decoupling.",Prerequisite: MANE 4500 or ECSE 2410,When Offered: Fall term annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
+COMPUTATIONAL REACTOR DESIGN,LEC,3,MR,10:00AM,11:20AM,Hunter Christophe Belanger,Jonsson Engineering Center 4304,25,11,14,MANE,2024-08-28,2024-12-20,FALL 2024,69716,6964,01,MANE-6964,Computational Reactor Design,,,,[],[],Engineering
+NUCLEAR PHENOMENA FOR ENGINEERING APPLICATIONS,LEC,4,TF,12:00PM,1:50PM,Li Liu,Darrin Communications Center 239,30,27,3,MANE,2024-08-28,2024-12-20,FALL 2024,68048,2830,01,MANE-2830,Nuclear Phenomena For Engineering Applications,"A survey of atomic and nuclear phenomena and their application in various engineering disciplines. Systematics of atoms and nuclei; nuclear reactions and their characterization; radioactive decay; fission and fusion energy release; radiation effects on materials and biological systems; radiation production, detection, and protection. Applications include energy production, manufacturing, and medicine.",Prerequisites: (PHYS 1100 or PHYS 1150 or PHYS 1110 ) and (CHEM 1100 or CHEM 1110 or CHEM 1120 ).,When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+INTRO COMPUTAT FLUID DYNAMICS,LEC,3,TF,12:00PM,1:20PM,Tara Gallaway Cohen,Russell Sage Laboratory 4112,30,21,9,MANE,2024-08-28,2024-12-20,FALL 2024,69312,4140,01,MANE-4140,Intro Computat Fluid Dynamics,"This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.","Prerequisites: MANE 2110, MANE 2720, and (MATH 2010 or (MATH 2011 and MATH 2012)).",When Offered: Fall and Spring terms annually.,"['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']","['MANE 2110', 'MANE 2720', 'MATH 2010', 'MATH 2011']",Engineering
+MECH BEHAVIOR OF MATERIALS,LEC,3,TF,10:00AM,11:20AM,Catalin R Picu,Jonsson Engineering Center 4309,36,35,1,MANE,2024-08-28,2024-12-20,FALL 2024,65363,4670,01,MANE-4670,Mech Behavior Of Materials,"Stress, strain, balance equations, elementary constitutive models. Elements of plasticity. Effect of temperature and deformation rate on mechanical behavior of engineering materials. Theory of dislocations. Deformation of metals and strengthening mechanisms. Creep behavior and viscoelastic models of material behavior.",Prerequisite: ENGR 2530 or BMED 2540,When Offered: Fall term annually.,"['ENGR 2530', 'BMED 2540']","['ENGR 2530', 'BMED 2540']",Engineering
+ADV. MANUFACTURING PROC & SYS,LEC,4,TF,2:00PM,3:50PM,Johnson Samuel,Darrin Communications Center 236,24,20,4,MANE,2024-08-28,2024-12-20,FALL 2024,67651,6230,01,MANE-6230,ADV. Manufacturing Proc & Sys,Advanced Manufacturing Processes and Systems (AMP) is a project-based lecture/laboratory course that teaches graduate engineering students how to develop new manufacturing processes and systems.,"Prerequisites: MANE 4640 (or equivalent), and ENGR 4710 (or equivalent); B.S. in Engineering is required.",When Offered: Fall term annually.,"['MANE 4640', 'ENGR 4710']","['MANE 4640', 'ENGR 4710']",Engineering
+ADVANCED HEAT TRANSFER,LEC,3,MR,12:00PM,1:50PM,Diana Andra Borca Tasciuc,Greene Building 120,15,9,6,MANE,2024-08-28,2024-12-20,FALL 2024,69710,6790,01,MANE-6790,Advanced Heat Transfer,Comprehensive treatment of conduction and convection heat transfer. Emphasis is on physical and mathematical modeling of heat transfer phenomena with applications in engineering systems. Analytical and computational solution methods are discussed. The class is centered around a semester long project.,Prerequisite: MANE 4730,When Offered: Spring term annually.,['MANE 4730'],['MANE 4730'],Engineering
+ADVANCED HEAT TRANSFER,LEC,3,,,,Francisco J Cunha,Online ,25,10,15,MANE,2024-08-28,2024-12-20,FALL 2024,68951,6790,H01,MANE-6790,Advanced Heat Transfer,Comprehensive treatment of conduction and convection heat transfer. Emphasis is on physical and mathematical modeling of heat transfer phenomena with applications in engineering systems. Analytical and computational solution methods are discussed. The class is centered around a semester long project.,Prerequisite: MANE 4730,When Offered: Spring term annually.,['MANE 4730'],['MANE 4730'],Engineering
+AEROSPACE PROPULSION LAB,LEC,3,R,2:00PM,4:50PM,Kevin Wayne Housley,Jonsson Engineering Center 2220,16,10,6,MANE,2024-08-28,2024-12-20,FALL 2024,69718,6965,01,MANE-6965,Aerospace Propulsion Lab,,,,[],[],Engineering
+MATERIAL INFORMATICS AND DATA,LEC,3,TF,8:00AM,9:20AM,Ravishankar Sundararaman,Low Center for Industrial Inn. 4040,16,9,7,MTLE,2024-08-28,2024-12-20,FALL 2024,69700,6730,01,MTLE-6730,Material Informatics And Data,"Introduction to data science and machine learning, with case studies in discovery of structure-property relationships and new materials from experimental and computational data. Brief review of required background in linear algebra and statistics with hands-on exercises in Python. Data science topics: model fitting, clustering, dimensionality reduction, ontologies, Bayesian inference, and design of experiments.","Prerequisites/Corequisites: ENGR 2600, or equivalent.","When Offered: Fall term, even years",['ENGR 2600'],['ENGR 2600'],Engineering
+ADVANCED MECHANICAL PROPERTIES,LEC,4,MR,10:00AM,11:50AM,Rahmi Ozisik,Materials Research Center 136,28,5,23,MTLE,2024-08-28,2024-12-20,FALL 2024,66297,6250,01,MTLE-6250,Advanced Mechanical Properties,"The phenomenological, mechanistic, and micro-structural aspects of the mechanical properties of materials are developed, with particular emphasis on the similarities and differences among various material systems including metals, ceramics, and polymers. Phenomenological aspects of the three-dimensional characteristics of stress and strain, various yield criteria, elastic behavior, viscoelastic behavior, plastic behavior, statistical aspects of brittle fracture and fracture mechanics are presented. Mechanistic and micro-structural topics include edge and screw dislocation behavior, slip systems, critical resolved shear stress, dislocation multiplication and interactions, barriers to motion, polymer chain conformation and entropy.",,When Offered: Fall term annually.,[],[],Engineering
 MASTER'S PROJECT,LEC,1-12,,,,Chaitanya Kishore Ullal,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,65881,6980,01,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-12,,,,Nikhil Koratkar,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,67019,6980,02,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-12,,,,Paul George Keblinski,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,65285,6980,03,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
@@ -1001,34 +1034,34 @@ MASTER'S PROJECT,LEC,1-12,,,,Edwin B. Fohtung,TBA,10,0,10,MTLE,2024-08-28,2024-1
 MASTER'S PROJECT,LEC,1-12,,,,Ravishankar Sundararaman,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,67737,6980,08,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-12,,,,Edmund Francis Palermo,TBA,5,0,5,MTLE,2024-08-28,2024-12-20,FALL 2024,67910,6980,09,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
 MASTER'S PROJECT,LEC,1-12,,,,Daniel Gall,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,68902,6980,10,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
-GRADUATE SEMINAR,LEC,0,W,10:30AM,12:30PM,Wei Bao,Low Center for Industrial Inn. 3051,45,9,36,MTLE,2024-08-28,2024-12-20,FALL 2024,65145,6900,01,MTLE-6900,Graduate Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+GRADUATE SEMINAR,LEC,0,W,10:30AM,12:30PM,Wei Bao,Low Center for Industrial Inn. 3051,45,10,35,MTLE,2024-08-28,2024-12-20,FALL 2024,65145,6900,01,MTLE-6900,Graduate Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Daniel J. Lewis,TBA,10,1,9,MTLE,2024-08-28,2024-12-20,FALL 2024,66160,6990,01,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Chaitanya Kishore Ullal,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66136,6990,02,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Rahmi Ozisik,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66167,6990,03,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Wei Bao,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66313,6990,04,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Edwin B. Fohtung,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66124,6990,05,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTER'S THESIS,LEC,1-15,,,,Yunfeng Shi,TBA,10,1,9,MTLE,2024-08-28,2024-12-20,FALL 2024,66464,6990,06,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Yunfeng Shi,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66464,6990,06,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Robert Hull,TBA,25,0,25,MTLE,2024-08-28,2024-12-20,FALL 2024,65312,6990,07,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Liping Huang,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66465,6990,08,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Ravishankar Sundararaman,TBA,5,0,5,MTLE,2024-08-28,2024-12-20,FALL 2024,67898,6990,12,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Daniel Gall,TBA,10,1,9,MTLE,2024-08-28,2024-12-20,FALL 2024,66820,6990,25,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-MASTER'S THESIS,LEC,1-15,,,,Ganpati Ramanath,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66821,6990,26,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Ganpati Ramanath,TBA,10,1,9,MTLE,2024-08-28,2024-12-20,FALL 2024,66821,6990,26,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Minoru Tomozawa,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66822,6990,27,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
 MASTER'S THESIS,LEC,1-15,,,,Paul George Keblinski,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66823,6990,28,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
-INTRODUCTION TO POLYMERS,LEC,3,TF,12:00PM,1:20PM,Edmund Francis Palermo,Troy Building 2012,60,27,33,MTLE,2024-08-28,2024-12-20,FALL 2024,65239,4050,01,MTLE-4050,Introduction To Polymers,"Introduction to Polymers is a first course on polymer science and structure-property relationships. Topics include chemical and molecular structure; morphology (structure) of amorphous and crystalline polymers; crystallization phenomena; polymer solutions and blends; physical properties of polymers in relation to structure, including rubber elasticity, viscoelasticity, and glass transition; and mechanical and rheological properties and testing.",Prerequisites/Corequisites: There are no prerequisites for this course. This is a companion course to CHEM 4620 Introduction to Polymer Chemistry.,When Offered: Fall term annually.,['CHEM 4620'],['CHEM 4620'],Engineering
-ADVANCED THERMODYNAMICS,LEC,4,TF,12:00PM,1:50PM,Daniel Gall,Materials Research Center 136,28,14,14,MTLE,2024-08-28,2024-12-20,FALL 2024,66050,6030,01,MTLE-6030,Advanced Thermodynamics,Review of classical thermodynamics. Development of basic concepts of statistical thermodynamics. Application of both classical and statistical techniques to the determination of phase and chemical equilibrium in real systems.,Prerequisite: MTLE 4100 or equivalent.,When Offered: Fall term annually.,['MTLE 4100'],['MTLE 4100'],Engineering
-COMPUTATIONAL MATERIALS DESIGN,LEC,3,MR,2:00PM,3:20PM,Paul George Keblinski,Low Center for Industrial Inn. 3116,28,15,13,MTLE,2024-08-28,2024-12-20,FALL 2024,68246,4500,01,MTLE-4500,Computational Materials Design,"This course will provide the background and a set of examples of how computational methods can be applied to design of materials with desired structure and properties. The methods will span multi-length and time scales, including first-principles approaches, molecular dynamics simulations, stochastic methods for optimization and sampling, and computational thermodynamics. Lectures will be complemented by computer labs with hands-on exercises using publicly available or commercial software packages.",Undergraduates must have junior standing or permission of the instructor.,When Offered: Fall term annually.,[],[],Engineering
-STRUCTURE OF MATERIALS,LEC,4,MR,12:00PM,1:50PM,Edwin B. Fohtung,Russell Sage Laboratory 4112,35,22,13,MTLE,2024-08-28,2024-12-20,FALL 2024,67833,2100,01,MTLE-2100,Structure Of Materials,"The first course in Materials Science and Engineering. Structures of metals, ceramics, and polymers and experimental techniques for their determination are discussed. Laboratory experience is included.",Prerequisite: ENGR 1600 (or equivalent) or BMED 2100.,When Offered: Fall and Spring terms annually.,"['ENGR 1600', 'BMED 2100']","['ENGR 1600', 'BMED 2100']",Engineering
-KINETICS IN MATERIALS SYSTEMS,LEC,4,MR,10:00AM,11:50AM,Yunfeng Shi,Carnegie Building 101,25,9,16,MTLE,2024-08-28,2024-12-20,FALL 2024,68245,4150,01,MTLE-4150,Kinetics In Materials Systems,"Kinetic processes in materials. Overview of kinetics in relation to equilibrium thermodynamics, atomistics and mathematics of diffusion, phase transformations, and microstructural evolution. All materials classes, including metals and alloys, ionic and intermetallic compounds, glasses, semiconductors, and polymers will be considered in terms of similarities and differences. Includes laboratory component.","Prerequisites: CHEM 1100, CHEM 1110, or CHEM 1120; and MTLE 4100",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120', 'MTLE 4100']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120', 'MTLE 4100']",Engineering
+INTRODUCTION TO POLYMERS,LEC,3,TF,12:00PM,1:20PM,Edmund Francis Palermo,Troy Building 2012,60,23,37,MTLE,2024-08-28,2024-12-20,FALL 2024,65239,4050,01,MTLE-4050,Introduction To Polymers,"Introduction to Polymers is a first course on polymer science and structure-property relationships. Topics include chemical and molecular structure; morphology (structure) of amorphous and crystalline polymers; crystallization phenomena; polymer solutions and blends; physical properties of polymers in relation to structure, including rubber elasticity, viscoelasticity, and glass transition; and mechanical and rheological properties and testing.",Prerequisites/Corequisites: There are no prerequisites for this course. This is a companion course to CHEM 4620 Introduction to Polymer Chemistry.,When Offered: Fall term annually.,['CHEM 4620'],['CHEM 4620'],Engineering
+ADVANCED THERMODYNAMICS,LEC,4,TF,12:00PM,1:50PM,Daniel Gall,Materials Research Center 136,28,13,15,MTLE,2024-08-28,2024-12-20,FALL 2024,66050,6030,01,MTLE-6030,Advanced Thermodynamics,Review of classical thermodynamics. Development of basic concepts of statistical thermodynamics. Application of both classical and statistical techniques to the determination of phase and chemical equilibrium in real systems.,Prerequisite: MTLE 4100 or equivalent.,When Offered: Fall term annually.,['MTLE 4100'],['MTLE 4100'],Engineering
+COMPUTATIONAL MATERIALS DESIGN,LEC,3,MR,2:00PM,3:20PM,Paul George Keblinski,Low Center for Industrial Inn. 3116,28,13,15,MTLE,2024-08-28,2024-12-20,FALL 2024,68246,4500,01,MTLE-4500,Computational Materials Design,"This course will provide the background and a set of examples of how computational methods can be applied to design of materials with desired structure and properties. The methods will span multi-length and time scales, including first-principles approaches, molecular dynamics simulations, stochastic methods for optimization and sampling, and computational thermodynamics. Lectures will be complemented by computer labs with hands-on exercises using publicly available or commercial software packages.",Undergraduates must have junior standing or permission of the instructor.,When Offered: Fall term annually.,[],[],Engineering
+STRUCTURE OF MATERIALS,LEC,4,MR,12:00PM,1:50PM,Edwin B. Fohtung,Russell Sage Laboratory 4112,35,20,15,MTLE,2024-08-28,2024-12-20,FALL 2024,67833,2100,01,MTLE-2100,Structure Of Materials,"The first course in Materials Science and Engineering. Structures of metals, ceramics, and polymers and experimental techniques for their determination are discussed. Laboratory experience is included.",Prerequisite: ENGR 1600 (or equivalent) or BMED 2100.,When Offered: Fall and Spring terms annually.,"['ENGR 1600', 'BMED 2100']","['ENGR 1600', 'BMED 2100']",Engineering
+KINETICS IN MATERIALS SYSTEMS,LEC,4,MR,10:00AM,11:50AM,Yunfeng Shi,Carnegie Building 101,25,11,14,MTLE,2024-08-28,2024-12-20,FALL 2024,68245,4150,01,MTLE-4150,Kinetics In Materials Systems,"Kinetic processes in materials. Overview of kinetics in relation to equilibrium thermodynamics, atomistics and mathematics of diffusion, phase transformations, and microstructural evolution. All materials classes, including metals and alloys, ionic and intermetallic compounds, glasses, semiconductors, and polymers will be considered in terms of similarities and differences. Includes laboratory component.","Prerequisites: CHEM 1100, CHEM 1110, or CHEM 1120; and MTLE 4100",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120', 'MTLE 4100']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120', 'MTLE 4100']",Engineering
 INTRODUCTION TO POLYMERS,LEC,3,TF,12:00PM,1:20PM,Edmund Francis Palermo,Troy Building 2012,60,7,53,MTLE,2024-08-28,2024-12-20,FALL 2024,68397,6050,01,MTLE-6050,Introduction To Polymers,"Introduction to Polymers is a first course on polymer science and structure-property relationships. Topics include chemical and molecular structure; morphology (structure) of amorphous and crystalline polymers; crystallization phenomena; polymer solutions and blends; physical properties of polymers in relation to structure, including rubber elasticity, viscoelasticity, and glass transition; and mechanical and rheological properties and testing.",Prerequisites/Corequisites: There are no prerequisites for this course. This is a companion course to CHEM 4620 Introduction to Polymer Chemistry.,When Offered: Fall term annually.,['CHEM 4620'],['CHEM 4620'],Engineering
-ADVANCED STRUCTURE & BONDING,LEC,4,MR,2:00PM,3:50PM,Ganpati Ramanath,Materials Research Center 136,28,17,11,MTLE,2024-08-28,2024-12-20,FALL 2024,66932,6460,01,MTLE-6460,Advanced Structure & Bonding,"Phenomenological and quantitative descriptions of crystal symmetry and structure. Theories of primary and secondary bonding in crystals. Theory and application of diffraction techniques for structure determination. Models of cohesive forces in solids. Emphasis is placed on the intimate connection between crystal structure, bonding, electronic structure, and properties of solids.",,When Offered: Fall term annually.,[],[],Engineering
-INTRO TO MATERIALS ENGINEERING,LEC,1,M,9:00AM,9:50AM,Paul George Keblinski,Low Center for Industrial Inn. 4034,40,29,11,MTLE,2024-08-28,2024-12-20,FALL 2024,66981,1200,01,MTLE-1200,Intro To Materials Engineering,"A 1-credit course comprising class lectures, laboratory visits, and group projects. The course will provide an overview of the field of materials science and engineering, highlighting how understanding the structures, properties and processing of materials provides scientific and engineering advances that sustain the progress of technology.",,When Offered: Fall term annually.,[],[],Engineering
+ADVANCED STRUCTURE & BONDING,LEC,4,MR,2:00PM,3:50PM,Ganpati Ramanath,Materials Research Center 136,28,15,13,MTLE,2024-08-28,2024-12-20,FALL 2024,66932,6460,01,MTLE-6460,Advanced Structure & Bonding,"Phenomenological and quantitative descriptions of crystal symmetry and structure. Theories of primary and secondary bonding in crystals. Theory and application of diffraction techniques for structure determination. Models of cohesive forces in solids. Emphasis is placed on the intimate connection between crystal structure, bonding, electronic structure, and properties of solids.",,When Offered: Fall term annually.,[],[],Engineering
+INTRO TO MATERIALS ENGINEERING,LEC,1,M,9:00AM,9:50AM,Paul George Keblinski,Low Center for Industrial Inn. 4034,40,27,13,MTLE,2024-08-28,2024-12-20,FALL 2024,66981,1200,01,MTLE-1200,Intro To Materials Engineering,"A 1-credit course comprising class lectures, laboratory visits, and group projects. The course will provide an overview of the field of materials science and engineering, highlighting how understanding the structures, properties and processing of materials provides scientific and engineering advances that sustain the progress of technology.",,When Offered: Fall term annually.,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Edwin B. Fohtung,TBA,10,5,5,MTLE,2024-08-28,2024-12-20,FALL 2024,68391,9990,01,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Rahmi Ozisik,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,65179,9990,02,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Wei Bao,TBA,10,2,8,MTLE,2024-08-28,2024-12-20,FALL 2024,65180,9990,03,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Ganpati Ramanath,TBA,10,2,8,MTLE,2024-08-28,2024-12-20,FALL 2024,65181,9990,04,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Ganpati Ramanath,TBA,10,3,7,MTLE,2024-08-28,2024-12-20,FALL 2024,65181,9990,04,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Chaitanya Kishore Ullal,TBA,10,3,7,MTLE,2024-08-28,2024-12-20,FALL 2024,66137,9990,06,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
-DISSERTATION,LEC,1-15,,,,Nikhil Koratkar,TBA,10,1,9,MTLE,2024-08-28,2024-12-20,FALL 2024,67094,9990,08,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Nikhil Koratkar,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,67094,9990,08,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Yunfeng Shi,TBA,10,3,7,MTLE,2024-08-28,2024-12-20,FALL 2024,65220,9990,09,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Paul George Keblinski,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,65225,9990,11,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Minoru Tomozawa,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66177,9990,12,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
@@ -1042,98 +1075,97 @@ DISSERTATION,LEC,1-15,,,,Daniel J. Lewis,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,
 DISSERTATION,LEC,1-15,,,,Sufei Shi,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,69092,9990,20,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Joel Plawsky,TBA,10,0,10,MTLE,2024-08-28,2024-12-20,FALL 2024,66694,9990,22,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
 DISSERTATION,LEC,1-15,,,,Jie Lian,TBA,10,2,8,MTLE,2024-08-28,2024-12-20,FALL 2024,69091,9990,23,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
-MATERIAL INFORMATICS & DATA,LEC,3,TF,8:00AM,9:20AM,Ravishankar Sundararaman,Low Center for Industrial Inn. 4040,16,9,7,MTLE,2024-08-28,2024-12-20,FALL 2024,69699,4730,01,MTLE-4730,Material Informatics & Data,"Introduction to data science and machine learning, with case studies in discovery of structure-property relationships and new materials from experimental and computational data. Brief review of required background in linear algebra and statistics with hands-on exercises in Python. Data science topics: model fitting, clustering, dimensionality reduction, ontologies, Bayesian inference, and design of experiments.","Prerequisites/Corequisites: ENGR 2600, or equivalent.","When Offered: Fall term, even years",['ENGR 2600'],['ENGR 2600'],Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Daniel J. Lewis,Jonsson Engineering Center 3332,3,3,0,MTLE,2024-08-28,2024-12-20,FALL 2024,66662,4920,02,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai/Daniel J. Lewis,Jonsson Engineering Center 3332,2,2,0,MTLE,2024-08-28,2024-12-20,FALL 2024,66790,4920,03,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
-MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Daniel J. Lewis,Jonsson Engineering Center 3332,5,5,0,MTLE,2024-08-28,2024-12-20,FALL 2024,66661,4920,04,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
-THE MULTIMEDIA CENTURY,LEC,4,MR,10:00AM,11:50AM,Michael L. Century,West Hall 323,40,39,1,ARTS,2024-08-28,2024-12-20,FALL 2024,69209,2540,01,ARTS-2540,The Multimedia Century,"This course will survey the history and theory of the diverse artistic practices of the twentieth century in relation to the development of the mass media and new technologies. Topics will include the Bauhaus, Surrealism, Pop Art, and Postmodernism and will span a spectrum of media from the more traditional, such as painting and photography, to electronic and new media, such as video and digital arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MATERIAL INFORMATICS & DATA,LEC,3,TF,8:00AM,9:20AM,Ravishankar Sundararaman,Low Center for Industrial Inn. 4040,16,6,10,MTLE,2024-08-28,2024-12-20,FALL 2024,69699,4730,01,MTLE-4730,Material Informatics & Data,"Introduction to data science and machine learning, with case studies in discovery of structure-property relationships and new materials from experimental and computational data. Brief review of required background in linear algebra and statistics with hands-on exercises in Python. Data science topics: model fitting, clustering, dimensionality reduction, ontologies, Bayesian inference, and design of experiments.","Prerequisites/Corequisites: ENGR 2600, or equivalent.","When Offered: Fall term, even years",['ENGR 2600'],['ENGR 2600'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Rahmi Ozisik,Jonsson Engineering Center 3332,0,4,-4,MTLE,2024-08-28,2024-12-20,FALL 2024,66662,4920,02,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai/Rahmi Ozisik,Jonsson Engineering Center 3332,0,2,-2,MTLE,2024-08-28,2024-12-20,FALL 2024,66790,4920,03,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Rahmi Ozisik,Jonsson Engineering Center 3332,0,5,-5,MTLE,2024-08-28,2024-12-20,FALL 2024,66661,4920,04,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
+THE MULTIMEDIA CENTURY,LEC,4,MR,10:00AM,11:50AM,Michael L. Century,West Hall 323,40,36,4,ARTS,2024-08-28,2024-12-20,FALL 2024,69209,2540,01,ARTS-2540,The Multimedia Century,"This course will survey the history and theory of the diverse artistic practices of the twentieth century in relation to the development of the mass media and new technologies. Topics will include the Bauhaus, Surrealism, Pop Art, and Postmodernism and will span a spectrum of media from the more traditional, such as painting and photography, to electronic and new media, such as video and digital arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 CREATIVE SEMINAR I,LEC,4,TF,2:00PM,3:50PM,Nathan Scott Meltz,West Hall 112,19,9,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68585,4840,01,ARTS-4840,Creative Seminar I,This course is for senior EMAC and EART majors and is the core creative forum for the development and presentation of the senior thesis. The course is the first part of a two-semester study provided in two seminar courses. The focus of the course is to develop a proposal for for a written thesis and a creative project that students will execute in the second seminar and exhibit in an exhibition.,Senior EMAC and EART majors only.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-BASIC DRAWING,LEC,4,MR,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,65249,1200,01,ARTS-1200,Basic Drawing,An introductory course in drawing designed to develop seeing ability and means of expressing visual ideas through graphic skills. The course consists of exercises in drawing from observation and studies from the history of art.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTERMEDIATE DRAWING,LEC,4,TF,10:00AM,11:50AM,Kenneth A. Ragsdale,West Hall 411,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68043,2200,01,ARTS-2200,Intermediate Drawing,"Intermediate Drawing focuses on the exploration of the possibilities of visual translation using a variety of media and techniques. Over the term, each successive project will provide the student the opportunity to develop and control a particular set of media, technique, and perspective, which reveals a unique and personal approach to image making. Participation in critiques, discussions, and lectures will enable the student to become fluent with the vocabulary and language of drawing, and focus their preferred methods and developed skill-sets into appropriate and actionable processes.",Prerequisites/Corequisites: ARTS 1200,When Offered: Fall term annually.,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
+BASIC DRAWING,LEC,4,MR,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,20,-1,ARTS,2024-08-28,2024-12-20,FALL 2024,65249,1200,01,ARTS-1200,Basic Drawing,An introductory course in drawing designed to develop seeing ability and means of expressing visual ideas through graphic skills. The course consists of exercises in drawing from observation and studies from the history of art.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTERMEDIATE DRAWING,LEC,4,TF,10:00AM,11:50AM,Kenneth A. Ragsdale,West Hall 411,19,20,-1,ARTS,2024-08-28,2024-12-20,FALL 2024,68043,2200,01,ARTS-2200,Intermediate Drawing,"Intermediate Drawing focuses on the exploration of the possibilities of visual translation using a variety of media and techniques. Over the term, each successive project will provide the student the opportunity to develop and control a particular set of media, technique, and perspective, which reveals a unique and personal approach to image making. Participation in critiques, discussions, and lectures will enable the student to become fluent with the vocabulary and language of drawing, and focus their preferred methods and developed skill-sets into appropriate and actionable processes.",Prerequisites/Corequisites: ARTS 1200,When Offered: Fall term annually.,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
 SCULPTURE I,LEC,4,MR,12:00PM,1:50PM,Brian Clyne,Russell Sage Laboratory 1211,16,16,0,ARTS,2024-08-28,2024-12-20,FALL 2024,67449,2210,01,ARTS-2210,Sculpture I,A beginning sculpture course combining hands-on studio work sessions with lectures on the history and theory of sculpture practice. The studio component involves explorations of materials and techniques as tools for the enhancing of visual sensitivity and creative expression.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-SEMINAR IN SOUND STUDIES,LEC,4,R,2:00PM,5:50PM,Kathleen A. Galloway,West Hall 112,5,7,-2,ARTS,2024-08-28,2024-12-20,FALL 2024,69524,4500,01,ARTS-4500,Seminar In Sound Studies,"This course illuminates specific musical works and performances in depth, drawn from a range of periods, cultures, and genres by analyzing them in their historical, cultural, technological, and critical context. The emphasis is on music since 1900 and sample topics might include Remix in Digital Culture, Music in Protest and Social Justice, Gender and Sexuality in Music, Music and the Moving Image, and Sounding Identity, among others",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SEMINAR IN SOUND STUDIES,LEC,4,R,2:00PM,5:50PM,Kathleen A. Galloway,West Hall 112,5,6,-1,ARTS,2024-08-28,2024-12-20,FALL 2024,69524,4500,01,ARTS-4500,Seminar In Sound Studies,"This course illuminates specific musical works and performances in depth, drawn from a range of periods, cultures, and genres by analyzing them in their historical, cultural, technological, and critical context. The emphasis is on music since 1900 and sample topics might include Remix in Digital Culture, Music in Protest and Social Justice, Gender and Sexuality in Music, Music and the Moving Image, and Sounding Identity, among others",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 SEMINAR IN SOUND STUDIES,LEC,4,R,2:00PM,5:50PM,Kathleen A. Galloway,West Hall 112,4,0,4,ARTS,2024-08-28,2024-12-20,FALL 2024,69526,4500,02,ARTS-4500,Seminar In Sound Studies,"This course illuminates specific musical works and performances in depth, drawn from a range of periods, cultures, and genres by analyzing them in their historical, cultural, technological, and critical context. The emphasis is on music since 1900 and sample topics might include Remix in Digital Culture, Music in Protest and Social Justice, Gender and Sexuality in Music, Music and the Moving Image, and Sounding Identity, among others",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-PAINTING,LEC,4,TR,4:00PM,5:50PM,Jennifer Mae Kemp,West Hall 411,19,0,19,ARTS,2024-08-28,2024-12-20,FALL 2024,69540,6220,01,ARTS-6220,Painting,"A painting course in opaque media such as oil or acrylic with emphasis on color interaction, composition, and pictorial design. Using sources from observation and the history of painting, students are taught to see and convey effects of color on/in 2-D pictorial space and to develop critical skills in looking at paintings.",By portfolio review.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-SCULPTURE II,LEC,4,MR,2:00PM,3:50PM,Igor Vamos,Russell Sage Laboratory 1211,16,5,11,ARTS,2024-08-28,2024-12-20,FALL 2024,68769,4210,01,ARTS-4210,Sculpture Ii,An advanced studio course in sculpture for students who have taken Sculpture I. Students are encouraged to explore personal areas of interest and are required to develop a familiarity with the history of sculpture as well as mastering fabrication techniques.,Prerequisite: ARTS 2210,When Offered: Fall term annually.,['ARTS 2210'],['ARTS 2210'],"Humanities, Arts, and Social Sciences"
-FUNDAMENTALS OF MUSIC & SOUND,LEC,4,TF,10:00AM,11:50AM,Christopher James Fisher-Lochhead,West Hall 323,5,2,3,ARTS,2024-08-28,2024-12-20,FALL 2024,68194,1380,01,ARTS-1380,Fundamentals Of Music & Sound,"This course is a hands-on introduction to the primary building blocks of music and musicianship in a 21st Century context. No formal musical background is expected. The course will explore acoustics and psychoacoustics, rhythm, pitch, harmony, melody, timbre, improvisation, composition, and music notation through performance, listening, written exercises, and creative projects.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-FUNDAMENTALS OF MUSIC & SOUND,LEC,4,TF,10:00AM,11:50AM,Christopher James Fisher-Lochhead,West Hall 323,14,14,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69309,1380,02,ARTS-1380,Fundamentals Of Music & Sound,"This course is a hands-on introduction to the primary building blocks of music and musicianship in a 21st Century context. No formal musical background is expected. The course will explore acoustics and psychoacoustics, rhythm, pitch, harmony, melody, timbre, improvisation, composition, and music notation through performance, listening, written exercises, and creative projects.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-3D DIGITAL MODELING,LEC,4,TF,8:00AM,9:50AM,Adrianna Sakamoto Oropello,Russell Sage Laboratory 2411,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69208,2230,01,ARTS-2230,3D Digital Modeling,"A foundational course in concepts and techniques in digital 3D, for animation, games, and digital art. This course focuses on methods and aesthetics in creating digital 3D objects, spaces, and characters, including modeling, texturing, and lighting, as preparation for further courses in the 3D Animation curriculum.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-DESIGNING MUSICAL GAMES,LEC,4,MR,12:00PM,1:50PM,Robert Kyle Hamilton,Russell Sage Laboratory 2411,19,17,2,ARTS,2024-08-28,2024-12-20,FALL 2024,69210,2610,01,ARTS-2610,Designing Musical Games,"Students will explore the artistic role of music and sound in gaming by building their own interactive sound and music-rich games and 2D/3D rendered environments. Within the context of their own creative game projects, students will learn the basics of designing sound and composing music for interactive game spaces. Using workflow programming languages and software tools, students will program basic gaming interactions, link them to interactive audio software, and create musical gaming experiences.",,When Offered: fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+PAINTING,LEC,4,TR,4:00PM,5:50PM,Jennifer Mae Kemp,West Hall 411,19,1,18,ARTS,2024-08-28,2024-12-20,FALL 2024,69540,6220,01,ARTS-6220,Painting,"A painting course in opaque media such as oil or acrylic with emphasis on color interaction, composition, and pictorial design. Using sources from observation and the history of painting, students are taught to see and convey effects of color on/in 2-D pictorial space and to develop critical skills in looking at paintings.",By portfolio review.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SCULPTURE II,LEC,4,MR,2:00PM,3:50PM,Igor Vamos,Russell Sage Laboratory 1211,16,7,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68769,4210,01,ARTS-4210,Sculpture Ii,An advanced studio course in sculpture for students who have taken Sculpture I. Students are encouraged to explore personal areas of interest and are required to develop a familiarity with the history of sculpture as well as mastering fabrication techniques.,Prerequisite: ARTS 2210,When Offered: Fall term annually.,['ARTS 2210'],['ARTS 2210'],"Humanities, Arts, and Social Sciences"
+FUNDAMENTALS OF MUSIC & SOUND,LEC,4,TF,10:00AM,11:50AM,Christopher James Fisher-Lochhead,West Hall 323,5,4,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68194,1380,01,ARTS-1380,Fundamentals Of Music & Sound,"This course is a hands-on introduction to the primary building blocks of music and musicianship in a 21st Century context. No formal musical background is expected. The course will explore acoustics and psychoacoustics, rhythm, pitch, harmony, melody, timbre, improvisation, composition, and music notation through performance, listening, written exercises, and creative projects.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+FUNDAMENTALS OF MUSIC & SOUND,LEC,4,TF,10:00AM,11:50AM,Christopher James Fisher-Lochhead,West Hall 323,14,13,1,ARTS,2024-08-28,2024-12-20,FALL 2024,69309,1380,02,ARTS-1380,Fundamentals Of Music & Sound,"This course is a hands-on introduction to the primary building blocks of music and musicianship in a 21st Century context. No formal musical background is expected. The course will explore acoustics and psychoacoustics, rhythm, pitch, harmony, melody, timbre, improvisation, composition, and music notation through performance, listening, written exercises, and creative projects.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+3D DIGITAL MODELING,LEC,4,TF,8:00AM,9:50AM,Adrianna Sakamoto Oropello,Russell Sage Laboratory 2411,19,22,-3,ARTS,2024-08-28,2024-12-20,FALL 2024,69208,2230,01,ARTS-2230,3D Digital Modeling,"A foundational course in concepts and techniques in digital 3D, for animation, games, and digital art. This course focuses on methods and aesthetics in creating digital 3D objects, spaces, and characters, including modeling, texturing, and lighting, as preparation for further courses in the 3D Animation curriculum.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+DESIGNING MUSICAL GAMES,LEC,4,MR,12:00PM,1:50PM,Robert Kyle Hamilton,Russell Sage Laboratory 2411,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69210,2610,01,ARTS-2610,Designing Musical Games,"Students will explore the artistic role of music and sound in gaming by building their own interactive sound and music-rich games and 2D/3D rendered environments. Within the context of their own creative game projects, students will learn the basics of designing sound and composing music for interactive game spaces. Using workflow programming languages and software tools, students will program basic gaming interactions, link them to interactive audio software, and create musical gaming experiences.",,When Offered: fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 PAINTING,LEC,4,TR,4:00PM,5:50PM,Jennifer Mae Kemp,West Hall 411,19,17,2,ARTS,2024-08-28,2024-12-20,FALL 2024,69539,4220,01,ARTS-4220,Painting,"A painting course in opaque media such as oil or acrylic with emphasis on color interaction, composition, and pictorial design. Using sources from observation and the history of painting, students are taught to see and convey effects of color on/in 2D pictorial space and to develop critical skills in looking at paintings.",Prerequisite: ARTS 1200,When Offered: Fall term annually,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
-RENSSELAER ORCHESTRA,LEC,1,MR,5:00PM,6:50PM,Robert Michael Whalen,258 Hoosick Street 114,85,46,39,ARTS,2024-08-28,2024-12-20,FALL 2024,68755,2300,01,ARTS-2300,Rensselaer Orchestra,"Readings, rehearsals, and performances of works from the standard repertoire for orchestra from the Baroque through the 20th century.",Prerequisite: demonstration of adequate skill in playing an orchestral instrument through audition.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+RENSSELAER ORCHESTRA,LEC,1,MR,5:00PM,6:50PM,Robert Michael Whalen,258 Hoosick Street 114,85,56,29,ARTS,2024-08-28,2024-12-20,FALL 2024,68755,2300,01,ARTS-2300,Rensselaer Orchestra,"Readings, rehearsals, and performances of works from the standard repertoire for orchestra from the Baroque through the 20th century.",Prerequisite: demonstration of adequate skill in playing an orchestral instrument through audition.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 SOUND RECORDING & PRODUCTION I,LEC,4,MR,12:00PM,1:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68542,2700,01,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 SOUND RECORDING & PRODUCTION I,LEC,4,W,4:00PM,5:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68542,2700,01,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 SOUND RECORDING & PRODUCTION I,LEC,4,MR,12:00PM,1:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68543,2700,02,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 SOUND RECORDING & PRODUCTION I,LEC,4,W,6:00PM,7:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68543,2700,02,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-SOUND RECORDING & PRODUCTION I,LEC,4,MR,12:00PM,1:50PM,Ross A. Rice,Darrin Communications Center 174,4,3,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68544,2700,03,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-SOUND RECORDING & PRODUCTION I,LEC,4,W,8:00PM,9:50PM,Ross A. Rice,Darrin Communications Center 174,4,3,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68544,2700,03,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-HACTIVISM,LEC,4,T,6:00PM,9:50PM,Igor Vamos,West Hall 211,19,18,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68546,4560,01,ARTS-4560,Hactivism,"This course explores the history, methods, and goals of hackers with special attention paid to their role in social movements. It broadly interprets the term ""hacktivism"" to include computer hacking, media hacking and ""reality hacking"" in the service of social change. Students will gain an understanding of how and why hackers have emerged as a major social force.","Junior or senior standing, or permission of instructor.",When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PRODUCTION I,LEC,4,MR,12:00PM,1:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68544,2700,03,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PRODUCTION I,LEC,4,W,8:00PM,9:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68544,2700,03,ARTS-2700,Sound Recording & Production I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+HACTIVISM,LEC,4,T,6:00PM,9:50PM,Igor Vamos,West Hall 211,19,21,-2,ARTS,2024-08-28,2024-12-20,FALL 2024,68546,4560,01,ARTS-4560,Hactivism,"This course explores the history, methods, and goals of hackers with special attention paid to their role in social movements. It broadly interprets the term ""hacktivism"" to include computer hacking, media hacking and ""reality hacking"" in the service of social change. Students will gain an understanding of how and why hackers have emerged as a major social force.","Junior or senior standing, or permission of instructor.",When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
 ARTS GRADUATE COLLOQUIUM,LEC,3,W,11:30AM,2:20PM,Kathryn High,West Hall 113,19,6,13,ARTS,2024-08-28,2024-12-20,FALL 2024,67666,6900,01,ARTS-6900,Arts Graduate Colloquium,"This course provides a forum for interdisciplinary graduate discourse and community at Rensselaer. Students will curate a series of presentations by guest speakers, faculty, and graduate students. Related readings and writing assignments will be based on colloquium presentations. Arts Ph.D. students are required to take the colloquium each semester until the semester they take their qualifying examination and enroll for dissertation credits.","Prerequisite: graduate standing in any graduate degree program, not just Arts.",When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-RENSSELAER CONCERT CHOIR,LEC,1,MR,7:00PM,8:50PM,Robert Michael Whalen,258 Hoosick Street 114,40,20,20,ARTS,2024-08-28,2024-12-20,FALL 2024,68756,2310,01,ARTS-2310,Rensselaer Concert Choir,"Readings, rehearsals, and performances of works from the standard choral repertoire, from the Renaissance through the 20th century. Attendance is mandatory and preparation expected.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+RENSSELAER CONCERT CHOIR,LEC,1,MR,7:00PM,8:50PM,Robert Michael Whalen,258 Hoosick Street 114,40,30,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68756,2310,01,ARTS-2310,Rensselaer Concert Choir,"Readings, rehearsals, and performances of works from the standard choral repertoire, from the Renaissance through the 20th century. Attendance is mandatory and preparation expected.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: VIOLIN,LEC,1,,,,Jamecyn F. Morey/Christopher James Fisher-Lochhead,TBA,16,12,4,ARTS,2024-08-28,2024-12-20,FALL 2024,68626,2750,01,ARTS-2750,Private Music LESSONS: Violin,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: VIOLA,LEC,1,,,,Jamecyn F. Morey/Christopher James Fisher-Lochhead,TBA,10,2,8,ARTS,2024-08-28,2024-12-20,FALL 2024,68627,2750,02,ARTS-2750,Private Music LESSONS: Viola,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: CELLO,LEC,1,,,,David Bebe/Christopher James Fisher-Lochhead,TBA,10,4,6,ARTS,2024-08-28,2024-12-20,FALL 2024,68628,2750,03,ARTS-2750,Private Music LESSONS: Cello,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: FLUTE,LEC,1,,,,Norman Curtis Thibodeau/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68629,2750,05,ARTS-2750,Private Music LESSONS: Flute,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: FLUTE,LEC,1,,,,Norman Curtis Thibodeau/Christopher James Fisher-Lochhead,TBA,10,3,7,ARTS,2024-08-28,2024-12-20,FALL 2024,68629,2750,05,ARTS-2750,Private Music LESSONS: Flute,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: OBOE,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,2,8,ARTS,2024-08-28,2024-12-20,FALL 2024,68630,2750,06,ARTS-2750,Private Music LESSONS: Oboe,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS:CLARINET,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68631,2750,07,ARTS-2750,Private Music LESSONS:CLARINET,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS:CLARINET,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68631,2750,07,ARTS-2750,Private Music LESSONS:CLARINET,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS:BASSOON,LEC,1,,,,Thomas J. Gerbino,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68632,2750,08,ARTS-2750,Private Music LESSONS:BASSOON,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: SAX,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68633,2750,09,ARTS-2750,Private Music LESSONS: Sax,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: SAX,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68633,2750,09,ARTS-2750,Private Music LESSONS: Sax,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: HARP,LEC,1,,,,Karlinda D. Caldicott/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68634,2750,10,ARTS-2750,Private Music LESSONS: Harp,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS:PERCUSS,LEC,1,,,,Mark Foster/Christopher James Fisher-Lochhead,TBA,10,3,7,ARTS,2024-08-28,2024-12-20,FALL 2024,68635,2750,11,ARTS-2750,Private Music LESSONS:PERCUSS,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: TRUMPET,LEC,1,,,,Christopher James Fisher-Lochhead,TBA,10,3,7,ARTS,2024-08-28,2024-12-20,FALL 2024,69801,2750,12,ARTS-2750,Private Music LESSONS: Trumpet,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: VOICE,LEC,1,,,,Katherine Anne Skovira/Christopher James Fisher-Lochhead,TBA,18,13,5,ARTS,2024-08-28,2024-12-20,FALL 2024,68637,2750,13,ARTS-2750,Private Music LESSONS: Voice,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Chrysi Nanou/Christopher James Fisher-Lochhead,TBA,10,8,2,ARTS,2024-08-28,2024-12-20,FALL 2024,68638,2750,14,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: TRUMPET,LEC,1,,,,Christopher James Fisher-Lochhead/Nikola Tomic,TBA,10,2,8,ARTS,2024-08-28,2024-12-20,FALL 2024,69801,2750,12,ARTS-2750,Private Music LESSONS: Trumpet,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: VOICE,LEC,1,,,,Katherine Anne Skovira/Christopher James Fisher-Lochhead,TBA,18,17,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68637,2750,13,ARTS-2750,Private Music LESSONS: Voice,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Chrysi Nanou/Christopher James Fisher-Lochhead,TBA,10,9,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68638,2750,14,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Akina Yura/Christopher James Fisher-Lochhead,TBA,5,2,3,ARTS,2024-08-28,2024-12-20,FALL 2024,69880,2750,15,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Jingwen Tu/Christopher James Fisher-Lochhead,TBA,12,10,2,ARTS,2024-08-28,2024-12-20,FALL 2024,68639,2750,16,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Jingwen Tu/Christopher James Fisher-Lochhead,TBA,12,9,3,ARTS,2024-08-28,2024-12-20,FALL 2024,68639,2750,16,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSON: TROMBONE,LEC,1,,,,Michael David Blostein/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68758,2750,17,ARTS-2750,Private Music LESSON: Trombone,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: TUBA,LEC,1,,,,Michael David Blostein/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68759,2750,18,ARTS-2750,Private Music LESSONS: Tuba,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-PRIVATE MUSIC LESSONS: GUITAR,LEC,1,,,,Paul J. Quigley/Christopher James Fisher-Lochhead,TBA,10,5,5,ARTS,2024-08-28,2024-12-20,FALL 2024,68760,2750,19,ARTS-2750,Private Music LESSONS: Guitar,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: GUITAR,LEC,1,,,,Paul J. Quigley/Christopher James Fisher-Lochhead,TBA,10,8,2,ARTS,2024-08-28,2024-12-20,FALL 2024,68760,2750,19,ARTS-2750,Private Music LESSONS: Guitar,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSN: EUPHONIUM,LEC,1,,,,Michael David Blostein/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,69541,2750,20,ARTS-2750,Private Music LESSN: Euphonium,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-MUSIC LESSONS: JAZZ IMPROV,LEC,1,,,,Matthew P. Steckler/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68763,2750,22,ARTS-2750,Music LESSONS: Jazz Improv,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+MUSIC LESSONS: JAZZ IMPROV,LEC,1,,,,Christopher James Fisher-Lochhead/Nikola Tomic,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68763,2750,22,ARTS-2750,Music LESSONS: Jazz Improv,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 PRIVATE MUSIC LESSONS: BASS,LEC,1,,,,Evan Tyler Runyon/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,69211,2750,23,ARTS-2750,Private Music LESSONS: Bass,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-ADVANCED STUDIO,LEC,4,MR,4:00PM,5:50PM,Kenneth A. Ragsdale,West Hall 113,10,10,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68255,4960,01,ARTS-4960,Advanced Studio,Experimental courses offered for one or two semesters.,,,[],[],"Humanities, Arts, and Social Sciences"
+ADVANCED STUDIO,LEC,4,MR,4:00PM,5:50PM,Kenneth A. Ragsdale,West Hall 113,10,11,-1,ARTS,2024-08-28,2024-12-20,FALL 2024,68255,4960,01,ARTS-4960,Advanced Studio,Experimental courses offered for one or two semesters.,,,[],[],"Humanities, Arts, and Social Sciences"
 INTERMEDIATE VIDEO,LEC,4,MR,2:00PM,3:50PM,Elizabeth Press,West Hall 211,19,9,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68073,2010,01,ARTS-2010,Intermediate Video,"Intermediate Video is a hands-on intensive course that teaches the language, aesthetics, and techniques of video production. Working in groups and individually, students will develop and produce several short video projects. Emphasis will be on the acquisition of creative and technical production skills in visualizing, scripting, aesthetics, shooting, sound design, and editing.",Prerequisite: ARTS 1030 or permission of instructor,When Offered: Fall term even-numbered years.,['ARTS 1030'],['ARTS 1030'],"Humanities, Arts, and Social Sciences"
 EXPERIMENTAL GAME DESIGN,LEC,4,W,2:00PM,3:50PM,Robert F. Nideffer,Russell Sage Laboratory 2411,19,0,19,ARTS,2024-08-28,2024-12-20,FALL 2024,69908,6400,01,ARTS-6400,Experimental Game Design,"Experimental Game Design is an upper level studio arts course focusing on the creation of innovative, workable game prototypes using a variety of interactive media. Games are considered as a new genre and are analyzed as cultural artifacts. The aesthetics of game design including character development, level design, game play experience, and delivery systems are covered. Flow, game theory, and game play gestalt are considered. Alternate gaming paradigms and emerging forms are encouraged.",Prerequisites/Corequisites: COGS 4520 or GSAS 4520 or graduate standing or permission of instructor,When Offered: Spring and fall terms annually.,['GSAS 4520'],['GSAS 4520'],"Humanities, Arts, and Social Sciences"
-MUSIC AND TECHNOLOGY 1,LEC,4,TF,12:00PM,1:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,10,13,-3,ARTS,2024-08-28,2024-12-20,FALL 2024,65252,2020,01,ARTS-2020,Music And Technology 1,"Music technology-based research and composition taught in the context of modern computerized production methods. Technical topics include basic principles of music programming languages, digital sound synthesis and sampling, and the use of computer systems for musical control of electronic instruments. Musical topics include a study of important musical works and compositional techniques of the 21st century. Student projects involve hands-on work on a variety of computer programming languages, instruments, and software. This course is a prerequisite for further creative work with Rensselaer's computer music facilities.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-MUSIC AND TECHNOLOGY 1,LEC,4,TF,12:00PM,1:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,9,9,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68230,2020,02,ARTS-2020,Music And Technology 1,"Music technology-based research and composition taught in the context of modern computerized production methods. Technical topics include basic principles of music programming languages, digital sound synthesis and sampling, and the use of computer systems for musical control of electronic instruments. Musical topics include a study of important musical works and compositional techniques of the 21st century. Student projects involve hands-on work on a variety of computer programming languages, instruments, and software. This course is a prerequisite for further creative work with Rensselaer's computer music facilities.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-CHAMBER MUSIC ENSEMBLE,LEC,1,W,1:00PM,3:50PM,Chrysi Nanou,West Hall 323,16,15,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68757,2350,01,ARTS-2350,Chamber Music Ensemble,"An instrumental class that will be coached and rehearsed and will perform regularly. The larger ensemble will break up into smaller ensembles such as string quartets, woodwind quintets, trios, etc., depending on the make-up of the group, as well as into more unusual combinations that might be required to prepare 20th century repertoire. For intermediate and advanced players, entrance into the course is by authorization form/permission of instructor.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-CHAMBER MUSIC ENSEMBLE,LEC,1,T,4:00PM,6:50PM,Chrysi Nanou,West Hall 323,16,15,1,ARTS,2024-08-28,2024-12-20,FALL 2024,69537,2350,02,ARTS-2350,Chamber Music Ensemble,"An instrumental class that will be coached and rehearsed and will perform regularly. The larger ensemble will break up into smaller ensembles such as string quartets, woodwind quintets, trios, etc., depending on the make-up of the group, as well as into more unusual combinations that might be required to prepare 20th century repertoire. For intermediate and advanced players, entrance into the course is by authorization form/permission of instructor.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-"ART, COMMUNITY AND TECHNOLOGY",LEC,4,MR,10:00AM,11:50AM,Branda Miller,West Hall 112,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69534,4080,01,ARTS-4080,"ART, Community And Technology",,,,[],[],"Humanities, Arts, and Social Sciences"
-LIFE DRAWING AND ANATOMY FOR ARTISTS,LEC,4,TF,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,15,4,ARTS,2024-08-28,2024-12-20,FALL 2024,69061,4260,01,ARTS-4260,Life Drawing And Anatomy For Artists,"Life Drawing and Anatomy for Artists is an advanced drawing class that will focus on drawing the human figure. Students will work from live models to refine their drawing skills; clay models from anatomical texts will be made to develop a working knowledge of anatomy for artists. Gesture, proportion, and expression of the human figure will be emphasized; general concepts of design and composition will also be presented.",Prerequisite: ARTS 1200 or portfolio review by instructor,When Offered: spring term annually,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
-SEMINAR IN SOUND STUDIES,LEC,4,R,2:00PM,5:50PM,Kathleen A. Galloway,West Hall 112,10,7,3,ARTS,2024-08-28,2024-12-20,FALL 2024,69527,6960,01,ARTS-6960,Seminar In Sound Studies,Experimental courses offered for one to two semesters.,,,[],[],"Humanities, Arts, and Social Sciences"
+MUSIC AND TECHNOLOGY 1,LEC,4,TF,12:00PM,1:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,10,12,-2,ARTS,2024-08-28,2024-12-20,FALL 2024,65252,2020,01,ARTS-2020,Music And Technology 1,"Music technology-based research and composition taught in the context of modern computerized production methods. Technical topics include basic principles of music programming languages, digital sound synthesis and sampling, and the use of computer systems for musical control of electronic instruments. Musical topics include a study of important musical works and compositional techniques of the 21st century. Student projects involve hands-on work on a variety of computer programming languages, instruments, and software. This course is a prerequisite for further creative work with Rensselaer's computer music facilities.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MUSIC AND TECHNOLOGY 1,LEC,4,TF,12:00PM,1:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,9,8,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68230,2020,02,ARTS-2020,Music And Technology 1,"Music technology-based research and composition taught in the context of modern computerized production methods. Technical topics include basic principles of music programming languages, digital sound synthesis and sampling, and the use of computer systems for musical control of electronic instruments. Musical topics include a study of important musical works and compositional techniques of the 21st century. Student projects involve hands-on work on a variety of computer programming languages, instruments, and software. This course is a prerequisite for further creative work with Rensselaer's computer music facilities.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHAMBER MUSIC ENSEMBLE,LEC,1,W,1:00PM,3:50PM,Chrysi Nanou,West Hall 323,16,17,-1,ARTS,2024-08-28,2024-12-20,FALL 2024,68757,2350,01,ARTS-2350,Chamber Music Ensemble,"An instrumental class that will be coached and rehearsed and will perform regularly. The larger ensemble will break up into smaller ensembles such as string quartets, woodwind quintets, trios, etc., depending on the make-up of the group, as well as into more unusual combinations that might be required to prepare 20th century repertoire. For intermediate and advanced players, entrance into the course is by authorization form/permission of instructor.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHAMBER MUSIC ENSEMBLE,LEC,1,T,4:00PM,6:50PM,Chrysi Nanou,West Hall 323,16,18,-2,ARTS,2024-08-28,2024-12-20,FALL 2024,69537,2350,02,ARTS-2350,Chamber Music Ensemble,"An instrumental class that will be coached and rehearsed and will perform regularly. The larger ensemble will break up into smaller ensembles such as string quartets, woodwind quintets, trios, etc., depending on the make-up of the group, as well as into more unusual combinations that might be required to prepare 20th century repertoire. For intermediate and advanced players, entrance into the course is by authorization form/permission of instructor.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+"ART, COMMUNITY AND TECHNOLOGY",LEC,4,MR,10:00AM,11:50AM,Branda Miller,West Hall 112,19,18,1,ARTS,2024-08-28,2024-12-20,FALL 2024,69534,4080,01,ARTS-4080,"ART, Community And Technology",,,,[],[],"Humanities, Arts, and Social Sciences"
+LIFE DRAWING AND ANATOMY FOR ARTISTS,LEC,4,TF,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,18,1,ARTS,2024-08-28,2024-12-20,FALL 2024,69061,4260,01,ARTS-4260,Life Drawing And Anatomy For Artists,"Life Drawing and Anatomy for Artists is an advanced drawing class that will focus on drawing the human figure. Students will work from live models to refine their drawing skills; clay models from anatomical texts will be made to develop a working knowledge of anatomy for artists. Gesture, proportion, and expression of the human figure will be emphasized; general concepts of design and composition will also be presented.",Prerequisite: ARTS 1200 or portfolio review by instructor,When Offered: spring term annually,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
+SEMINAR IN SOUND STUDIES,LEC,4,R,2:00PM,5:50PM,Kathleen A. Galloway,West Hall 112,10,5,5,ARTS,2024-08-28,2024-12-20,FALL 2024,69527,6960,01,ARTS-6960,Seminar In Sound Studies,Experimental courses offered for one to two semesters.,,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Maryanne Staniszewski,TBA,10,2,8,ARTS,2024-08-28,2024-12-20,FALL 2024,66295,9990,01,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Benjamin Chia-Ming Chang,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68580,9990,02,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
-DISSERTATION,LEC,1-16,,,,Robert Kyle Hamilton,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68107,9990,03,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Robert Kyle Hamilton,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68107,9990,03,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Matthew William Goodheart,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,68581,9990,04,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Mary Simoni,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68582,9990,05,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Michael L. Century,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,67238,9990,06,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Robert F. Nideffer,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,67241,9990,07,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
-DISSERTATION,LEC,1-16,,,,Kathryn High,TBA,10,3,7,ARTS,2024-08-28,2024-12-20,FALL 2024,67483,9990,08,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Kathryn High,TBA,10,5,5,ARTS,2024-08-28,2024-12-20,FALL 2024,67483,9990,08,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Kathleen Ruiz,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,68583,9990,09,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Kathleen A. Galloway,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,69338,9990,10,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Branda Miller,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,69339,9990,11,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Igor Vamos,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,69340,9990,12,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
-DISSERTATION,LEC,1-16,,,,Silvia Ruzanka,TBA,10,1,9,ARTS,2024-08-28,2024-12-20,FALL 2024,69341,9990,13,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Silvia Ruzanka,TBA,10,0,10,ARTS,2024-08-28,2024-12-20,FALL 2024,69341,9990,13,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
 DIGITAL IMAGING,LEC,4,TF,10:00AM,11:50AM,Nathan Scott Meltz,West Hall 214,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,65250,1020,01,ARTS-1020,Digital Imaging,"This course introduces students to digital photography, Web design, and interactive multimedia in making art. Students broaden their understanding of such topics as composition, effective use of images, color theory, typography, and narrative flow. Inquiry and experimentation are encouraged, leading towards the development of the skill and techniques needed to create visual art with electronic media.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-3D TECHNICAL DIRECTION,LEC,4,TF,10:00AM,11:50AM,Silvia Ruzanka,Russell Sage Laboratory 2411,19,14,5,ARTS,2024-08-28,2024-12-20,FALL 2024,68948,4280,01,ARTS-4280,3D Technical Direction,"In 3D Animation, the technical director (or ""TD"") covers roles including character rigging, lighting setup, custom tools, and other parts of the pipeline that involve the technical work needed to support artistic creativity. In this course we will focus on rigging, covering basic and intermediate rigging techniques for characters in Maya including bipeds, facial rigs, motion capture and game engine pipelines and basic scripting in MEL and Python. We will emphasize an animator-friendly approach to rig design, utilizing both the technical capabilities of Maya and good UI and UX principles to produce rigs that are both powerful and easy to use.",Prerequisites/Corequisites: ARTS 2230,When Offered: Fall term,['ARTS 2230'],['ARTS 2230'],"Humanities, Arts, and Social Sciences"
+3D TECHNICAL DIRECTION,LEC,4,TF,10:00AM,11:50AM,Silvia Ruzanka,Russell Sage Laboratory 2411,19,13,6,ARTS,2024-08-28,2024-12-20,FALL 2024,68948,4280,01,ARTS-4280,3D Technical Direction,"In 3D Animation, the technical director (or ""TD"") covers roles including character rigging, lighting setup, custom tools, and other parts of the pipeline that involve the technical work needed to support artistic creativity. In this course we will focus on rigging, covering basic and intermediate rigging techniques for characters in Maya including bipeds, facial rigs, motion capture and game engine pipelines and basic scripting in MEL and Python. We will emphasize an animator-friendly approach to rig design, utilizing both the technical capabilities of Maya and good UI and UX principles to produce rigs that are both powerful and easy to use.",Prerequisites/Corequisites: ARTS 2230,When Offered: Fall term,['ARTS 2230'],['ARTS 2230'],"Humanities, Arts, and Social Sciences"
 DIGITAL FILMMAKING,LEC,4,MR,12:00PM,1:50PM,Elizabeth Press,West Hall 211,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68228,1030,01,ARTS-1030,Digital Filmmaking,"This is a hands-on introduction to film making. Students study a selection of great films; and learn how to make movies using lightweight field production equipment. Throughout the course students produce a variety of short videos in different genres, and develop their critical capacity for analyzing cinema and other forms of motion picture storytelling. The class ends with a mini film festival where everyone presents their work.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTERMEDIATE DIGITAL IMAGING,LEC,4,TR,6:00PM,7:50PM,Kathleen Ruiz,West Hall 214,19,8,11,ARTS,2024-08-28,2024-12-20,FALL 2024,68754,2040,01,ARTS-2040,Intermediate Digital Imaging,Intermediate Digital Imaging is a hands-on studio course exploring the use of computer technologies in making visual art. A study of contemporary issues in digital media and photography facilitates individual innovation and experimentation. Digital imaging and input/output techniques are employed in terms of giving visual form to ideas and personal expression in private and public settings.,Prerequisite: ARTS 1020 or permission of instructor,When Offered: Fall and spring terms annually.,['ARTS 1020'],['ARTS 1020'],"Humanities, Arts, and Social Sciences"
-MUSIC AND SOUND I,LEC,4,TF,12:00PM,1:50PM,Christopher James Fisher-Lochhead,West Hall 323,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68193,2380,01,ARTS-2380,Music And Sound I,"The first in a two-course sequence combining music theory, musicianship, and engaged listening practices applicable to a broad range of traditional and contemporary musical styles, with an emphasis on creative practice. This course covers the fundamentals of tonal harmony including scales, chord symbols and figured bass notation, diatonic chord progressions, and counterpoint. Musicianship includes aural identification of intervals, scales, and chords, rhythm and exercises in sight-singing, dictation, and improvisation. Engaged listening practices include responsive listening, reading, and written exercises as well as in-class discussion. Weekly assignments include composition, analysis, and performance.",Prerequisites/Corequisites: ARTS 1380 or demonstrable proficiency in music,When Offered: Fall term annually.,['ARTS 1380'],['ARTS 1380'],"Humanities, Arts, and Social Sciences"
+INTERMEDIATE DIGITAL IMAGING,LEC,4,TR,6:00PM,7:50PM,Kathleen Ruiz,West Hall 214,19,11,8,ARTS,2024-08-28,2024-12-20,FALL 2024,68754,2040,01,ARTS-2040,Intermediate Digital Imaging,Intermediate Digital Imaging is a hands-on studio course exploring the use of computer technologies in making visual art. A study of contemporary issues in digital media and photography facilitates individual innovation and experimentation. Digital imaging and input/output techniques are employed in terms of giving visual form to ideas and personal expression in private and public settings.,Prerequisite: ARTS 1020 or permission of instructor,When Offered: Fall and spring terms annually.,['ARTS 1020'],['ARTS 1020'],"Humanities, Arts, and Social Sciences"
+MUSIC AND SOUND I,LEC,4,TF,12:00PM,1:50PM,Christopher James Fisher-Lochhead,West Hall 323,19,18,1,ARTS,2024-08-28,2024-12-20,FALL 2024,68193,2380,01,ARTS-2380,Music And Sound I,"The first in a two-course sequence combining music theory, musicianship, and engaged listening practices applicable to a broad range of traditional and contemporary musical styles, with an emphasis on creative practice. This course covers the fundamentals of tonal harmony including scales, chord symbols and figured bass notation, diatonic chord progressions, and counterpoint. Musicianship includes aural identification of intervals, scales, and chords, rhythm and exercises in sight-singing, dictation, and improvisation. Engaged listening practices include responsive listening, reading, and written exercises as well as in-class discussion. Weekly assignments include composition, analysis, and performance.",Prerequisites/Corequisites: ARTS 1380 or demonstrable proficiency in music,When Offered: Fall term annually.,['ARTS 1380'],['ARTS 1380'],"Humanities, Arts, and Social Sciences"
 ART OF SONGWRITING,LEC,4,MR,2:00PM,3:50PM,Ross A. Rice,Darrin Communications Center 174,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,68765,2960,01,ARTS-2960,Art Of Songwriting,Experimental courses offered for one or two semesters.,,When Offered: Variable.,[],[],"Humanities, Arts, and Social Sciences"
 MUSIC AND SOUND II,LEC,4,TF,2:00PM,3:50PM,Christopher James Fisher-Lochhead,West Hall 323,19,9,10,ARTS,2024-08-28,2024-12-20,FALL 2024,69538,4380,01,ARTS-4380,Music And Sound Ii,"The second in a two-course sequence combining music theory, aural skills, and engaged listening practices applicable to a broad range of musical styles, with an emphasis on creative practice. This course covers chromatic, extended, and contemporary tonal harmony and its interrelationship with form. Musicianship exercises include advanced chord identification, rhythm exercises, dictation, and improvisation. Engaged listening practices include responsive listening, reading, and written exercises as well as in-class discussion. Weekly assignments include composition, analysis, and performance.",Prerequisite: ARTS 2380 or demonstratable proficiency in the prerequisite material,When Offered: Spring term annually.,['ARTS 2380'],['ARTS 2380'],"Humanities, Arts, and Social Sciences"
-BIOPUNK: ARTS LAB PRACTICE,LEC,3,MR,12:00PM,1:50PM,Kathryn High,West Hall 214,19,3,16,ARTS,2024-08-28,2024-12-20,FALL 2024,69536,6120,01,ARTS-6120,BIOPUNK: Arts Lab Practice,"Biopunk: Arts Lab Practice is a studio, lab and lecture class introducing students to bioart, and microbial life and resilient ecological practices. We use punk, queer and biological laboratory techniques to creatively produce science, design and art works. Students will be required to complete readings, experiment, and create their own visions of a speculative biofuture. Emphasis will be on the history and contemporary investigations of the microbiome and how to culturally explore these scenarios of how we live amongst multiple diverse communities and species.",,,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO GAME ART,LEC,4,TF,2:00PM,3:50PM,Adrianna Sakamoto Oropello,West Hall 214,19,4,15,ARTS,2024-08-28,2024-12-20,FALL 2024,69530,1040,01,ARTS-1040,Intro To Game Art,"This course combines an introduction to traditional visual arts and digital media and serves as a foundation for work in game design and interactive art. Using studio projects that incorporate physical media, digital imaging and computer code, students develop their formal vocabulary, observational skills, and their understanding of issues in visual and interactive arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-BIOPUNK: ARTS LAB PRACTICE,LEC,4,MR,12:00PM,1:50PM,Kathryn High,West Hall 214,19,14,5,ARTS,2024-08-28,2024-12-20,FALL 2024,69535,4120,01,ARTS-4120,BIOPUNK: Arts Lab Practice,"Biopunk: Arts Lab Practice is a studio, lab and lecture class introducing students to bioart, and microbial life and resilient ecological practices. We use punk, queer and biological laboratory techniques to creatively produce science, design and art works. Students will be required to complete readings, experiment, and create their own visions of a speculative biofuture. Emphasis will be on the history and contemporary investigations of the microbiome and how to culturally explore these scenarios of how we live amongst multiple diverse communities and species.","Prerequisites: ARTS 1020, ARTS 1030, ARTS 1040, ARTS 1200, ARTS 1220, ARTS 2020, ARTS 2380, INQR 1030, INQR 1040, INQR 1170, INQR 1180, ARTS 4140, or permission of instructor",When Offered: Fall term annually,"['ARTS 1020', 'ARTS 1030', 'ARTS 1040', 'ARTS 1200', 'ARTS 1220', 'ARTS 2020', 'ARTS 2380', 'INQR 1030', 'INQR 1040', 'INQR 1170', 'INQR 1180', 'ARTS 4140']","['ARTS 1020', 'ARTS 1030', 'ARTS 1040', 'ARTS 1200', 'ARTS 1220', 'ARTS 2020', 'ARTS 2380', 'INQR 1030', 'INQR 1040', 'INQR 1170', 'INQR 1180', 'ARTS 4140']","Humanities, Arts, and Social Sciences"
-COMPOSITION SEMINAR,LEC,4,TF,2:00PM,3:50PM,Matthew William Goodheart,West Hall 326,19,4,15,ARTS,2024-08-28,2024-12-20,FALL 2024,68770,4390,01,ARTS-4390,Composition Seminar,"This seminar builds on skills acquired in the Music and Sound sequence. Through a series of exercises, students investigate sound as a medium for artistic expression while addressing the basics of orchestration, notation, and the development of musical and sonic ideas. Acoustic, electronic, and non-traditional contemporary approaches to composition will be explored, including performance, intermedia, and sound installation. The course culminates in a final composition project to be performed in an end of semester concert.",Prerequisites: ARTS 4380 or permission of instructor,When Offered: Fall or spring term annually,['ARTS 4380'],['ARTS 4380'],"Humanities, Arts, and Social Sciences"
-ART HISTORY,LEC,4,TF,8:00AM,9:50AM,Nathan Scott Meltz,West Hall AUD,20,20,0,ARTS,2024-08-28,2024-12-20,FALL 2024,67807,1050,01,ARTS-1050,Art History,"A thematic investigation of art in diverse social, cultural, and historical contexts. This course explores how artists, art collectives, artworks, and institutional structures interact with their respective cultural moment(s) and are received by audiences and artists in the present. This course examines the ways in which artists, artist assistants, audiences, patrons, curators, galleries, public spaces, inventors, artists, and technologies shape artistic practices, and how these artistic practices in turn shape our identities..",,When Offered: Spring annually,[],[],"Humanities, Arts, and Social Sciences"
-ART HISTORY,LEC,4,TF,8:00AM,9:50AM,Nathan Scott Meltz,West Hall AUD,24,24,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69749,1050,02,ARTS-1050,Art History,"A thematic investigation of art in diverse social, cultural, and historical contexts. This course explores how artists, art collectives, artworks, and institutional structures interact with their respective cultural moment(s) and are received by audiences and artists in the present. This course examines the ways in which artists, artist assistants, audiences, patrons, curators, galleries, public spaces, inventors, artists, and technologies shape artistic practices, and how these artistic practices in turn shape our identities..",,When Offered: Spring annually,[],[],"Humanities, Arts, and Social Sciences"
-HIST OF JAZZ & IMPROVIS MUSIC,LEC,4,TF,2:00PM,3:50PM,TBA,West Hall 323,19,19,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69063,2510,01,ARTS-2510,Hist Of Jazz & Improvis Music,"Since its emergence over a century ago, the energy, vitality, and challenging nature of jazz have had a significant impact on music throughout the world. The question of ""what is jazz"" remains a lively and contentious discussion to this day. This course charts the emergence, evolution, and expanded influence of jazz and jazz-inspired music, as well as the many controversial musical, social, and philosophical questions it continues to provoke. Through listening, analysis, discussion, writing, and creative projects, students will develop a greater appreciation and understanding of improvised music in a great variety of contexts, and the crucial role American jazz played in revitalizing improvisational practice throughout the 20th and 21st Centuries. No musical background is required.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-WIND SYMPHONY,LEC,1,WF,5:00PM,6:50PM,Robert Michael Whalen,258 Hoosick Street ,45,18,27,ARTS,2024-08-28,2024-12-20,FALL 2024,69073,2962,01,ARTS-2962,Wind Symphony,,,,[],[],"Humanities, Arts, and Social Sciences"
-HACTIVISM,LEC,4,T,6:00PM,9:50PM,Igor Vamos,West Hall 211,19,1,18,ARTS,2024-08-28,2024-12-20,FALL 2024,68547,6560,01,ARTS-6560,Hactivism,"This course explores the history, methods, and goals of hackers with special attention paid to their role in social movements. It broadly interprets the term ""hacktivism"" to include computer hacking, media hacking, and ""reality hacking"" in the service of social change. Students will gain an understanding of how and why hackers have emerged as a major social force. Graduate students will produce an ethnographic record and analysis of a publicly recognized hacking event or figure.",,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+BIOPUNK: ARTS LAB PRACTICE,LEC,3,MR,12:00PM,1:50PM,Kathryn High,West Hall 214,19,4,15,ARTS,2024-08-28,2024-12-20,FALL 2024,69536,6120,01,ARTS-6120,BIOPUNK: Arts Lab Practice,"Biopunk: Arts Lab Practice is a studio, lab and lecture class introducing students to bioart, and microbial life and resilient ecological practices. We use punk, queer and biological laboratory techniques to creatively produce science, design and art works. Students will be required to complete readings, experiment, and create their own visions of a speculative biofuture. Emphasis will be on the history and contemporary investigations of the microbiome and how to culturally explore these scenarios of how we live amongst multiple diverse communities and species.",,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME ART,LEC,4,TF,2:00PM,3:50PM,Adrianna Sakamoto Oropello,West Hall 214,19,9,10,ARTS,2024-08-28,2024-12-20,FALL 2024,69530,1040,01,ARTS-1040,Intro To Game Art,"This course combines an introduction to traditional visual arts and digital media and serves as a foundation for work in game design and interactive art. Using studio projects that incorporate physical media, digital imaging and computer code, students develop their formal vocabulary, observational skills, and their understanding of issues in visual and interactive arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+BIOPUNK: ARTS LAB PRACTICE,LEC,4,MR,12:00PM,1:50PM,Kathryn High,West Hall 214,19,11,8,ARTS,2024-08-28,2024-12-20,FALL 2024,69535,4120,01,ARTS-4120,BIOPUNK: Arts Lab Practice,"Biopunk: Arts Lab Practice is a studio, lab and lecture class introducing students to bioart, and microbial life and resilient ecological practices. We use punk, queer and biological laboratory techniques to creatively produce science, design and art works. Students will be required to complete readings, experiment, and create their own visions of a speculative biofuture. Emphasis will be on the history and contemporary investigations of the microbiome and how to culturally explore these scenarios of how we live amongst multiple diverse communities and species.","Prerequisites: ARTS 1020, ARTS 1030, ARTS 1040, ARTS 1200, ARTS 1220, ARTS 2020, ARTS 2380, INQR 1030, INQR 1040, INQR 1170, INQR 1180, ARTS 4140, or permission of instructor",When Offered: Fall term annually,"['ARTS 1020', 'ARTS 1030', 'ARTS 1040', 'ARTS 1200', 'ARTS 1220', 'ARTS 2020', 'ARTS 2380', 'INQR 1030', 'INQR 1040', 'INQR 1170', 'INQR 1180', 'ARTS 4140']","['ARTS 1020', 'ARTS 1030', 'ARTS 1040', 'ARTS 1200', 'ARTS 1220', 'ARTS 2020', 'ARTS 2380', 'INQR 1030', 'INQR 1040', 'INQR 1170', 'INQR 1180', 'ARTS 4140']","Humanities, Arts, and Social Sciences"
+COMPOSITION SEMINAR,LEC,4,TF,2:00PM,3:50PM,Matthew William Goodheart,West Hall 326,19,7,12,ARTS,2024-08-28,2024-12-20,FALL 2024,68770,4390,01,ARTS-4390,Composition Seminar,"This seminar builds on skills acquired in the Music and Sound sequence. Through a series of exercises, students investigate sound as a medium for artistic expression while addressing the basics of orchestration, notation, and the development of musical and sonic ideas. Acoustic, electronic, and non-traditional contemporary approaches to composition will be explored, including performance, intermedia, and sound installation. The course culminates in a final composition project to be performed in an end of semester concert.",Prerequisites: ARTS 4380 or permission of instructor,When Offered: Fall or spring term annually,['ARTS 4380'],['ARTS 4380'],"Humanities, Arts, and Social Sciences"
+ART HISTORY,LEC,4,TF,8:00AM,9:50AM,Nathan Scott Meltz,West Hall AUD,20,19,1,ARTS,2024-08-28,2024-12-20,FALL 2024,67807,1050,01,ARTS-1050,Art History,"A thematic investigation of art in diverse social, cultural, and historical contexts. This course explores how artists, art collectives, artworks, and institutional structures interact with their respective cultural moment(s) and are received by audiences and artists in the present. This course examines the ways in which artists, artist assistants, audiences, patrons, curators, galleries, public spaces, inventors, artists, and technologies shape artistic practices, and how these artistic practices in turn shape our identities..",,When Offered: Spring annually,[],[],"Humanities, Arts, and Social Sciences"
+ART IN CONTEXT,LEC,4,TF,8:00AM,9:50AM,Nathan Scott Meltz,West Hall AUD,24,24,0,ARTS,2024-08-28,2024-12-20,FALL 2024,69749,1050,02,ARTS-1050,Art In Context,"A thematic investigation of art in diverse social, cultural, and historical contexts. This course explores how artists, art collectives, artworks, and institutional structures interact with their respective cultural moment(s) and are received by audiences and artists in the present. This course examines the ways in which artists, artist assistants, audiences, patrons, curators, galleries, public spaces, inventors, artists, and technologies shape artistic practices, and how these artistic practices in turn shape our identities..",,When Offered: Spring annually,[],[],"Humanities, Arts, and Social Sciences"
+WIND SYMPHONY,LEC,1,WF,5:00PM,6:50PM,Robert Michael Whalen,258 Hoosick Street ,45,41,4,ARTS,2024-08-28,2024-12-20,FALL 2024,69073,2962,01,ARTS-2962,Wind Symphony,,,,[],[],"Humanities, Arts, and Social Sciences"
+HACTIVISM,LEC,4,T,6:00PM,9:50PM,Igor Vamos,West Hall 211,19,2,17,ARTS,2024-08-28,2024-12-20,FALL 2024,68547,6560,01,ARTS-6560,Hactivism,"This course explores the history, methods, and goals of hackers with special attention paid to their role in social movements. It broadly interprets the term ""hacktivism"" to include computer hacking, media hacking, and ""reality hacking"" in the service of social change. Students will gain an understanding of how and why hackers have emerged as a major social force. Graduate students will produce an ethnographic record and analysis of a publicly recognized hacking event or figure.",,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
 "PRO-SEMR IN COMM, MEDIA, DSGN",LEC,4,MR,2:00PM,3:50PM,Tamar Gordon,Low Center for Industrial Inn. 4040,19,13,6,COMM,2024-08-28,2024-12-20,FALL 2024,68835,4930,01,COMM-4930,"PRO-SEMR In COMM, MEDIA, Dsgn","Designed for first-semester senior Communication, Media, and Design majors, Pro-Seminar is the capstone course for the development of the Senior Project. Students will create a professional portfolio piece that showcases their work in the diverse disciplines of communication and media",,When Offered: fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 COMMUNICATION THEORY & PRAC.,LEC,4,MR,10:00AM,11:50AM,Weina Ran,Russell Sage Laboratory 3205,16,17,-1,COMM,2024-08-28,2024-12-20,FALL 2024,68223,2520,01,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-COMMUNICATION THEORY & PRAC.,LEC,4,MR,10:00AM,11:50AM,Weina Ran,Russell Sage Laboratory 3205,3,3,0,COMM,2024-08-28,2024-12-20,FALL 2024,68224,2520,02,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-COMMUNICATION THEORY & PRAC.,LEC,4,TF,10:00AM,11:50AM,Alexander Scott Hiland,Low Center for Industrial Inn. 3112,19,19,0,COMM,2024-08-28,2024-12-20,FALL 2024,69055,2520,03,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,MR,10:00AM,11:50AM,Weina Ran,Russell Sage Laboratory 3205,3,2,1,COMM,2024-08-28,2024-12-20,FALL 2024,68224,2520,02,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,TF,10:00AM,11:50AM,Alexander Scott Hiland,Low Center for Industrial Inn. 3112,19,20,-1,COMM,2024-08-28,2024-12-20,FALL 2024,69055,2520,03,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 COMMUNICATION THEORY & PRAC.,LEC,4,MR,12:00PM,1:50PM,Weina Ran,Russell Sage Laboratory 3205,19,20,-1,COMM,2024-08-28,2024-12-20,FALL 2024,69317,2520,04,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 WRITING FOR TECH COMMUNICATION,LEC,3,TF,10:00AM,11:50AM,Leah Corinne Jones,Russell Sage Laboratory 3705,5,0,5,COMM,2024-08-28,2024-12-20,FALL 2024,69555,6960,01,COMM-6960,Writing For Tech Communication,Experimental courses tried out in one or two terms.,,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Andrew Arthur Fitzgerald,TBA,10,1,9,COMM,2024-08-28,2024-12-20,FALL 2024,66312,9990,01,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
@@ -1143,34 +1175,34 @@ DISSERTATION,LEC,1-16,,,,Patricia Search,TBA,10,0,10,COMM,2024-08-28,2024-12-20,
 DISSERTATION,LEC,1-16,,,,Tamar Gordon,TBA,10,1,9,COMM,2024-08-28,2024-12-20,FALL 2024,65492,9990,05,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Miles A Kimball,TBA,10,0,10,COMM,2024-08-28,2024-12-20,FALL 2024,68579,9990,06,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-16,,,,Yalun Zhou,TBA,10,0,10,COMM,2024-08-28,2024-12-20,FALL 2024,69075,9990,07,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
-TYPOGRAPHY,LEC,4,MR,8:00AM,9:50AM,Sara L. Tack,Russell Sage Laboratory 2411,19,19,0,COMM,2024-08-28,2024-12-20,FALL 2024,69797,2570,01,COMM-2570,Typography,"Typography studies the form and function of alphabetic and pictographic systems in English-speaking society. The course aims to imbue in students a critical perspective on the role typography plays in the history and sustenance of civilization and the propagation of ideas throughout society. Students will read historical, theoretical, and evidence-based literature to glean principles for designing communicatively effective type. Verbal and visual assignments will enforce understanding of typographic principles and grammar for use in print and digital interfaces.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
-WRITING FOR TECH COMMUNICATION,LEC,4,TF,10:00AM,11:50AM,Leah Corinne Jones,Russell Sage Laboratory 3705,14,13,1,COMM,2024-08-28,2024-12-20,FALL 2024,69554,4960,01,COMM-4960,Writing For Tech Communication,Experimental courses tried out in one or two terms.,,,[],[],"Humanities, Arts, and Social Sciences"
-HEALTH COMM IN PRACTICE,LEC,4,MR,2:00PM,3:50PM,Weina Ran,Russell Sage Laboratory 3205,16,17,-1,COMM,2024-08-28,2024-12-20,FALL 2024,69288,4288,01,COMM-4288,Health Comm In Practice,"This course is designed to provide students with a comprehensive overview of major theories, research, and practice in health communication. Upon completing this course, students will have a broad understanding of health communication and specialized knowledge in an area of interest: patient-provider communication, health-information seeking, media/health literacy and health disparities, and health communication campaigns.",Prerequisite: COMM 2520 or COMM 2660 or WRIT 1110 or WRIT 2110; or permission of the instructor,When Offered: Fall Semester Annually,"['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","Humanities, Arts, and Social Sciences"
+TYPOGRAPHY,LEC,4,MR,8:00AM,9:50AM,Sara L. Tack,Russell Sage Laboratory 2411,19,18,1,COMM,2024-08-28,2024-12-20,FALL 2024,69797,2570,01,COMM-2570,Typography,"Typography studies the form and function of alphabetic and pictographic systems in English-speaking society. The course aims to imbue in students a critical perspective on the role typography plays in the history and sustenance of civilization and the propagation of ideas throughout society. Students will read historical, theoretical, and evidence-based literature to glean principles for designing communicatively effective type. Verbal and visual assignments will enforce understanding of typographic principles and grammar for use in print and digital interfaces.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+WRITING FOR TECH COMMUNICATION,LEC,4,TF,10:00AM,11:50AM,Leah Corinne Jones,Russell Sage Laboratory 3705,14,14,0,COMM,2024-08-28,2024-12-20,FALL 2024,69554,4960,01,COMM-4960,Writing For Tech Communication,Experimental courses tried out in one or two terms.,,,[],[],"Humanities, Arts, and Social Sciences"
+HEALTH COMM IN PRACTICE,LEC,4,MR,2:00PM,3:50PM,Weina Ran,Russell Sage Laboratory 3205,16,14,2,COMM,2024-08-28,2024-12-20,FALL 2024,69288,4288,01,COMM-4288,Health Comm In Practice,"This course is designed to provide students with a comprehensive overview of major theories, research, and practice in health communication. Upon completing this course, students will have a broad understanding of health communication and specialized knowledge in an area of interest: patient-provider communication, health-information seeking, media/health literacy and health disparities, and health communication campaigns.",Prerequisite: COMM 2520 or COMM 2660 or WRIT 1110 or WRIT 2110; or permission of the instructor,When Offered: Fall Semester Annually,"['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","Humanities, Arts, and Social Sciences"
 HEALTH COMM IN PRACTICE,LEC,4,MR,2:00PM,3:50PM,Weina Ran,Russell Sage Laboratory 3205,3,3,0,COMM,2024-08-28,2024-12-20,FALL 2024,69289,4288,02,COMM-4288,Health Comm In Practice,"This course is designed to provide students with a comprehensive overview of major theories, research, and practice in health communication. Upon completing this course, students will have a broad understanding of health communication and specialized knowledge in an area of interest: patient-provider communication, health-information seeking, media/health literacy and health disparities, and health communication campaigns.",Prerequisite: COMM 2520 or COMM 2660 or WRIT 1110 or WRIT 2110; or permission of the instructor,When Offered: Fall Semester Annually,"['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","Humanities, Arts, and Social Sciences"
-ADVERTISING AND CULTURE,LEC,4,TF,10:00AM,11:50AM,June Deery,Russell Sage Laboratory 4711,19,19,0,COMM,2024-08-28,2024-12-20,FALL 2024,69291,4580,01,COMM-4580,Advertising And Culture,"An examination of the cultural impact of advertising in various media: TV, radio, print, and the Web. How does advertising inform human experience and identity? How has it shaped the culture? Who pays for it and why? Note: This is not a How-To course. The focus is critical analysis, not acquiring skills for producing advertising.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,10:00AM,11:50AM,Benjamin David Gleeksman,West Hall 211,16,16,0,COMM,2024-08-28,2024-12-20,FALL 2024,67859,2660,01,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,10:00AM,11:50AM,Benjamin David Gleeksman,West Hall 112,3,3,0,COMM,2024-08-28,2024-12-20,FALL 2024,68130,2660,02,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO GRAPHIC DESIGN,LEC,4,MR,2:00PM,3:50PM,Sara L. Tack,Russell Sage Laboratory 2411,16,16,0,COMM,2024-08-28,2024-12-20,FALL 2024,68832,2660,03,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO GRAPHIC DESIGN,LEC,4,MR,2:00PM,3:50PM,Sara L. Tack,Russell Sage Laboratory 2411,3,4,-1,COMM,2024-08-28,2024-12-20,FALL 2024,69053,2660,04,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,8:00AM,9:50AM,Benjamin David Gleeksman,West Hall 211,19,20,-1,COMM,2024-08-28,2024-12-20,FALL 2024,69286,2660,05,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-FOUNDATIONS OF HCI USABILITY,LEC,3,TF,12:00PM,1:50PM,Kathleen Sturey Fontaine,Low Center for Industrial Inn. 3045,40,23,17,COMM,2024-08-28,2024-12-20,FALL 2024,67870,6420,01,COMM-6420,Foundations Of Hci Usability,"This course will consider methods for gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-FOUNDATIONS OF HCI USABILITY,LEC,3,MR,8:00AM,9:50AM,Justin Dowdall,Russell Sage Laboratory 2112,4,4,0,COMM,2024-08-28,2024-12-20,FALL 2024,69844,6420,02,COMM-6420,Foundations Of Hci Usability,"This course will consider methods for gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-FOUNDATIONS OF HCI USABILITY,LEC,3,MR,10:00AM,11:50AM,Justin Dowdall,TBA,4,2,2,COMM,2024-08-28,2024-12-20,FALL 2024,69846,6420,03,COMM-6420,Foundations Of Hci Usability,"This course will consider methods for gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-FOUNDATIONS OF HCI USABILITY,LEC,4,TF,12:00PM,1:50PM,Kathleen Sturey Fontaine,Low Center for Industrial Inn. 3045,40,17,23,COMM,2024-08-28,2024-12-20,FALL 2024,67869,4420,01,COMM-4420,Foundations Of Hci Usability,"In this course, students will consider methods of gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-FOUNDATIONS OF HCI USABILITY,LEC,4,MR,8:00AM,9:50AM,Justin Dowdall,Russell Sage Laboratory 2112,15,2,13,COMM,2024-08-28,2024-12-20,FALL 2024,69843,4420,02,COMM-4420,Foundations Of Hci Usability,"In this course, students will consider methods of gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-FOUNDATIONS OF HCI USABILITY,LEC,4,MR,10:00AM,11:50AM,Justin Dowdall,TBA,15,4,11,COMM,2024-08-28,2024-12-20,FALL 2024,69845,4420,03,COMM-4420,Foundations Of Hci Usability,"In this course, students will consider methods of gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ADVERTISING AND CULTURE,LEC,4,TF,10:00AM,11:50AM,June Deery,Russell Sage Laboratory 4711,19,20,-1,COMM,2024-08-28,2024-12-20,FALL 2024,69291,4580,01,COMM-4580,Advertising And Culture,"An examination of the cultural impact of advertising in various media: TV, radio, print, and the Web. How does advertising inform human experience and identity? How has it shaped the culture? Who pays for it and why? Note: This is not a How-To course. The focus is critical analysis, not acquiring skills for producing advertising.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,10:00AM,11:50AM,Benjamin David Gleeksman,West Hall 211,16,17,-1,COMM,2024-08-28,2024-12-20,FALL 2024,67859,2660,01,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,10:00AM,11:50AM,Benjamin David Gleeksman,West Hall 211,3,3,0,COMM,2024-08-28,2024-12-20,FALL 2024,68130,2660,02,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,MR,2:00PM,3:50PM,Sara L. Tack,Russell Sage Laboratory 2411,16,15,1,COMM,2024-08-28,2024-12-20,FALL 2024,68832,2660,03,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,MR,2:00PM,3:50PM,Sara L. Tack,Russell Sage Laboratory 2411,3,2,1,COMM,2024-08-28,2024-12-20,FALL 2024,69053,2660,04,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,8:00AM,9:50AM,Benjamin David Gleeksman,West Hall 211,19,22,-3,COMM,2024-08-28,2024-12-20,FALL 2024,69286,2660,05,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+FOUNDATIONS OF HCI USABILITY,LEC,3,TF,12:00PM,1:50PM,Kathleen Sturey Fontaine,Low Center for Industrial Inn. 3045,40,18,22,COMM,2024-08-28,2024-12-20,FALL 2024,67870,6420,01,COMM-6420,Foundations Of Hci Usability,"This course will consider methods for gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+FOUNDATIONS OF HCI USABILITY,LEC,3,MR,8:00AM,9:50AM,Justin Dowdall,Russell Sage Laboratory 2112,4,7,-3,COMM,2024-08-28,2024-12-20,FALL 2024,69844,6420,02,COMM-6420,Foundations Of Hci Usability,"This course will consider methods for gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+FOUNDATIONS OF HCI USABILITY,LEC,3,MR,10:00AM,11:50AM,Justin Dowdall,Russell Sage Laboratory 5203,4,1,3,COMM,2024-08-28,2024-12-20,FALL 2024,69846,6420,03,COMM-6420,Foundations Of Hci Usability,"This course will consider methods for gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+FOUNDATIONS OF HCI USABILITY,LEC,4,TF,12:00PM,1:50PM,Kathleen Sturey Fontaine,Low Center for Industrial Inn. 3045,40,18,22,COMM,2024-08-28,2024-12-20,FALL 2024,67869,4420,01,COMM-4420,Foundations Of Hci Usability,"In this course, students will consider methods of gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+FOUNDATIONS OF HCI USABILITY,LEC,4,MR,8:00AM,9:50AM,Justin Dowdall,Russell Sage Laboratory 2112,15,6,9,COMM,2024-08-28,2024-12-20,FALL 2024,69843,4420,02,COMM-4420,Foundations Of Hci Usability,"In this course, students will consider methods of gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+FOUNDATIONS OF HCI USABILITY,LEC,4,MR,10:00AM,11:50AM,Justin Dowdall,Russell Sage Laboratory 5203,15,5,10,COMM,2024-08-28,2024-12-20,FALL 2024,69845,4420,03,COMM-4420,Foundations Of Hci Usability,"In this course, students will consider methods of gathering users' requirements for product functions and information, ways to test products and information for usability and suitability, and procedures for incorporating the results learned through testing. Students will design and conduct usability tests on products, documents, and interfaces of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 EFF COMM: CLASSROOM PEDAGOGY,LEC,3,MR,6:00PM,7:50PM,Anita Kay Greenfield,Darrin Communications Center 236,19,9,10,COMM,2024-08-28,2024-12-20,FALL 2024,69869,1350,01,COMM-1350,Eff COMM: Classroom Pedagogy,"This course is designed to provide international graduate students with pedagogy and communication training so that they are able to present academic information clearly in English, interact effectively with students, practice classroom management skills, accommodate different learning styles, and understand cross-cultural aspects of teaching and learning. The course is restricted to international PhD students.",None.,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-EFF COMM: CLASSROOM PEDAGOGY,LEC,3,MR,10:00AM,11:50AM,Anita Kay Greenfield,Carnegie Building 201,19,11,8,COMM,2024-08-28,2024-12-20,FALL 2024,69870,1350,02,COMM-1350,Eff COMM: Classroom Pedagogy,"This course is designed to provide international graduate students with pedagogy and communication training so that they are able to present academic information clearly in English, interact effectively with students, practice classroom management skills, accommodate different learning styles, and understand cross-cultural aspects of teaching and learning. The course is restricted to international PhD students.",None.,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-EFF COMM: CLASSROOM PEDAGOGY,LEC,3,MR,4:00PM,5:50PM,Anita Kay Greenfield,Darrin Communications Center 236,19,10,9,COMM,2024-08-28,2024-12-20,FALL 2024,69867,1350,03,COMM-1350,Eff COMM: Classroom Pedagogy,"This course is designed to provide international graduate students with pedagogy and communication training so that they are able to present academic information clearly in English, interact effectively with students, practice classroom management skills, accommodate different learning styles, and understand cross-cultural aspects of teaching and learning. The course is restricted to international PhD students.",None.,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-2-D MOTION GRAPHICS,LEC,4,TF,2:00PM,3:50PM,Benjamin David Gleeksman,Russell Sage Laboratory 2411,19,21,-2,COMM,2024-08-28,2024-12-20,FALL 2024,69293,4970,01,COMM-4970,2-D Motion Graphics,"This course is a hands-on investigation into communicating effectively using motion graphics. Students will learn the art of communicating in a time-based medium using typography, graphics, photos, illustrations, video, and audio. Investigations include logo and brand animations, title sequences, graphic and typographic narratives, and researching, interpreting, and animating data to communicate real-world problems.",Prerequisite: COMM 2660,"When Offered: Fall term, even-numbered years",['COMM 2660'],['COMM 2660'],"Humanities, Arts, and Social Sciences"
-RESEARCH METHODS,LEC,3,T,9:00AM,11:50AM,Michael L. Century,West Hall 113,19,5,14,IHSS,2024-08-28,2024-12-20,FALL 2024,68408,6570,01,IHSS-6570,Research Methods,"This seminar is an investigation of creative, theoretical, and historical research methods in the interdisciplinary arts. Students will be introduced to arts practice-based research discourses and will gain competence in writing and research techniques, conventions, and methods. This course is a requirement for all Arts Department doctoral students.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-MEDIA STUDIES,LEC,3,M,2:00PM,4:50PM,Andrew Arthur Fitzgerald,Russell Sage Laboratory 2707,19,5,14,IHSS,2024-08-28,2024-12-20,FALL 2024,69552,6790,01,IHSS-6790,Media Studies,"This HASS graduate seminar examines major theories and approaches to studying the media from a broad cultural studies perspective. Analysis of foundational and contemporary readings will allow students to consider, from their own field's perspective, topics such as the politics of representation and the representation of politics; commercialization; surveillance; depictions of gender, race, and class; and the fictional, factual, and fake. Examples will be drawn mainly from the mass media, particularly television and film.",,When Offered: Fall term even-numbered years,[],[],"Humanities, Arts, and Social Sciences"
-BEHIND THE TV SCREEN,LEC,4,MR,10:00AM,11:50AM,Elizabeth Press,West Hall 214,16,17,-1,INQR,2024-08-28,2024-12-20,FALL 2024,69247,1030,01,INQR-1030,Behind The Tv Screen,"Television is considered a defining social, political and cultural feature of consumer culture. Television is morphing into something more expansive and diverse. In this course, we will study the impact of television and learn to make it. Through hands-on experience, students produce and direct their own multi-camera projects. Students work on technical and creative aspects of production. Students learn to operate studio gear including green screen, live switcher, cameras, audio, teleprompter, lights, etc.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+EFF COMM: CLASSROOM PEDAGOGY,LEC,3,MR,10:00AM,11:50AM,Anita Kay Greenfield,Carnegie Building 201,19,10,9,COMM,2024-08-28,2024-12-20,FALL 2024,69870,1350,02,COMM-1350,Eff COMM: Classroom Pedagogy,"This course is designed to provide international graduate students with pedagogy and communication training so that they are able to present academic information clearly in English, interact effectively with students, practice classroom management skills, accommodate different learning styles, and understand cross-cultural aspects of teaching and learning. The course is restricted to international PhD students.",None.,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+EFF COMM: CLASSROOM PEDAGOGY,LEC,3,MR,4:00PM,5:50PM,Anita Kay Greenfield,Darrin Communications Center 236,19,16,3,COMM,2024-08-28,2024-12-20,FALL 2024,69867,1350,03,COMM-1350,Eff COMM: Classroom Pedagogy,"This course is designed to provide international graduate students with pedagogy and communication training so that they are able to present academic information clearly in English, interact effectively with students, practice classroom management skills, accommodate different learning styles, and understand cross-cultural aspects of teaching and learning. The course is restricted to international PhD students.",None.,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+2-D MOTION GRAPHICS,LEC,4,TF,2:00PM,3:50PM,Benjamin David Gleeksman,Russell Sage Laboratory 2411,19,23,-4,COMM,2024-08-28,2024-12-20,FALL 2024,69293,4970,01,COMM-4970,2-D Motion Graphics,"This course is a hands-on investigation into communicating effectively using motion graphics. Students will learn the art of communicating in a time-based medium using typography, graphics, photos, illustrations, video, and audio. Investigations include logo and brand animations, title sequences, graphic and typographic narratives, and researching, interpreting, and animating data to communicate real-world problems.",Prerequisite: COMM 2660,"When Offered: Fall term, even-numbered years",['COMM 2660'],['COMM 2660'],"Humanities, Arts, and Social Sciences"
+RESEARCH METHODS,LEC,3,T,9:00AM,11:50AM,Michael L. Century,West Hall 113,19,4,15,IHSS,2024-08-28,2024-12-20,FALL 2024,68408,6570,01,IHSS-6570,Research Methods,"This seminar is an investigation of creative, theoretical, and historical research methods in the interdisciplinary arts. Students will be introduced to arts practice-based research discourses and will gain competence in writing and research techniques, conventions, and methods. This course is a requirement for all Arts Department doctoral students.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MEDIA STUDIES,LEC,3,M,2:00PM,4:50PM,Andrew Arthur Fitzgerald,Russell Sage Laboratory 5203,19,4,15,IHSS,2024-08-28,2024-12-20,FALL 2024,69552,6790,01,IHSS-6790,Media Studies,"This HASS graduate seminar examines major theories and approaches to studying the media from a broad cultural studies perspective. Analysis of foundational and contemporary readings will allow students to consider, from their own field's perspective, topics such as the politics of representation and the representation of politics; commercialization; surveillance; depictions of gender, race, and class; and the fictional, factual, and fake. Examples will be drawn mainly from the mass media, particularly television and film.",,When Offered: Fall term even-numbered years,[],[],"Humanities, Arts, and Social Sciences"
+BEHIND THE TV SCREEN,LEC,4,MR,10:00AM,11:50AM,Elizabeth Press,Darrin Communications Center 174,16,17,-1,INQR,2024-08-28,2024-12-20,FALL 2024,69247,1030,01,INQR-1030,Behind The Tv Screen,"Television is considered a defining social, political and cultural feature of consumer culture. Television is morphing into something more expansive and diverse. In this course, we will study the impact of television and learn to make it. Through hands-on experience, students produce and direct their own multi-camera projects. Students work on technical and creative aspects of production. Students learn to operate studio gear including green screen, live switcher, cameras, audio, teleprompter, lights, etc.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 SONGWRITING WORKSHOP,LEC,4,MR,4:00PM,5:50PM,Ross A. Rice,Darrin Communications Center 174,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69252,1700,01,INQR-1700,Songwriting Workshop,"A course designed for students to develop their own voice as a songwriter. The course surveys the methods of successful songwriters, highlighting aspects of melody, lyrics, harmonic progression, story-telling, audience, and social context. Students develop a portfolio of their own original songs and lyrics, presented weekly and performed in a studio or live setting at the end of the term.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 DOCUMENTARY IN 21ST CENTURY,LEC,4,MR,12:00PM,1:50PM,Branda Miller,West Hall 112,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69248,1040,01,INQR-1040,Documentary In 21ST Century,"Documentary in the 21st Century: Identity Production is a production course investigating the course of documentary history leading to a focus on digital media representations today. This course will incorporate critical thinking with production. With focus on aesthetic and formal considerations, students will be asked to produce a series of multimedia projects investigating their vision of themselves in the world.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-SUSTAINABILITY DEBATES,LEC,4,MR,12:00PM,1:50PM,Jennifer Cardinal,Folsom Library 107,57,57,0,INQR,2024-08-28,2024-12-20,FALL 2024,69257,1240,01,INQR-1240,Sustainability Debates,"Students in this course participate in a series of class debates, presenting and cross-examining the arguments of those who have a stake in various environmental controversies (about energy, toxic chemicals, consumption, etc.). Students also work in groups to design a proposal for a project to help solve an environmental problem. Throughout the course, students are encouraged to develop their own environmental values and ideas. This is a communication-intensive course.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-THE AMERICAN DREAM,LEC,4,TF,8:00AM,9:50AM,TBA,Russell Sage Laboratory 2112,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69303,1776,01,INQR-1776,The American Dream,"The term ""American Dream"" is familiar, but what role, specifically, does the imaginative play in American literature and culture, past and present? This course focuses on the power of imagination to shape a nation through the analysis of fiction, poetry, film, essays, comics, advertising, and historical documents. We will use diverse social histories as a means to explore contemporary experience, focusing on the tension between American dreams and American realities. Requirements include reading/viewing responses, student presentations, and a semester capstone assignment that allows students to choose between a textual or multimedia project.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-FIRST YEAR STUDIO,LEC,4,MR,10:00AM,11:50AM,Kenneth A. Ragsdale,Russell Sage Laboratory 1211,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69832,1060,01,INQR-1060,First Year Studio,,None.Attributes HASS Inquiry,When Offered: Fall annually,[],[],"Humanities, Arts, and Social Sciences"
+SUSTAINABILITY DEBATES,LEC,4,MR,12:00PM,1:50PM,Jennifer Cardinal,West Hall AUD,57,50,7,INQR,2024-08-28,2024-12-20,FALL 2024,69257,1240,01,INQR-1240,Sustainability Debates,"Students in this course participate in a series of class debates, presenting and cross-examining the arguments of those who have a stake in various environmental controversies (about energy, toxic chemicals, consumption, etc.). Students also work in groups to design a proposal for a project to help solve an environmental problem. Throughout the course, students are encouraged to develop their own environmental values and ideas. This is a communication-intensive course.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+THE AMERICAN DREAM,LEC,4,TF,8:00AM,9:50AM,Audrey Lenore Peterson-McCann,Russell Sage Laboratory 2112,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69303,1776,01,INQR-1776,The American Dream,"The term ""American Dream"" is familiar, but what role, specifically, does the imaginative play in American literature and culture, past and present? This course focuses on the power of imagination to shape a nation through the analysis of fiction, poetry, film, essays, comics, advertising, and historical documents. We will use diverse social histories as a means to explore contemporary experience, focusing on the tension between American dreams and American realities. Requirements include reading/viewing responses, student presentations, and a semester capstone assignment that allows students to choose between a textual or multimedia project.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+FIRST YEAR STUDIO,LEC,4,MR,10:00AM,11:50AM,Kenneth A. Ragsdale,Russell Sage Laboratory 1211,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69832,1060,01,INQR-1060,First Year Studio,,None.Attributes HASS Inquiry,When Offered: Fall annually,[],[],"Humanities, Arts, and Social Sciences"
 AI IN THE INFORMATION AGE,LEC,4,MR,2:00PM,3:50PM,Ralph G Noble,Jonsson Engineering Center 4309,29,29,0,INQR,2024-08-28,2024-12-20,FALL 2024,69284,1960,01,INQR-1960,Ai In The Information Age,,,,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,0,2,-2,INQR,2024-08-28,2024-12-20,FALL 2024,69253,1100,01,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 4510,0,2,-2,INQR,2024-08-28,2024-12-20,FALL 2024,69253,1100,01,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
@@ -1178,10 +1210,10 @@ AI IN THE INFORMATION AGE,LEC,4,MR,2:00PM,3:50PM,Ralph G Noble,Jonsson Engineeri
 "SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 5101,38,38,0,INQR,2024-08-28,2024-12-20,FALL 2024,69254,1100,02,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,38,38,0,INQR,2024-08-28,2024-12-20,FALL 2024,69255,1100,03,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 4101,38,38,0,INQR,2024-08-28,2024-12-20,FALL 2024,69255,1100,03,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-"SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,38,38,0,INQR,2024-08-28,2024-12-20,FALL 2024,69669,1100,04,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-"SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 3704,38,38,0,INQR,2024-08-28,2024-12-20,FALL 2024,69669,1100,04,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-RACE AND FILM: US CULTURE HIST,LEC,4,MR,4:00PM,5:50PM,Maryanne Staniszewski,West Hall 323,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69251,1300,01,INQR-1300,Race And FILM: Us Culture Hist,"This course will investigate the emergence and transformations of the concept of race in the history and culture of the United States by analyzing films. Hollywood classics will be featured, and will also be contrasted with documentary and independent films. The course will focus on social and political contexts, as well as the film's critical reception and film form.",,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
-NATURE / SOCIETY,LEC,4,MR,2:00PM,3:50PM,Jennifer Cardinal,Russell Sage Laboratory 4203,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69256,1110,01,INQR-1110,Nature / Society,"This course focuses on the social and ecological aspects of humans in the natural world. It emphasizes critical thinking about where humans come from and where they are going as a species. The course draws on historical perspectives and addresses contemporary issues such as climate change, national energy resources, and the local foods movement. The course includes readings as well as student projects, field trips, guest lectures, and ""ethnographic"" assignments about this consumer society.","Prerequisite: limited to first-year students enrolled in the Vasudha Living and Learning Community, or permission of instructor.",When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,38,37,1,INQR,2024-08-28,2024-12-20,FALL 2024,69669,1100,04,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 3704,38,37,1,INQR,2024-08-28,2024-12-20,FALL 2024,69669,1100,04,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+RACE AND FILM: US CULTURE HIST,LEC,4,MR,4:00PM,5:50PM,Maryanne Staniszewski,West Hall 323,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69251,1300,01,INQR-1300,Race And FILM: Us Culture Hist,"This course will investigate the emergence and transformations of the concept of race in the history and culture of the United States by analyzing films. Hollywood classics will be featured, and will also be contrasted with documentary and independent films. The course will focus on social and political contexts, as well as the film's critical reception and film form.",,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+NATURE / SOCIETY,LEC,4,MR,2:00PM,3:50PM,Jennifer Cardinal,Russell Sage Laboratory 4203,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69256,1110,01,INQR-1110,Nature / Society,"This course focuses on the social and ecological aspects of humans in the natural world. It emphasizes critical thinking about where humans come from and where they are going as a species. The course draws on historical perspectives and addresses contemporary issues such as climate change, national energy resources, and the local foods movement. The course includes readings as well as student projects, field trips, guest lectures, and ""ethnographic"" assignments about this consumer society.","Prerequisite: limited to first-year students enrolled in the Vasudha Living and Learning Community, or permission of instructor.",When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 MINDS AND MACHINES,LEC,4,MR,2:00PM,3:20PM,John R Milanese/Bram Van Heuveln,Russell Sage Laboratory 3101,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69305,1140,01,INQR-1140,Minds And Machines,"This course is an introduction to the philosophy of mind and cognitive science. Students meet in small sections to have class discussions and debates about questions like: What are minds? Are minds physical or non-physical? Do humans have free will? Does reliance on technology turn humans into cyborgs? How close are humans to building an intelligent robot or machine? Do we want this to be a goal? Students will learn how make a philosophical argument, and how to express them in writing or through an oral presentation.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 MINDS AND MACHINES,LEC,4,M,7:00PM,8:20PM,John R Milanese/Bram Van Heuveln,Russell Sage Laboratory 3303,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69305,1140,01,INQR-1140,Minds And Machines,"This course is an introduction to the philosophy of mind and cognitive science. Students meet in small sections to have class discussions and debates about questions like: What are minds? Are minds physical or non-physical? Do humans have free will? Does reliance on technology turn humans into cyborgs? How close are humans to building an intelligent robot or machine? Do we want this to be a goal? Students will learn how make a philosophical argument, and how to express them in writing or through an oral presentation.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 MINDS AND MACHINES,LEC,4,MR,2:00PM,3:20PM,John R Milanese/Bram Van Heuveln,Russell Sage Laboratory 3101,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69306,1140,02,INQR-1140,Minds And Machines,"This course is an introduction to the philosophy of mind and cognitive science. Students meet in small sections to have class discussions and debates about questions like: What are minds? Are minds physical or non-physical? Do humans have free will? Does reliance on technology turn humans into cyborgs? How close are humans to building an intelligent robot or machine? Do we want this to be a goal? Students will learn how make a philosophical argument, and how to express them in writing or through an oral presentation.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
@@ -1190,52 +1222,52 @@ MINDS AND MACHINES,LEC,4,MR,4:00PM,5:20PM,John R Milanese/Bram Van Heuveln,Russe
 MINDS AND MACHINES,LEC,4,M,7:00PM,8:20PM,John R Milanese/Bram Van Heuveln,Russell Sage Laboratory 3303,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69307,1140,03,INQR-1140,Minds And Machines,"This course is an introduction to the philosophy of mind and cognitive science. Students meet in small sections to have class discussions and debates about questions like: What are minds? Are minds physical or non-physical? Do humans have free will? Does reliance on technology turn humans into cyborgs? How close are humans to building an intelligent robot or machine? Do we want this to be a goal? Students will learn how make a philosophical argument, and how to express them in writing or through an oral presentation.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 MINDS AND MACHINES,LEC,4,MR,4:00PM,5:20PM,John R Milanese/Bram Van Heuveln,Russell Sage Laboratory 3101,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69308,1140,04,INQR-1140,Minds And Machines,"This course is an introduction to the philosophy of mind and cognitive science. Students meet in small sections to have class discussions and debates about questions like: What are minds? Are minds physical or non-physical? Do humans have free will? Does reliance on technology turn humans into cyborgs? How close are humans to building an intelligent robot or machine? Do we want this to be a goal? Students will learn how make a philosophical argument, and how to express them in writing or through an oral presentation.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 MINDS AND MACHINES,LEC,4,M,7:00PM,8:20PM,Bram Van Heuveln/John R Milanese,Russell Sage Laboratory 3303,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69308,1140,04,INQR-1140,Minds And Machines,"This course is an introduction to the philosophy of mind and cognitive science. Students meet in small sections to have class discussions and debates about questions like: What are minds? Are minds physical or non-physical? Do humans have free will? Does reliance on technology turn humans into cyborgs? How close are humans to building an intelligent robot or machine? Do we want this to be a goal? Students will learn how make a philosophical argument, and how to express them in writing or through an oral presentation.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-NEWS MEDIA CULTURE AND POLITIC,LEC,4,MR,2:00PM,3:50PM,Maryanne Staniszewski,West Hall 323,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69418,1964,01,INQR-1964,News Media Culture And Politic,,,,[],[],"Humanities, Arts, and Social Sciences"
-THE GENOME AND YOU,LEC,4,MR,2:00PM,3:50PM,Susan Lynn Smith,Carnegie Building 106,40,40,0,INQR,2024-08-28,2024-12-20,FALL 2024,69282,1150,02,INQR-1150,The Genome And You,"The ability to sequence complete genomes has had a revolutionary impact on medicine, agriculture, our environment and the very idea of what it means to be ""human"". Genomic medicine will impact virtually everyone in the United States in the coming decades. As informed citizens, it is important that we have a working understanding of genomics and its implications for individuals and for society at large. These conversations are critical to ensure the ethical and accessible use of genomics and to allow us to make informed decisions on both personal and public-policy levels. This course will explore the science, ethics, and history of genetic research and genomics, using case studies to illustrate and personalize the issues at hand.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+NEWS MEDIA CULTURE AND POLITIC,LEC,4,MR,2:00PM,3:50PM,Maryanne Staniszewski,West Hall 323,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69418,1964,01,INQR-1964,News Media Culture And Politic,,,,[],[],"Humanities, Arts, and Social Sciences"
+THE GENOME AND YOU,LEC,4,MR,2:00PM,3:50PM,Susan Lynn Smith,Troy Building 2018,40,41,-1,INQR,2024-08-28,2024-12-20,FALL 2024,69282,1150,02,INQR-1150,The Genome And You,"The ability to sequence complete genomes has had a revolutionary impact on medicine, agriculture, our environment and the very idea of what it means to be ""human"". Genomic medicine will impact virtually everyone in the United States in the coming decades. As informed citizens, it is important that we have a working understanding of genomics and its implications for individuals and for society at large. These conversations are critical to ensure the ethical and accessible use of genomics and to allow us to make informed decisions on both personal and public-policy levels. This course will explore the science, ethics, and history of genetic research and genomics, using case studies to illustrate and personalize the issues at hand.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 SCIENCE FICTION,LEC,4,TF,10:00AM,11:50AM,Mitchell Ryan Murray,Russell Sage Laboratory 2715,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69692,1965,01,INQR-1965,Science Fiction,,,,[],[],"Humanities, Arts, and Social Sciences"
-MEDIA AND SOCIETY,LEC,4,MR,10:00AM,11:50AM,Christopher C. Jeansonne,Carnegie Building 208,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69328,1560,01,INQR-1560,Media And Society,"A survey of the historical origins and cultural impact of several mass media, including television, film, radio, the Internet, and print media. The course aims to increase media literacy through analysis of specific media products as well as discussion of broad topics such as: advertising and commercialization; politics and censorship; gender, race, and social identity.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-MEDIA AND SOCIETY,LEC,4,MR,12:00PM,1:50PM,Christopher C. Jeansonne,Carnegie Building 208,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69329,1560,02,INQR-1560,Media And Society,"A survey of the historical origins and cultural impact of several mass media, including television, film, radio, the Internet, and print media. The course aims to increase media literacy through analysis of specific media products as well as discussion of broad topics such as: advertising and commercialization; politics and censorship; gender, race, and social identity.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MEDIA AND SOCIETY,LEC,4,MR,10:00AM,11:50AM,Christopher C. Jeansonne,Carnegie Building 208,19,20,-1,INQR,2024-08-28,2024-12-20,FALL 2024,69328,1560,01,INQR-1560,Media And Society,"A survey of the historical origins and cultural impact of several mass media, including television, film, radio, the Internet, and print media. The course aims to increase media literacy through analysis of specific media products as well as discussion of broad topics such as: advertising and commercialization; politics and censorship; gender, race, and social identity.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MEDIA AND SOCIETY,LEC,4,MR,12:00PM,1:50PM,Christopher C. Jeansonne,Carnegie Building 208,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69329,1560,02,INQR-1560,Media And Society,"A survey of the historical origins and cultural impact of several mass media, including television, film, radio, the Internet, and print media. The course aims to increase media literacy through analysis of specific media products as well as discussion of broad topics such as: advertising and commercialization; politics and censorship; gender, race, and social identity.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 MEDIA AND SOCIETY,LEC,4,MR,2:00PM,3:50PM,Justin Dowdall,Carnegie Building 208,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69847,1560,03,INQR-1560,Media And Society,"A survey of the historical origins and cultural impact of several mass media, including television, film, radio, the Internet, and print media. The course aims to increase media literacy through analysis of specific media products as well as discussion of broad topics such as: advertising and commercialization; politics and censorship; gender, race, and social identity.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-LIFE IN COLOR,LEC,4,MR,10:00AM,11:50AM,Sara L. Tack,Russell Sage Laboratory 2411,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69302,1562,01,INQR-1562,Life In Color,"Color is used every day to help us decode information, inform communications, influence our buying decisions, distinguish scientific properties, and impact our emotions and health. In this course, we'll study the impact of color and learn how to use it effectively. Through a series of creative hands-on graphic design projects, we will investigate color memory, relativity, and subjectivity, communicating with color, physiological and psychological responses to color, and color across cultures.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+LIFE IN COLOR,LEC,4,MR,10:00AM,11:50AM,Sara L. Tack,Russell Sage Laboratory 2411,19,18,1,INQR,2024-08-28,2024-12-20,FALL 2024,69302,1562,01,INQR-1562,Life In Color,"Color is used every day to help us decode information, inform communications, influence our buying decisions, distinguish scientific properties, and impact our emotions and health. In this course, we'll study the impact of color and learn how to use it effectively. Through a series of creative hands-on graphic design projects, we will investigate color memory, relativity, and subjectivity, communicating with color, physiological and psychological responses to color, and color across cultures.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 WELL-BEING: CULTVING CURIOSITY,LEC,4,TF,10:00AM,11:50AM,Alicia Ann Walf,Russell Sage Laboratory 4112,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69283,1175,01,INQR-1175,WELL-BEING: Cultving Curiosity,"How do people maintain a sense of well-being in their lives? Each person's path to well-being in body and mind is unique-arising from an awareness of our needs, goals and what each finds fulfilling. The theme of curiosity will be used to explore what makes people tick, what makes them feel balanced, stressed, or calm. This interdisciplinary course uses practice-based learning, in-class writing, lectures, creative play, and reading.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-"WAR&TECH: PAST, PRES & FUTURE",LEC,4,TF,8:00AM,9:50AM,Christopher James Tozzi,Low Center for Industrial Inn. 3045,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69494,1570,01,INQR-1570,"WAR&TECH: PAST, Pres & Future","This course investigates the relationship between warfare and technology in historical and present-day settings. It will also cover how military technology might evolve in the future. In addition to considering the ways in which technology has changed the practices of warfare, the course will examine the ethical, political, social and economic problems and developments that have arisen from the intersection of military and technological change.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+"WAR&TECH: PAST, PRES & FUTURE",LEC,4,TF,8:00AM,9:50AM,Christopher James Tozzi,Low Center for Industrial Inn. 3045,19,20,-1,INQR,2024-08-28,2024-12-20,FALL 2024,69494,1570,01,INQR-1570,"WAR&TECH: PAST, Pres & Future","This course investigates the relationship between warfare and technology in historical and present-day settings. It will also cover how military technology might evolve in the future. In addition to considering the ways in which technology has changed the practices of warfare, the course will examine the ethical, political, social and economic problems and developments that have arisen from the intersection of military and technological change.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 THE ART OF LISTENING,LEC,4,MR,10:00AM,11:50AM,Stephanie D Loveless,West Hall 326,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69249,1180,01,INQR-1180,The Art Of Listening,"Listening to each other, ourselves, and our surroundings can be a transformative experience that enhances well-being. In this course, a heightened awareness to sound will be developed through experiential exercises, creative projects, collaborations, readings, lectures, and discussion. The course introduces ""Deep Listening,"" a practice developed by pioneer composer and humanitarian Pauline Oliveros to enhance and expand listening abilities and to encourage creative work.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
 THE ART OF LISTENING,LEC,4,MR,12:00PM,1:50PM,Stephanie D Loveless,West Hall 326,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69250,1180,02,INQR-1180,The Art Of Listening,"Listening to each other, ourselves, and our surroundings can be a transformative experience that enhances well-being. In this course, a heightened awareness to sound will be developed through experiential exercises, creative projects, collaborations, readings, lectures, and discussion. The course introduces ""Deep Listening,"" a practice developed by pioneer composer and humanitarian Pauline Oliveros to enhance and expand listening abilities and to encourage creative work.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
-PRINCIPLES OF ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Sarah Marsden Greene,West Hall AUD,300,233,67,INQR,2024-08-28,2024-12-20,FALL 2024,69263,1200,01,INQR-1200,Principles Of Economics,"This course is designed to introduce a wide variety of concepts and applications in the broad subject of economics, economics being the study of people's choices. Traditionally, these choices have been framed as how to best employ scarce resources to produce goods and services and distribute them for consumption. To describe these choices the cause will introduce the concepts of opportunity cost, demand and supply theory, and market structures. It will consider the role of government in making resource allocation choices. Students will also study important macroeconomic data such as gross domestic product, economic growth rates, inflation, and unemployment. Additionally, studied will be the role of money and banking in the economy and short-run events such as recessions and expansions. Overall, the course will provide the student with an encompassing view of how economic principles and concepts relate to the broader economy and society.",,,[],[],"Humanities, Arts, and Social Sciences"
-PRINCIPLES OF ECONOMICS,LEC,4,MR,2:00PM,3:50PM,Sarah Marsden Greene,West Hall AUD,300,278,22,INQR,2024-08-28,2024-12-20,FALL 2024,69264,1200,02,INQR-1200,Principles Of Economics,"This course is designed to introduce a wide variety of concepts and applications in the broad subject of economics, economics being the study of people's choices. Traditionally, these choices have been framed as how to best employ scarce resources to produce goods and services and distribute them for consumption. To describe these choices the cause will introduce the concepts of opportunity cost, demand and supply theory, and market structures. It will consider the role of government in making resource allocation choices. Students will also study important macroeconomic data such as gross domestic product, economic growth rates, inflation, and unemployment. Additionally, studied will be the role of money and banking in the economy and short-run events such as recessions and expansions. Overall, the course will provide the student with an encompassing view of how economic principles and concepts relate to the broader economy and society.",,,[],[],"Humanities, Arts, and Social Sciences"
-DESIGN AND INNOVATION STUDIO 1,LEC,4,MR,2:00PM,4:50PM,Jarah W. Moesch,Russell Sage Laboratory 2211,20,19,1,INQR,2024-08-28,2024-12-20,FALL 2024,69260,1610,01,INQR-1610,Design And Innovation Studio 1,"The first design studio in the Design, Innovation, and Society studio series introduces DIS majors to general design through a series of short projects. We learn the basic steps of design processes, from problem definition to concept ideation and selection, to quick low-resolution prototyping. The projects stress creative thinking and critical analysis, partnered with close discussions of how design and society intersect. This is a communication-intensive course.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+PRINCIPLES OF ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Sarah Marsden Greene,West Hall AUD,300,264,36,INQR,2024-08-28,2024-12-20,FALL 2024,69263,1200,01,INQR-1200,Principles Of Economics,"This course is designed to introduce a wide variety of concepts and applications in the broad subject of economics, economics being the study of people's choices. Traditionally, these choices have been framed as how to best employ scarce resources to produce goods and services and distribute them for consumption. To describe these choices the cause will introduce the concepts of opportunity cost, demand and supply theory, and market structures. It will consider the role of government in making resource allocation choices. Students will also study important macroeconomic data such as gross domestic product, economic growth rates, inflation, and unemployment. Additionally, studied will be the role of money and banking in the economy and short-run events such as recessions and expansions. Overall, the course will provide the student with an encompassing view of how economic principles and concepts relate to the broader economy and society.",,,[],[],"Humanities, Arts, and Social Sciences"
+PRINCIPLES OF ECONOMICS,LEC,4,MR,2:00PM,3:50PM,Sarah Marsden Greene,West Hall AUD,300,300,0,INQR,2024-08-28,2024-12-20,FALL 2024,69264,1200,02,INQR-1200,Principles Of Economics,"This course is designed to introduce a wide variety of concepts and applications in the broad subject of economics, economics being the study of people's choices. Traditionally, these choices have been framed as how to best employ scarce resources to produce goods and services and distribute them for consumption. To describe these choices the cause will introduce the concepts of opportunity cost, demand and supply theory, and market structures. It will consider the role of government in making resource allocation choices. Students will also study important macroeconomic data such as gross domestic product, economic growth rates, inflation, and unemployment. Additionally, studied will be the role of money and banking in the economy and short-run events such as recessions and expansions. Overall, the course will provide the student with an encompassing view of how economic principles and concepts relate to the broader economy and society.",,,[],[],"Humanities, Arts, and Social Sciences"
+DESIGN AND INNOVATION STUDIO 1,LEC,4,MR,2:00PM,4:50PM,Jarah W. Moesch,Russell Sage Laboratory 2211,20,18,2,INQR,2024-08-28,2024-12-20,FALL 2024,69260,1610,01,INQR-1610,Design And Innovation Studio 1,"The first design studio in the Design, Innovation, and Society studio series introduces DIS majors to general design through a series of short projects. We learn the basic steps of design processes, from problem definition to concept ideation and selection, to quick low-resolution prototyping. The projects stress creative thinking and critical analysis, partnered with close discussions of how design and society intersect. This is a communication-intensive course.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 DESIGN AND INNOVATION STUDIO 1,LEC,4,MR,2:00PM,4:50PM,Jarah W. Moesch,Russell Sage Laboratory 2211,10,9,1,INQR,2024-08-28,2024-12-20,FALL 2024,69261,1610,02,INQR-1610,Design And Innovation Studio 1,"The first design studio in the Design, Innovation, and Society studio series introduces DIS majors to general design through a series of short projects. We learn the basic steps of design processes, from problem definition to concept ideation and selection, to quick low-resolution prototyping. The projects stress creative thinking and critical analysis, partnered with close discussions of how design and society intersect. This is a communication-intensive course.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 RELIGION IN A GLOBAL WORLD,LEC,4,MR,4:00PM,5:50PM,Patrick Y Royer,Low Center for Industrial Inn. 3130,19,19,0,INQR,2024-08-28,2024-12-20,FALL 2024,69262,1666,01,INQR-1666,Religion In A Global World,"This course explores the role of religion in different cultures and in the everyday lives of people around the world. It will introduce students to key concepts, themes, and debates in social science. The role of religion and rituals will be examined through classic texts in anthropology, sociology, political science, and in ethnographic cases relating to different types of societies, from traditional to modern American cultures. It will begin with some basic theoretical issues before discussing contemporary issues such as the relations between nation and religion, violence and religion, climate change and religion, and ""magical thinking"" in technology and science.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 CHINESE I,LEC,4,MR,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 4711,10,10,0,LANG,2024-08-28,2024-12-20,FALL 2024,67095,1410,01,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 CHINESE I,LEC,4,MR,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 4711,9,9,0,LANG,2024-08-28,2024-12-20,FALL 2024,67189,1410,02,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-CHINESE I,LEC,4,TF,2:00PM,3:50PM,Yalun Zhou,Russell Sage Laboratory 2701,19,19,0,LANG,2024-08-28,2024-12-20,FALL 2024,69548,1410,03,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE I,LEC,4,TF,2:00PM,3:50PM,Yalun Zhou,Russell Sage Laboratory 2701,19,9,10,LANG,2024-08-28,2024-12-20,FALL 2024,69548,1410,03,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 CHINESE II,LEC,4,TF,10:00AM,11:50AM,Yalun Zhou,Low Center for Industrial Inn. 3045,19,19,0,LANG,2024-08-28,2024-12-20,FALL 2024,69549,2410,01,LANG-2410,Chinese Ii,"This is a continuation of Chinese I, a course for the standard modern Chinese language (Mandarin). Students learn more Chinese characters and words, reach a total of nearly 500 characters and 650 words, and use more complicated grammatical structures, including some compliment phrases and topic-comment sentences. In sum, students will learn more in all four aspects-listening, speaking, reading, and writing-presented in Chinese I.",Prerequisite: LANG 1410 or equivalent or permission of instructor.,When Offered: Fall and spring terms annually.,['LANG 1410'],['LANG 1410'],"Humanities, Arts, and Social Sciences"
-CHINESE III,LEC,4,MR,2:00PM,3:50PM,Jianling Yue,Russell Sage Laboratory 4711,19,13,6,LANG,2024-08-28,2024-12-20,FALL 2024,68254,4420,01,LANG-4420,Chinese Iii,"This is a continuation of Chinese II, a course for the standard modern Chinese language (Mandarin). Students learn more Chinese characters and words, reach a total of about 650 characters, 1000 words, and use more complicated grammatical structures, e.g., reduplication of adjectives and verbs, resultative and potential compliments. In sum, students learn more in all four aspects-listening, speaking, reading and writing-presented in Chinese II.",Prerequisite: LANG 2410 or equivalent or permission of instructor.,When Offered: Fall and spring terms annually.,['LANG 2410'],['LANG 2410'],"Humanities, Arts, and Social Sciences"
-CHINESE IV,LEC,4,TF,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 4711,19,6,13,LANG,2024-08-28,2024-12-20,FALL 2024,67715,4430,01,LANG-4430,Chinese Iv,"This is a continuation of Chinese III, a course for standard modern Chinese language (Mandarin). Students learn additional Chinese characters and words, reach a total of about 800 characters, 1350 words, and complicated grammatical structures, e.g., expression of approximation, comparison of structural and aspect particles, etc. In sum, students learn more in all four aspects-listening, speaking, reading, and writing-presented in Chinese III.",Prerequisite: LANG 4420 or equivalent or permission of instructor.,When Offered: Fall term annually.,['LANG 4420'],['LANG 4420'],"Humanities, Arts, and Social Sciences"
-MULTICULTURAL AMERICAN LITR,LEC,4,TF,12:00PM,1:50PM,Skye Anicca,Carnegie Building 102,19,13,6,LITR,2024-08-28,2024-12-20,FALL 2024,69675,4880,01,LITR-4880,Multicultural American Litr,"This course introduces students to the field of Multicultural U.S. Literature, a conditional grouping of novels, memoirs, poetry, and scholarship that explores the intersections of individual, cultural, and national identities in contemporary America. Coursework surveys distinct ethnic American histories and literary traditions while exploring the utility and difficulty in defining a diverse American canon in the twenty-first century.",Prerequisite: LITR 2110 or permission of instructor.,"When Offered: Fall term, odd-numbered years.",['LITR 2110'],['LITR 2110'],"Humanities, Arts, and Social Sciences"
-HISTORY OF MOTION PICTURES,LEC,4,MR,4:00PM,5:50PM,Christopher C. Jeansonne,Russell Sage Laboratory 4711,19,19,0,LITR,2024-08-28,2024-12-20,FALL 2024,69723,4960,01,LITR-4960,History Of Motion Pictures,,,,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO LITERATURE,LEC,4,MR,8:00AM,9:50AM,Mitchell Ryan Murray,Russell Sage Laboratory 3704,19,19,0,LITR,2024-08-28,2024-12-20,FALL 2024,69051,2110,01,LITR-2110,Intro To Literature,"A study of major literary works that introduces students to basic ideas and terminology in literary criticism. Students learn to read and interpret a selection of novels, plays, poetry, or other forms of writing to be determined each semester by the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO LITERATURE,LEC,4,MR,10:00AM,11:50AM,Mitchell Ryan Murray,Russell Sage Laboratory 3704,19,18,1,LITR,2024-08-28,2024-12-20,FALL 2024,69052,2110,02,LITR-2110,Intro To Literature,"A study of major literary works that introduces students to basic ideas and terminology in literary criticism. Students learn to read and interpret a selection of novels, plays, poetry, or other forms of writing to be determined each semester by the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-SCIENCE AND FICTION,LEC,4,TF,2:00PM,3:50PM,June Deery,Russell Sage Laboratory 4711,19,19,0,LITR,2024-08-28,2024-12-20,FALL 2024,69553,4150,01,LITR-4150,Science And Fiction,"An exploration of the ongoing dialogue between science/technology and literature through the reading of landmark works about science and fictional works that describe scientific ideas and methods. Topics include artificial intelligence, genetic engineering, and cyborgs.",,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-METAPHYSICS AND CONSCIOUSNESS,LEC,4,TF,12:00PM,1:50PM,Daniel Peter Thero,Voorhees Computing Center SO,12,16,-4,PHIL,2024-08-28,2024-12-20,FALL 2024,67840,4480,01,PHIL-4480,Metaphysics And Consciousness,"Daydreams about some tropical paradise ... the smell of freshly baked bread ... the flash of anger experienced when one person cuts another off ... the vision of an albino squirrel on the campus green ... Humans take all of these to involve activities or states of consciousness. But what is this consciousness with which they claim to be so intimately familiar? What are its metaphysical implications, and can people reconcile those implications with current scientific understanding of the world?",Prerequisite: one course in philosophy.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-METAPHYSICS AND CONSCIOUSNESS,LEC,4,TF,12:00PM,1:50PM,Daniel Peter Thero,Voorhees Computing Center SO,13,15,-2,PHIL,2024-08-28,2024-12-20,FALL 2024,68031,4480,02,PHIL-4480,Metaphysics And Consciousness,"Daydreams about some tropical paradise ... the smell of freshly baked bread ... the flash of anger experienced when one person cuts another off ... the vision of an albino squirrel on the campus green ... Humans take all of these to involve activities or states of consciousness. But what is this consciousness with which they claim to be so intimately familiar? What are its metaphysical implications, and can people reconcile those implications with current scientific understanding of the world?",Prerequisite: one course in philosophy.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE III,LEC,4,MR,2:00PM,3:50PM,Jianling Yue,Russell Sage Laboratory 4711,19,19,0,LANG,2024-08-28,2024-12-20,FALL 2024,68254,4420,01,LANG-4420,Chinese Iii,"This is a continuation of Chinese II, a course for the standard modern Chinese language (Mandarin). Students learn more Chinese characters and words, reach a total of about 650 characters, 1000 words, and use more complicated grammatical structures, e.g., reduplication of adjectives and verbs, resultative and potential compliments. In sum, students learn more in all four aspects-listening, speaking, reading and writing-presented in Chinese II.",Prerequisite: LANG 2410 or equivalent or permission of instructor.,When Offered: Fall and spring terms annually.,['LANG 2410'],['LANG 2410'],"Humanities, Arts, and Social Sciences"
+CHINESE IV,LEC,4,TF,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 4711,19,7,12,LANG,2024-08-28,2024-12-20,FALL 2024,67715,4430,01,LANG-4430,Chinese Iv,"This is a continuation of Chinese III, a course for standard modern Chinese language (Mandarin). Students learn additional Chinese characters and words, reach a total of about 800 characters, 1350 words, and complicated grammatical structures, e.g., expression of approximation, comparison of structural and aspect particles, etc. In sum, students learn more in all four aspects-listening, speaking, reading, and writing-presented in Chinese III.",Prerequisite: LANG 4420 or equivalent or permission of instructor.,When Offered: Fall term annually.,['LANG 4420'],['LANG 4420'],"Humanities, Arts, and Social Sciences"
+MULTICULTURAL AMERICAN LITR,LEC,4,TF,12:00PM,1:50PM,Skye Anicca,Russell Sage Laboratory 3205,19,13,6,LITR,2024-08-28,2024-12-20,FALL 2024,69675,4880,01,LITR-4880,Multicultural American Litr,"This course introduces students to the field of Multicultural U.S. Literature, a conditional grouping of novels, memoirs, poetry, and scholarship that explores the intersections of individual, cultural, and national identities in contemporary America. Coursework surveys distinct ethnic American histories and literary traditions while exploring the utility and difficulty in defining a diverse American canon in the twenty-first century.",Prerequisite: LITR 2110 or permission of instructor.,"When Offered: Fall term, odd-numbered years.",['LITR 2110'],['LITR 2110'],"Humanities, Arts, and Social Sciences"
+HISTORY OF MOTION PICTURES,LEC,4,MR,4:00PM,5:50PM,Christopher C. Jeansonne,Russell Sage Laboratory 4711,19,20,-1,LITR,2024-08-28,2024-12-20,FALL 2024,69723,4960,01,LITR-4960,History Of Motion Pictures,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO LITERATURE,LEC,4,MR,8:00AM,9:50AM,Mitchell Ryan Murray,Russell Sage Laboratory 3704,19,17,2,LITR,2024-08-28,2024-12-20,FALL 2024,69051,2110,01,LITR-2110,Intro To Literature,"A study of major literary works that introduces students to basic ideas and terminology in literary criticism. Students learn to read and interpret a selection of novels, plays, poetry, or other forms of writing to be determined each semester by the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO LITERATURE,LEC,4,MR,10:00AM,11:50AM,Mitchell Ryan Murray,Russell Sage Laboratory 3704,19,19,0,LITR,2024-08-28,2024-12-20,FALL 2024,69052,2110,02,LITR-2110,Intro To Literature,"A study of major literary works that introduces students to basic ideas and terminology in literary criticism. Students learn to read and interpret a selection of novels, plays, poetry, or other forms of writing to be determined each semester by the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SCIENCE AND FICTION,LEC,4,TF,2:00PM,3:50PM,June Deery,Russell Sage Laboratory 4711,19,18,1,LITR,2024-08-28,2024-12-20,FALL 2024,69553,4150,01,LITR-4150,Science And Fiction,"An exploration of the ongoing dialogue between science/technology and literature through the reading of landmark works about science and fictional works that describe scientific ideas and methods. Topics include artificial intelligence, genetic engineering, and cyborgs.",,When Offered: Fall and Spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+METAPHYSICS AND CONSCIOUSNESS,LEC,4,TF,12:00PM,1:50PM,Daniel Peter Thero,Voorhees Computing Center SO,12,17,-5,PHIL,2024-08-28,2024-12-20,FALL 2024,67840,4480,01,PHIL-4480,Metaphysics And Consciousness,"Daydreams about some tropical paradise ... the smell of freshly baked bread ... the flash of anger experienced when one person cuts another off ... the vision of an albino squirrel on the campus green ... Humans take all of these to involve activities or states of consciousness. But what is this consciousness with which they claim to be so intimately familiar? What are its metaphysical implications, and can people reconcile those implications with current scientific understanding of the world?",Prerequisite: one course in philosophy.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+METAPHYSICS AND CONSCIOUSNESS,LEC,4,TF,12:00PM,1:50PM,Daniel Peter Thero,Voorhees Computing Center SO,13,14,-1,PHIL,2024-08-28,2024-12-20,FALL 2024,68031,4480,02,PHIL-4480,Metaphysics And Consciousness,"Daydreams about some tropical paradise ... the smell of freshly baked bread ... the flash of anger experienced when one person cuts another off ... the vision of an albino squirrel on the campus green ... Humans take all of these to involve activities or states of consciousness. But what is this consciousness with which they claim to be so intimately familiar? What are its metaphysical implications, and can people reconcile those implications with current scientific understanding of the world?",Prerequisite: one course in philosophy.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 CAPSTONE EXPER IN PHILOSOPHY,LEC,1-6,,,,Silvia Ruzanka,TBA,1,0,1,PHIL,2024-08-28,2024-12-20,FALL 2024,66164,4990,01,PHIL-4990,Capstone Exper In Philosophy,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 CAPSTONE EXPER IN PHILOSOPHY,LEC,1-6,,,,Susan Lynn Smith,TBA,1,0,1,PHIL,2024-08-28,2024-12-20,FALL 2024,68094,4990,02,PHIL-4990,Capstone Exper In Philosophy,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 CAPSTONE EXPER IN PHILOSOPHY,LEC,1-6,,,,Daniel Peter Thero,TBA,1,0,1,PHIL,2024-08-28,2024-12-20,FALL 2024,69024,4990,03,PHIL-4990,Capstone Exper In Philosophy,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 CAPSTONE EXPER IN PHILOSOPHY,LEC,1-6,,,,John R Milanese,TBA,10,1,9,PHIL,2024-08-28,2024-12-20,FALL 2024,69439,4990,04,PHIL-4990,Capstone Exper In Philosophy,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-BIOETHICS,LEC,4,TF,12:00PM,1:50PM,Susan Lynn Smith,Lally Hall 02,25,14,11,PHIL,2024-08-28,2024-12-20,FALL 2024,68218,4500,01,PHIL-4500,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Fall and spring term annually.,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
-BIOETHICS,LEC,4,MR,10:00AM,11:50AM,Susan Lynn Smith,Carnegie Building 206,25,11,14,PHIL,2024-08-28,2024-12-20,FALL 2024,69352,4500,02,PHIL-4500,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Fall and spring term annually.,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
-NON-CLASSICAL LOGIC,LEC,4,MR,12:00PM,1:50PM,Thomas Macaulay Ferguson,Russell Sage Laboratory 2704,19,19,0,PHIL,2024-08-28,2024-12-20,FALL 2024,69401,4960,01,PHIL-4960,NON-CLASSICAL Logic,,,,[],[],"Humanities, Arts, and Social Sciences"
-INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,150,36,114,PHIL,2024-08-28,2024-12-20,FALL 2024,69788,4961,01,PHIL-4961,Intro LOGIC-BASED Ai,,,,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO PHILOSOPHY,LEC,4,MR,10:00AM,11:50AM,Daniel Peter Thero,Ricketts Building 203,35,36,-1,PHIL,2024-08-28,2024-12-20,FALL 2024,65291,1110,01,PHIL-1110,Intro To Philosophy,"An introduction to the major areas of philosophy (ethics, theory of knowledge, philosophy of religion, etc.) and to some of the main problems treated within these fields. Selections from contemporary as well as classical authors are studied and discussed. Students are encouraged to develop a disciplined approach to intellectual problems. Emphasis varies with the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO PHILOSOPHY,LEC,4,MR,10:00AM,11:50AM,Daniel Peter Thero,Ricketts Building 203,40,38,2,PHIL,2024-08-28,2024-12-20,FALL 2024,68563,1110,02,PHIL-1110,Intro To Philosophy,"An introduction to the major areas of philosophy (ethics, theory of knowledge, philosophy of religion, etc.) and to some of the main problems treated within these fields. Selections from contemporary as well as classical authors are studied and discussed. Students are encouraged to develop a disciplined approach to intellectual problems. Emphasis varies with the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO FORMAL LOGIC,LEC,4,TF,10:00AM,11:50AM,Bram Van Heuveln,Ricketts Building 203,120,120,0,PHIL,2024-08-28,2024-12-20,FALL 2024,66304,2140,01,PHIL-2140,Introduction To Formal Logic,"Introduction to formal logic as a tool to be used in mathematics, computer science, philosophy, etc., and as procedural knowledge helpful in puzzle-solving environments (e.g., standardized tests). A hands-on laboratory component is included. Among pother logics, covers Propositional Calculus and First-Order logic.",,"When Offered: Fall, Spring, and Summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-ETHICS,LEC,4,TF,12:00PM,1:50PM,John R Milanese,Carnegie Building 205,19,22,-3,PHIL,2024-08-28,2024-12-20,FALL 2024,68032,4240,01,PHIL-4240,Ethics,"A critical examination of traditional and contemporary works in ethical theory by considering what these theories have to say about how people should live, what rights and obligations they have, what things are intrinsically valuable. Typically, this includes such topics as ethical and cultural relativism, egoism, freedom, and responsibility. Often the focus will be on contemporary issues such as war, abortion, equality, or punishment.",,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
-PHILOSOPHY OF BIOLOGY,LEC,4,MR,2:00PM,3:50PM,Daniel Peter Thero,Darrin Communications Center 239,25,26,-1,PHIL,2024-08-28,2024-12-20,FALL 2024,68217,2400,01,PHIL-2400,Philosophy Of Biology,This course addresses such issues as: Are species real entities in the world or just human constructs? Are biological phenomena reducible to physical processes or do irreducible biological features exist? What is the relationship between microevolution and macroevolution? Does sociobiology have something to contribute to understanding of ethics? To what extent are the structures of the human mind products of evolution?,,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
-NON-CLASSICAL LOGIC,LEC,3,MR,12:00PM,1:50PM,Thomas Macaulay Ferguson,Russell Sage Laboratory 2704,19,1,18,PHIL,2024-08-28,2024-12-20,FALL 2024,69502,6960,01,PHIL-6960,NON-CLASSICAL Logic,,,,[],[],"Humanities, Arts, and Social Sciences"
-"MEDICINE, CULTURE & SOCIETY",LEC,4,TF,10:00AM,11:50AM,Katherine Anne Tyrol,Low Center for Industrial Inn. 3130,19,19,0,STSO,2024-08-28,2024-12-20,FALL 2024,69490,4400,01,STSO-4400,"MEDICINE, Culture & Society","This course is a sociological and anthropological exploration of health and illness. By the end of the course, students will have an overall picture of health fields, problems faced by patients and caregivers, medicine and health in non-Western societies, and the social shaping of disease and therapeutic choices.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, or permission of instructor","When Offered: spring term, odd-numbered years","['STSO 2520', 'STSO 2500']","['STSO 2520', 'STSO 2500']","Humanities, Arts, and Social Sciences"
-"SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,34,32,2,STSO,2024-08-28,2024-12-20,FALL 2024,69267,1100,01,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-"SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 4510,34,32,2,STSO,2024-08-28,2024-12-20,FALL 2024,69267,1100,01,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CAPSTONE EXPER IN PHILOSOPHY,LEC,1-6,,,,Thomas Macaulay Ferguson,TBA,10,1,9,PHIL,2024-08-28,2024-12-20,FALL 2024,69989,4990,05,PHIL-4990,Capstone Exper In Philosophy,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,TF,12:00PM,1:50PM,Susan Lynn Smith,Lally Hall 02,25,11,14,PHIL,2024-08-28,2024-12-20,FALL 2024,68218,4500,01,PHIL-4500,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Fall and spring term annually.,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,MR,10:00AM,11:50AM,Susan Lynn Smith,Jonsson-Rowland Science Center 2C13,25,11,14,PHIL,2024-08-28,2024-12-20,FALL 2024,69352,4500,02,PHIL-4500,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Fall and spring term annually.,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+NON-CLASSICAL LOGIC,LEC,4,MR,12:00PM,1:50PM,Thomas Macaulay Ferguson,Russell Sage Laboratory 2704,19,20,-1,PHIL,2024-08-28,2024-12-20,FALL 2024,69401,4960,01,PHIL-4960,NON-CLASSICAL Logic,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,150,37,113,PHIL,2024-08-28,2024-12-20,FALL 2024,69788,4961,01,PHIL-4961,Intro LOGIC-BASED Ai,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO PHILOSOPHY,LEC,4,MR,10:00AM,11:50AM,Daniel Peter Thero,Ricketts Building 203,35,37,-2,PHIL,2024-08-28,2024-12-20,FALL 2024,65291,1110,01,PHIL-1110,Intro To Philosophy,"An introduction to the major areas of philosophy (ethics, theory of knowledge, philosophy of religion, etc.) and to some of the main problems treated within these fields. Selections from contemporary as well as classical authors are studied and discussed. Students are encouraged to develop a disciplined approach to intellectual problems. Emphasis varies with the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO PHILOSOPHY,LEC,4,MR,10:00AM,11:50AM,Daniel Peter Thero,Ricketts Building 203,40,34,6,PHIL,2024-08-28,2024-12-20,FALL 2024,68563,1110,02,PHIL-1110,Intro To Philosophy,"An introduction to the major areas of philosophy (ethics, theory of knowledge, philosophy of religion, etc.) and to some of the main problems treated within these fields. Selections from contemporary as well as classical authors are studied and discussed. Students are encouraged to develop a disciplined approach to intellectual problems. Emphasis varies with the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO FORMAL LOGIC,LEC,4,TF,10:00AM,11:50AM,Bram Van Heuveln,Ricketts Building 203,120,111,9,PHIL,2024-08-28,2024-12-20,FALL 2024,66304,2140,01,PHIL-2140,Introduction To Formal Logic,"Introduction to formal logic as a tool to be used in mathematics, computer science, philosophy, etc., and as procedural knowledge helpful in puzzle-solving environments (e.g., standardized tests). A hands-on laboratory component is included. Among pother logics, covers Propositional Calculus and First-Order logic.",,"When Offered: Fall, Spring, and Summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+ETHICS,LEC,4,TF,12:00PM,1:50PM,John R Milanese,Carnegie Building 205,19,21,-2,PHIL,2024-08-28,2024-12-20,FALL 2024,68032,4240,01,PHIL-4240,Ethics,"A critical examination of traditional and contemporary works in ethical theory by considering what these theories have to say about how people should live, what rights and obligations they have, what things are intrinsically valuable. Typically, this includes such topics as ethical and cultural relativism, egoism, freedom, and responsibility. Often the focus will be on contemporary issues such as war, abortion, equality, or punishment.",,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+PHILOSOPHY OF BIOLOGY,LEC,4,MR,2:00PM,3:50PM,Daniel Peter Thero,Darrin Communications Center 239,25,25,0,PHIL,2024-08-28,2024-12-20,FALL 2024,68217,2400,01,PHIL-2400,Philosophy Of Biology,This course addresses such issues as: Are species real entities in the world or just human constructs? Are biological phenomena reducible to physical processes or do irreducible biological features exist? What is the relationship between microevolution and macroevolution? Does sociobiology have something to contribute to understanding of ethics? To what extent are the structures of the human mind products of evolution?,,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+NON-CLASSICAL LOGIC,LEC,3,MR,12:00PM,1:50PM,Thomas Macaulay Ferguson,Russell Sage Laboratory 2704,19,0,19,PHIL,2024-08-28,2024-12-20,FALL 2024,69502,6960,01,PHIL-6960,NON-CLASSICAL Logic,,,,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,34,33,1,STSO,2024-08-28,2024-12-20,FALL 2024,69267,1100,01,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 4510,34,33,1,STSO,2024-08-28,2024-12-20,FALL 2024,69267,1100,01,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,0,0,0,STSO,2024-08-28,2024-12-20,FALL 2024,69268,1100,02,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 5101,0,0,0,STSO,2024-08-28,2024-12-20,FALL 2024,69268,1100,02,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,0,0,0,STSO,2024-08-28,2024-12-20,FALL 2024,69670,1100,03,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
@@ -1243,71 +1275,75 @@ NON-CLASSICAL LOGIC,LEC,3,MR,12:00PM,1:50PM,Thomas Macaulay Ferguson,Russell Sag
 "SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,2:50PM,Katherine Anne Tyrol,Darrin Communications Center 318,0,0,0,STSO,2024-08-28,2024-12-20,FALL 2024,69671,1100,04,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,W,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 3704,0,0,0,STSO,2024-08-28,2024-12-20,FALL 2024,69671,1100,04,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 "SCIENCE, TECH, & SOCIETY",LEC,4,TF,2:00PM,3:50PM,Nathaniel Thomas Stanton,Low Center for Industrial Inn. 4034,19,19,0,STSO,2024-08-28,2024-12-20,FALL 2024,69833,1100,05,STSO-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-"HISTORY RACE, SCIENCE, MEDC",LEC,4,TF,2:00PM,3:50PM,Adam Lawrence Biggs,Carnegie Building 205,19,19,0,STSO,2024-08-28,2024-12-20,FALL 2024,69375,4960,01,STSO-4960,"History RACE, SCIENCE, Medc",,,,[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,T,8:00AM,9:50AM,Daniel Allen Lyles,Pittsburgh Building 5114,35,25,10,STSO,2024-08-28,2024-12-20,FALL 2024,68795,4100,01,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,T,2:00PM,3:50PM,Daniel Allen Lyles,Russell Sage Laboratory 4112,35,27,8,STSO,2024-08-28,2024-12-20,FALL 2024,68796,4100,02,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+"MEDICINE, CULTURE & SOCIETY",LEC,4,TF,10:00AM,11:50AM,Katherine Anne Tyrol,Low Center for Industrial Inn. 3130,19,17,2,STSO,2024-08-28,2024-12-20,FALL 2024,69490,4400,01,STSO-4400,"MEDICINE, Culture & Society","This course is a sociological and anthropological exploration of health and illness. By the end of the course, students will have an overall picture of health fields, problems faced by patients and caregivers, medicine and health in non-Western societies, and the social shaping of disease and therapeutic choices.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, or permission of instructor","When Offered: spring term, odd-numbered years","['STSO 2520', 'STSO 2500']","['STSO 2520', 'STSO 2500']","Humanities, Arts, and Social Sciences"
+"HISTORY RACE, SCIENCE, MEDC",LEC,4,TF,2:00PM,3:50PM,Adam Lawrence Biggs,Russell Sage Laboratory 5711,19,20,-1,STSO,2024-08-28,2024-12-20,FALL 2024,69375,4960,01,STSO-4960,"History RACE, SCIENCE, Medc",,,,[],[],"Humanities, Arts, and Social Sciences"
+DESIGN & INNOVATION STUDIO 3,LEC,4,TF,9:00AM,11:50AM,Brian Clyne,Russell Sage Laboratory 2211,29,21,8,STSO,2024-08-28,2024-12-20,FALL 2024,68996,2020,01,STSO-2020,Design & Innovation Studio 3,"This design studio introduces students to the first semester-long design project. We introduce students to more formal engineering design methods. This includes problem formulation, structured ideation, rapid prototyping, evaluation, functional modeling, and iteration. Studio III will also continue to draw on social science methods of ethnographic observation, background research, stakeholder analysis, and also a critical deconstruction of engineering design methods in a way that builds agility in ways more appropriate for those in DIS. Development of individual skills in design development, presentation, and portfolio building are also emphasized.",Prerequisite: STSO 2610 - Design and Innovation Studio II,When Offered: Fall term annually.,['STSO 2610'],['STSO 2610'],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,T,8:00AM,9:50AM,Daniel Allen Lyles,Pittsburgh Building 5114,35,26,9,STSO,2024-08-28,2024-12-20,FALL 2024,68795,4100,01,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,T,2:00PM,3:50PM,Daniel Allen Lyles,Russell Sage Laboratory 4112,35,30,5,STSO,2024-08-28,2024-12-20,FALL 2024,68796,4100,02,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
 PD - TECH ISSUES & SOLUTIONS,LEC,2,W,10:00AM,11:50AM,Azita Hirsa,Low Center for Industrial Inn. 3045,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68797,4100,03,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
 PD - TECH ISSUES & SOLUTIONS,LEC,2,W,10:00AM,11:50AM,Allison Beth Hoffman,Voorhees Computing Center SO,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68798,4100,04,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
 PD - TECH ISSUES & SOLUTIONS,LEC,2,W,12:00PM,1:50PM,Azita Hirsa,Low Center for Industrial Inn. 3045,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68800,4100,05,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,W,12:00PM,1:50PM,Allison Beth Hoffman,Voorhees Computing Center SO,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68801,4100,06,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,M,2:00PM,3:50PM,Azita Hirsa,Low Center for Industrial Inn. 3045,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68803,4100,07,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,W,2:00PM,3:50PM,Allison Beth Hoffman,Voorhees Computing Center SO,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68804,4100,08,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,W,2:00PM,3:50PM,Daniel Allen Lyles,Folsom Library 107,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68805,4100,09,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,12:00PM,1:50PM,Allison Beth Hoffman,Voorhees Computing Center SO,35,34,1,STSO,2024-08-28,2024-12-20,FALL 2024,68801,4100,06,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,M,2:00PM,3:50PM,Azita Hirsa,Low Center for Industrial Inn. 3045,35,33,2,STSO,2024-08-28,2024-12-20,FALL 2024,68803,4100,07,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,2:00PM,3:50PM,Allison Beth Hoffman,Voorhees Computing Center SO,35,34,1,STSO,2024-08-28,2024-12-20,FALL 2024,68804,4100,08,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,2:00PM,3:50PM,Daniel Allen Lyles,Folsom Library 107,35,33,2,STSO,2024-08-28,2024-12-20,FALL 2024,68805,4100,09,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
 PD - TECH ISSUES & SOLUTIONS,LEC,2,R,10:00AM,11:50AM,Allison Beth Hoffman,Voorhees Computing Center SO,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68806,4100,10,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,R,12:00PM,1:50PM,Allison Beth Hoffman,Voorhees Computing Center SO,35,35,0,STSO,2024-08-28,2024-12-20,FALL 2024,68807,4100,11,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,R,12:00PM,1:50PM,Allison Beth Hoffman,Voorhees Computing Center SO,34,34,0,STSO,2024-08-28,2024-12-20,FALL 2024,68807,4100,11,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
 PD - TECH ISSUES & SOLUTIONS,LEC,2,F,8:00AM,9:50AM,Daniel Allen Lyles,Pittsburgh Building 5114,35,16,19,STSO,2024-08-28,2024-12-20,FALL 2024,68809,4100,12,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-PD - TECH ISSUES & SOLUTIONS,LEC,2,F,2:00PM,3:50PM,Daniel Allen Lyles,Russell Sage Laboratory 4510,35,21,14,STSO,2024-08-28,2024-12-20,FALL 2024,68810,4100,13,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
-COMMUNITY ENGAGEMENT,LEC,4,MR,10:00AM,11:50AM,Jarah W. Moesch,Carnegie Building 102,19,19,0,STSO,2024-08-28,2024-12-20,FALL 2024,69652,4961,01,STSO-4961,Community Engagement,,,,[],[],"Humanities, Arts, and Social Sciences"
-DESIGN & INNOVATION STUDIO 3,LEC,4,TF,9:00AM,11:50AM,Abby J. Kinchy,Russell Sage Laboratory 2211,29,21,8,STSO,2024-08-28,2024-12-20,FALL 2024,68996,2020,01,STSO-2020,Design & Innovation Studio 3,"This design studio introduces students to the first semester-long design project. We introduce students to more formal engineering design methods. This includes problem formulation, structured ideation, rapid prototyping, evaluation, functional modeling, and iteration. Studio III will also continue to draw on social science methods of ethnographic observation, background research, stakeholder analysis, and also a critical deconstruction of engineering design methods in a way that builds agility in ways more appropriate for those in DIS. Development of individual skills in design development, presentation, and portfolio building are also emphasized.",Prerequisite: STSO 2610 - Design and Innovation Studio II,When Offered: Fall term annually.,['STSO 2610'],['STSO 2610'],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,F,2:00PM,3:50PM,Daniel Allen Lyles,Russell Sage Laboratory 4510,35,23,12,STSO,2024-08-28,2024-12-20,FALL 2024,68810,4100,13,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+COMMUNITY ENGAGEMENT,LEC,4,MR,10:00AM,11:50AM,Jarah W. Moesch,Carnegie Building 102,19,18,1,STSO,2024-08-28,2024-12-20,FALL 2024,69652,4961,01,STSO-4961,Community Engagement,,,,[],[],"Humanities, Arts, and Social Sciences"
+INVESTIGATING SOCIETY,LEC,4,TF,4:00PM,5:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 3205,19,6,13,STSO,2024-08-28,2024-12-20,FALL 2024,68791,2100,01,STSO-2100,Investigating Society,In this course students receive practical hands-on experience in conducting ethical and theoretically-informed research in the fields of STS and sustainability studies. Throughout the semester students practice a variety of social science research methods through a series of exercises.,"Prerequisites/Corequisites: One of the following:INQR 1110, INQR 1240, INQR 1320, STSO 1100 or permission of instructor.",When Offered: Fall term annually.,"['INQR 1110', 'INQR 1240', 'INQR 1320', 'STSO 1100']","['INQR 1110', 'INQR 1240', 'INQR 1320', 'STSO 1100']","Humanities, Arts, and Social Sciences"
 LOCAL HISTORY,LEC,4,TF,12:00PM,1:50PM,Christopher James Tozzi,Carnegie Building 210,19,19,0,STSO,2024-08-28,2024-12-20,FALL 2024,69406,4962,01,STSO-4962,Local History,,,,[],[],"Humanities, Arts, and Social Sciences"
 RACE AND STS,LEC,3,F,9:00AM,11:50AM,Adam Lawrence Biggs,Russell Sage Laboratory 5711,10,7,3,STSO,2024-08-28,2024-12-20,FALL 2024,69493,6960,01,STSO-6960,Race And Sts,Selected topics.,,,[],[],"Humanities, Arts, and Social Sciences"
-INVESTIGATING SOCIETY,LEC,4,TF,4:00PM,5:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 3205,19,8,11,STSO,2024-08-28,2024-12-20,FALL 2024,68791,2100,01,STSO-2100,Investigating Society,In this course students receive practical hands-on experience in conducting ethical and theoretically-informed research in the fields of STS and sustainability studies. Throughout the semester students practice a variety of social science research methods through a series of exercises.,"Prerequisites/Corequisites: One of the following:INQR 1110, INQR 1240, INQR 1320, STSO 1100 or permission of instructor.",When Offered: Fall term annually.,"['INQR 1110', 'INQR 1240', 'INQR 1320', 'STSO 1100']","['INQR 1110', 'INQR 1240', 'INQR 1320', 'STSO 1100']","Humanities, Arts, and Social Sciences"
 BIOETHICS,LEC,4,TF,12:00PM,1:50PM,Susan Lynn Smith,Lally Hall 02,25,12,13,STSO,2024-08-28,2024-12-20,FALL 2024,68776,4250,01,STSO-4250,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: One of the following: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Spring term annually,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
-BIOETHICS,LEC,4,MR,10:00AM,11:50AM,Susan Lynn Smith,Carnegie Building 206,25,14,11,STSO,2024-08-28,2024-12-20,FALL 2024,69351,4250,02,STSO-4250,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: One of the following: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Spring term annually,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
-CRITICAL GLOBAL&PUBLIC HEALTH,LEC,4,TF,10:00AM,11:50AM,Hasan Tankut Atuk,Jonsson Engineering Center 5119,19,19,0,STSO,2024-08-28,2024-12-20,FALL 2024,69491,4963,01,STSO-4963,Critical GLOBAL&PUBLIC Health,,,,[],[],"Humanities, Arts, and Social Sciences"
-"FOOD, FARMS, AND FAMINE",LEC,4,MR,8:00AM,9:50AM,Abby J. Kinchy,Carnegie Building 205,20,20,0,STSO,2024-08-28,2024-12-20,FALL 2024,69489,4260,01,STSO-4260,"FOOD, FARMS, And Famine","This course provides students with a wide-ranging understanding of the environmental and social context of food, agriculture, and hunger. Drawing primarily on sociological concepts and research, the class will take a ""food systems"" approach, analyzing food as it travels from farm to table as part of an interconnected process. Students will examine why humans eat the way they do and how individuals' food choices affect other people and the environment.","Prerequisite: STSO 2100, STSO 2210, STSO 2300, STSO 2500, or STSO 2520 or permission of instructor.","When Offered: Fall semester, even-numbered years","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2500', 'STSO 2520']","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2500', 'STSO 2520']","Humanities, Arts, and Social Sciences"
-ENVIRONMENT AND SOCIETY,LEC,4,MR,12:00PM,1:50PM,Abby J. Kinchy,Jonsson Engineering Center 3210,50,49,1,STSO,2024-08-28,2024-12-20,FALL 2024,68792,2300,01,STSO-2300,Environment And Society,"Society and the natural environment are crucially linked in a number of ways. Environmental problems such as pollution and natural resource depletion are not only problems for society, affecting the way people live their lives; they are also problems of society-the result of patterns of social organization and social practices. In this course, students will explore these society/environment interactions at various levels, from the local to the global, using the concepts and insights of environmental sociology. Environmental sociologists aim to understand the social origins of environmental problems and propose workable solutions to them. By showing how social interaction, institutions, and beliefs shape human behavior, environmental sociology provides a useful complement to the natural sciences in the analysis of the environmental problems faced today.","Prerequisite:INQR 1100, STSO 1100, INQR 1110, INQR 1240, INQR 1250, INQR 1320, or permission of instructor",When Offered: Fall and Spring term annually.,"['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,MR,10:00AM,11:50AM,Susan Lynn Smith,Jonsson-Rowland Science Center 2C13,25,14,11,STSO,2024-08-28,2024-12-20,FALL 2024,69351,4250,02,STSO-4250,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: One of the following: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Spring term annually,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+CRITICAL GLOBAL&PUBLIC HEALTH,LEC,4,TF,10:00AM,11:50AM,Hasan Tankut Atuk,Jonsson Engineering Center 5119,19,18,1,STSO,2024-08-28,2024-12-20,FALL 2024,69491,4963,01,STSO-4963,Critical GLOBAL&PUBLIC Health,,,,[],[],"Humanities, Arts, and Social Sciences"
+ENVIRONMENT AND SOCIETY,LEC,4,MR,12:00PM,1:50PM,Sara Thomas Black,Jonsson Engineering Center 3210,50,50,0,STSO,2024-08-28,2024-12-20,FALL 2024,68792,2300,01,STSO-2300,Environment And Society,"Society and the natural environment are crucially linked in a number of ways. Environmental problems such as pollution and natural resource depletion are not only problems for society, affecting the way people live their lives; they are also problems of society-the result of patterns of social organization and social practices. In this course, students will explore these society/environment interactions at various levels, from the local to the global, using the concepts and insights of environmental sociology. Environmental sociologists aim to understand the social origins of environmental problems and propose workable solutions to them. By showing how social interaction, institutions, and beliefs shape human behavior, environmental sociology provides a useful complement to the natural sciences in the analysis of the environmental problems faced today.","Prerequisite:INQR 1100, STSO 1100, INQR 1110, INQR 1240, INQR 1250, INQR 1320, or permission of instructor",When Offered: Fall and Spring term annually.,"['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","Humanities, Arts, and Social Sciences"
+"FOOD, FARMS, AND FAMINE",LEC,4,MR,8:00AM,9:50AM,Abby J. Kinchy,Russell Sage Laboratory 5711,20,22,-2,STSO,2024-08-28,2024-12-20,FALL 2024,69489,4260,01,STSO-4260,"FOOD, FARMS, And Famine","This course provides students with a wide-ranging understanding of the environmental and social context of food, agriculture, and hunger. Drawing primarily on sociological concepts and research, the class will take a ""food systems"" approach, analyzing food as it travels from farm to table as part of an interconnected process. Students will examine why humans eat the way they do and how individuals' food choices affect other people and the environment.","Prerequisite: STSO 2100, STSO 2210, STSO 2300, STSO 2500, or STSO 2520 or permission of instructor.","When Offered: Fall semester, even-numbered years","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2500', 'STSO 2520']","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2500', 'STSO 2520']","Humanities, Arts, and Social Sciences"
 MASTERS INTERNSHIP,LEC,3-6,,,,Nancy D. Campbell,TBA,0,0,0,STSO,2024-08-28,2024-12-20,FALL 2024,68814,6970,01,STSO-6970,Masters Internship,,,,[],[],"Humanities, Arts, and Social Sciences"
-RESEARCH DESIGN,LEC,4,MR,10:00AM,11:50AM,Jennifer Cardinal,Carnegie Building 205,19,8,11,STSO,2024-08-28,2024-12-20,FALL 2024,68812,4980,01,STSO-4980,Research Design,"This is the first part of a two-semester senior project sequence for majors in Sustainability Studies (SUST) and Science, Technology, and Society (STSO). The course focuses on qualitative research design and research proposal development.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-MASTERS THESIS,LEC,1-9,,,,Nancy D. Campbell,TBA,10,0,10,STSO,2024-08-28,2024-12-20,FALL 2024,68815,6990,01,STSO-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 AMERICAN HISTORY,LEC,4,TF,10:00AM,11:50AM,Christopher James Tozzi,Amos Eaton Hall 215,50,50,0,STSO,2024-08-28,2024-12-20,FALL 2024,68773,2500,01,STSO-2500,American History,"This course surveys the history of the United States from the colonial era through the present. The course introduces major themes and tensions in United States politics, society, and culture with a focus on environmental factors. Topics will include encounters between American Indians and colonial peoples, independence, the formation of the American government, slavery, immigration, citizenship, rights, social movements, colonialism, war, and the changing identity of the United States in the world.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+RESEARCH DESIGN,LEC,4,MR,10:00AM,11:50AM,Jennifer Cardinal,Carnegie Building 205,19,8,11,STSO,2024-08-28,2024-12-20,FALL 2024,68812,4980,01,STSO-4980,Research Design,"This is the first part of a two-semester senior project sequence for majors in Sustainability Studies (SUST) and Science, Technology, and Society (STSO). The course focuses on qualitative research design and research proposal development.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTERS THESIS,LEC,1-9,,,,Nancy D. Campbell,TBA,10,1,9,STSO,2024-08-28,2024-12-20,FALL 2024,68815,6990,01,STSO-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+SOCIOLOGY,LEC,4,TF,12:00PM,1:50PM,Hasan Tankut Atuk,Jonsson Engineering Center 3210,50,55,-5,STSO,2024-08-28,2024-12-20,FALL 2024,68952,2520,01,STSO-2520,Sociology,"A study of the principles and concepts of sociology and their application to the study of society and self. Students are introduced to the scope, materials, and methods of sociology. The issues and problems to be studied come from basic social institutions such as the family, science, and religion. Other topics may include love, crime, political economy, power, population growth, social class, and minority and ethnic relations.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Abby J. Kinchy,TBA,10,3,7,STSO,2024-08-28,2024-12-20,FALL 2024,68819,9990,05,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,James Wilson Malazita,TBA,10,2,8,STSO,2024-08-28,2024-12-20,FALL 2024,68820,9990,06,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Raquel Velho,TBA,10,0,10,STSO,2024-08-28,2024-12-20,FALL 2024,68821,9990,07,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Nancy D. Campbell,TBA,10,2,8,STSO,2024-08-28,2024-12-20,FALL 2024,68822,9990,08,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
-SOCIOLOGY,LEC,4,TF,12:00PM,1:50PM,Hasan Tankut Atuk,Jonsson Engineering Center 5119,50,49,1,STSO,2024-08-28,2024-12-20,FALL 2024,68952,2520,01,STSO-2520,Sociology,"A study of the principles and concepts of sociology and their application to the study of society and self. Students are introduced to the scope, materials, and methods of sociology. The issues and problems to be studied come from basic social institutions such as the family, science, and religion. Other topics may include love, crime, political economy, power, population growth, social class, and minority and ethnic relations.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-DESIGN AND INNOVATION STUDIO B,LEC,4,MR,9:00AM,11:50AM,Nancy D. Campbell/Brian Clyne,Russell Sage Laboratory 2211,29,13,16,STSO,2024-08-28,2024-12-20,FALL 2024,68953,4605,01,STSO-4605,Design And Innovation Studio B,"Design for the Future: This course introduces students to design for the future by connecting critical readings to applied practices. Students are expected to participate in both individual and group research, including hands-on explorations of design ideas and problem spaces for re-thinking objects of the future. The specific methodologies, concepts, and topics will vary according to the expertise and research specialization of the faculty member teaching the course and may include themes such as the future of cities, climate futures, and designing for peace.",Prerequisite: STSO 2020,When Offered: Fall term annually.,['STSO 2020'],['STSO 2020'],"Humanities, Arts, and Social Sciences"
-CONCEPTS IN STS,LEC,3,R,9:00AM,11:50AM,Matthew Wolf-Meyer,Russell Sage Laboratory 5711,10,4,6,STSO,2024-08-28,2024-12-20,FALL 2024,69492,6010,01,STSO-6010,Concepts In Sts,This course is required for the M.S. in STS. Students are introduced to the literature and current issues in the interdisciplinary field of Science and Technology Studies.,,When Offered: Fall term even-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+DESIGN AND INNOVATION STUDIO B,LEC,4,MR,9:00AM,11:50AM,Nancy D. Campbell/Brian Clyne,Russell Sage Laboratory 2211,29,14,15,STSO,2024-08-28,2024-12-20,FALL 2024,68953,4605,01,STSO-4605,Design And Innovation Studio B,"Design for the Future: This course introduces students to design for the future by connecting critical readings to applied practices. Students are expected to participate in both individual and group research, including hands-on explorations of design ideas and problem spaces for re-thinking objects of the future. The specific methodologies, concepts, and topics will vary according to the expertise and research specialization of the faculty member teaching the course and may include themes such as the future of cities, climate futures, and designing for peace.",Prerequisite: STSO 2020,When Offered: Fall term annually.,['STSO 2020'],['STSO 2020'],"Humanities, Arts, and Social Sciences"
+CONCEPTS IN STS,LEC,3,R,9:00AM,11:50AM,Matthew Wolf-Meyer,Russell Sage Laboratory 5508,10,4,6,STSO,2024-08-28,2024-12-20,FALL 2024,69492,6010,01,STSO-6010,Concepts In Sts,This course is required for the M.S. in STS. Students are introduced to the literature and current issues in the interdisciplinary field of Science and Technology Studies.,,When Offered: Fall term even-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
 POLITICS OF DESIGN,LEC,4,MR,12:00PM,1:50PM,Ronald P. Ladouceur,Carnegie Building 102,19,23,-4,STSO,2024-08-28,2024-12-20,FALL 2024,68811,4350,01,STSO-4350,Politics Of Design,"A research seminar exploring the meaning of design in engineering, architecture, political theory, and other fields. How do social ideals and motives inspire design choices? To what extent does the design of human-made things shape the quality of public life? A variety of objects are studied: buildings, machines, artifacts in everyday use, computer programs, political constitutions, etc.","Prerequisites: One of the following: STSO 2100, STSO 2210, STSO 2300, STSO 2520, STSO 2500, or permission of instructor",When Offered: Fall and spring semesters annually,"['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2520', 'STSO 2500']","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2520', 'STSO 2500']","Humanities, Arts, and Social Sciences"
-PROPOSING & PERSUADING,LEC,3,TF,2:00PM,3:50PM,Leah Corinne Jones,Amos Eaton Hall 216,6,4,2,WRIT,2024-08-28,2024-12-20,FALL 2024,69315,6550,01,WRIT-6550,Proposing & Persuading,"This course provides strategies for how to find funding, write persuasive narratives, develop budgets, and leverage academic or professional networks to craft competitive proposals. Here you will learn how to seek opportunities for developing proposals to support projects in your field of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-STRATEGIC WRITING,LEC,4,MR,12:00PM,1:50PM,Audrey Lenore Peterson-McCann,Ricketts Building 208,19,11,8,WRIT,2024-08-28,2024-12-20,FALL 2024,69854,2110,01,WRIT-2110,Strategic Writing,"This course is designed to assist students in becoming more self-possessed and versatile writers. The course offers instruction in linguistic, rhetorical, and sociocultural concepts through its overarching focus on language: how it works, where it falls short, and how to harness it for specific purposes. Critical thinking and composing are conceptualized as processes, which includes the creation, development, organization, and revision of ideas and arguments. Students will complete a series of writing assignments in order to participate in contemporary debates occurring in both public and academic contexts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-STRATEGIC WRITING,LEC,4,MR,2:00PM,3:50PM,Audrey Lenore Peterson-McCann,Ricketts Building 208,19,5,14,WRIT,2024-08-28,2024-12-20,FALL 2024,69855,2110,02,WRIT-2110,Strategic Writing,"This course is designed to assist students in becoming more self-possessed and versatile writers. The course offers instruction in linguistic, rhetorical, and sociocultural concepts through its overarching focus on language: how it works, where it falls short, and how to harness it for specific purposes. Critical thinking and composing are conceptualized as processes, which includes the creation, development, organization, and revision of ideas and arguments. Students will complete a series of writing assignments in order to participate in contemporary debates occurring in both public and academic contexts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+PROPOSING & PERSUADING,LEC,3,TF,2:00PM,3:50PM,Leah Corinne Jones,Amos Eaton Hall 216,6,1,5,WRIT,2024-08-28,2024-12-20,FALL 2024,69315,6550,01,WRIT-6550,Proposing & Persuading,"This course provides strategies for how to find funding, write persuasive narratives, develop budgets, and leverage academic or professional networks to craft competitive proposals. Here you will learn how to seek opportunities for developing proposals to support projects in your field of interest.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+STRATEGIC WRITING,LEC,4,MR,12:00PM,1:50PM,Audrey Lenore Peterson-McCann,Ricketts Building 208,19,20,-1,WRIT,2024-08-28,2024-12-20,FALL 2024,69854,2110,01,WRIT-2110,Strategic Writing,"This course is designed to assist students in becoming more self-possessed and versatile writers. The course offers instruction in linguistic, rhetorical, and sociocultural concepts through its overarching focus on language: how it works, where it falls short, and how to harness it for specific purposes. Critical thinking and composing are conceptualized as processes, which includes the creation, development, organization, and revision of ideas and arguments. Students will complete a series of writing assignments in order to participate in contemporary debates occurring in both public and academic contexts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+STRATEGIC WRITING,LEC,4,MR,2:00PM,3:50PM,Audrey Lenore Peterson-McCann,Ricketts Building 208,19,12,7,WRIT,2024-08-28,2024-12-20,FALL 2024,69855,2110,02,WRIT-2110,Strategic Writing,"This course is designed to assist students in becoming more self-possessed and versatile writers. The course offers instruction in linguistic, rhetorical, and sociocultural concepts through its overarching focus on language: how it works, where it falls short, and how to harness it for specific purposes. Critical thinking and composing are conceptualized as processes, which includes the creation, development, organization, and revision of ideas and arguments. Students will complete a series of writing assignments in order to participate in contemporary debates occurring in both public and academic contexts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 PROPOSING & PERSUADING,LEC,4,TF,2:00PM,3:50PM,Leah Corinne Jones,Amos Eaton Hall 216,14,13,1,WRIT,2024-08-28,2024-12-20,FALL 2024,69294,4550,01,WRIT-4550,Proposing & Persuading,"Make things happen: start a business, raise funds, solicit work, support research, win a place on a conference program, take initiative, change the way things are done around here. This course will teach students how to write proposals that persuade. Students will learn to turn situations into occasions for proposing, write a variety of proposals, locate Request for Proposals, develop a work plan for feasible projects that come in on-time and on-budget, use networks to strengthen proposals, detail a budget, and edit for clarity and grace.",Prerequisites: WRIT 1110 or WRIT 2110 or COMM 2520 or permission of instructor.,When Offered: Fall term annually.,"['WRIT 1110', 'WRIT 2110', 'COMM 2520']","['WRIT 1110', 'WRIT 2110', 'COMM 2520']","Humanities, Arts, and Social Sciences"
-CREATIVE WRITING: THE SHORT STORY,LEC,4,TF,2:00PM,3:50PM,Skye Anicca,Carnegie Building 102,14,14,0,WRIT,2024-08-28,2024-12-20,FALL 2024,67105,2330,01,WRIT-2330,Creative WRITING: The Short Story,"A workshop course in reading and writing the literary short story and literary flash fiction; students must have a good command of written English and grammar. This course will focus on reading and analyzing exemplary short fiction and writing and revising original work. Students learn to develop plot, character, setting, point of view, style, and structure, and use revision strategies to re-invent and shape narratives. Peer reading and writing groups offer opportunities for shared response and critique. .",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-CREATIVE WRITING: THE SHORT STORY,LEC,4,TF,2:00PM,3:50PM,Skye Anicca,Carnegie Building 102,5,6,-1,WRIT,2024-08-28,2024-12-20,FALL 2024,68227,2330,02,WRIT-2330,Creative WRITING: The Short Story,"A workshop course in reading and writing the literary short story and literary flash fiction; students must have a good command of written English and grammar. This course will focus on reading and analyzing exemplary short fiction and writing and revising original work. Students learn to develop plot, character, setting, point of view, style, and structure, and use revision strategies to re-invent and shape narratives. Peer reading and writing groups offer opportunities for shared response and critique. .",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-SPEECH COMMUNICATION,LEC,4,TF,12:00PM,1:50PM,Alexander Scott Hiland,Russell Sage Laboratory 2704,19,19,0,WRIT,2024-08-28,2024-12-20,FALL 2024,67810,2340,01,WRIT-2340,Speech Communication,"This course focuses on developing public speaking skills and critical listening abilities. Guided by rhetorical theory, theories of persuasion, and argumentation theory, students prepare several oral presentations, engage in extemporaneous speaking exercises, and criticize other performances.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CREATIVE WRITING: THE SHORT STORY,LEC,4,TF,2:00PM,3:50PM,Skye Anicca,Russell Sage Laboratory 3205,14,12,2,WRIT,2024-08-28,2024-12-20,FALL 2024,67105,2330,01,WRIT-2330,Creative WRITING: The Short Story,"A workshop course in reading and writing the literary short story and literary flash fiction; students must have a good command of written English and grammar. This course will focus on reading and analyzing exemplary short fiction and writing and revising original work. Students learn to develop plot, character, setting, point of view, style, and structure, and use revision strategies to re-invent and shape narratives. Peer reading and writing groups offer opportunities for shared response and critique. .",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CREATIVE WRITING: THE SHORT STORY,LEC,4,TF,2:00PM,3:50PM,Skye Anicca,Russell Sage Laboratory 3205,5,5,0,WRIT,2024-08-28,2024-12-20,FALL 2024,68227,2330,02,WRIT-2330,Creative WRITING: The Short Story,"A workshop course in reading and writing the literary short story and literary flash fiction; students must have a good command of written English and grammar. This course will focus on reading and analyzing exemplary short fiction and writing and revising original work. Students learn to develop plot, character, setting, point of view, style, and structure, and use revision strategies to re-invent and shape narratives. Peer reading and writing groups offer opportunities for shared response and critique. .",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SPEECH COMMUNICATION,LEC,4,TF,12:00PM,1:50PM,Alexander Scott Hiland,Russell Sage Laboratory 2704,19,21,-2,WRIT,2024-08-28,2024-12-20,FALL 2024,67810,2340,01,WRIT-2340,Speech Communication,"This course focuses on developing public speaking skills and critical listening abilities. Guided by rhetorical theory, theories of persuasion, and argumentation theory, students prepare several oral presentations, engage in extemporaneous speaking exercises, and criticize other performances.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 SPEECH COMMUNICATION,LEC,4,TF,2:00PM,3:50PM,Alexander Scott Hiland,Low Center for Industrial Inn. 3045,19,19,0,WRIT,2024-08-28,2024-12-20,FALL 2024,69820,2340,02,WRIT-2340,Speech Communication,"This course focuses on developing public speaking skills and critical listening abilities. Guided by rhetorical theory, theories of persuasion, and argumentation theory, students prepare several oral presentations, engage in extemporaneous speaking exercises, and criticize other performances.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-WRITING IN CONTEXT,LEC,4,MR,10:00AM,11:50AM,Audrey Lenore Peterson-McCann,Ricketts Building 208,19,7,12,WRIT,2024-08-28,2024-12-20,FALL 2024,69853,1110,01,WRIT-1110,Writing In Context,"This course will help you experience the power of language and learn how to develop that power as you become more aware of your communicative choices. You will write for several genres, both formal and informal, creating each piece for a specific audience and purpose. You will learn to communicate effectively-orally, visually, and in writing-in a wide range of situations that will be crucial to success in your academic and professional careers.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO CREATIVEWRITING,LEC,4,TF,8:00AM,9:50AM,Skye Anicca,Carnegie Building 208,19,20,-1,WRIT,2024-08-28,2024-12-20,FALL 2024,69766,1769,01,WRIT-1769,Intro To Creativewriting,"This course will introduce students to the field of creative writing studies and offer opportunities to practice writing fiction, creative nonfiction, and poetry. Course learning will be experiential, including reading, writing, and creativity development exercises. Discussion, informal critique, and workshop will be key assessment criteria. Student participation is the heart of this course.",None.,"When Offered: Summer term annually, and Fall term on even years.",[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO COGNITIVE SCIENCE,LEC,4,MR,4:00PM,5:50PM,Benjamin P. Weissman,Pittsburgh Building 4114,35,36,-1,COGS,2024-08-28,2024-12-20,FALL 2024,68285,2120,01,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO COGNITIVE SCIENCE,LEC,4,MR,4:00PM,5:50PM,Benjamin P. Weissman,Pittsburgh Building 4114,15,15,0,COGS,2024-08-28,2024-12-20,FALL 2024,68286,2120,02,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO CREATIVEWRITING,LEC,4,TF,8:00AM,9:50AM,Skye Anicca,Russell Sage Laboratory 4711,19,19,0,WRIT,2024-08-28,2024-12-20,FALL 2024,69766,1769,01,WRIT-1769,Intro To Creativewriting,"This course will introduce students to the field of creative writing studies and offer opportunities to practice writing fiction, creative nonfiction, and poetry. Course learning will be experiential, including reading, writing, and creativity development exercises. Discussion, informal critique, and workshop will be key assessment criteria. Student participation is the heart of this course.",None.,"When Offered: Summer term annually, and Fall term on even years.",[],[],"Humanities, Arts, and Social Sciences"
+LEARNING & ADVANCED GAME AI,LEC,4,MR,12:00PM,1:50PM,Mei Si,Troy Building 2015,5,1,4,COGS,2024-08-28,2024-12-20,FALL 2024,70271,6430,01,COGS-6430,Learning & Advanced Game Ai,"Digital gaming is one of the most rapidly developing fields. The effort required for developing games is not trivial. To make a game fun to play, the design of the game levels and/or the AI-driven opponents need to be intelligent and adaptive to the players' strategies and skills. In this course, students will learn and explore using machine learning techniques to automate the design process of digital games. The course will cover basic and advanced topics in Artificial Intelligence and Learning, such as Decision Trees, Neural Networks, Genetic Algorithms, and Reinforcement Learning. Students will gain hands-on experience in applying these techniques in computer games. The course will also introduce psychological theories and studies about people's decision-making and emotional processes and how they are related to the players' experience in games. This course will take the form of a combination of lectures, presentations by students, class discussions, and independent study.",Graduate standing.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO COGNITIVE SCIENCE,LEC,4,MR,4:00PM,5:50PM,Benjamin P. Weissman,Pittsburgh Building 4114,35,37,-2,COGS,2024-08-28,2024-12-20,FALL 2024,68285,2120,01,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO COGNITIVE SCIENCE,LEC,4,MR,4:00PM,5:50PM,Benjamin P. Weissman,Pittsburgh Building 4114,15,14,1,COGS,2024-08-28,2024-12-20,FALL 2024,68286,2120,02,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 INTRO TO COGNITIVE SCIENCE,LEC,4,MR,10:00AM,11:50AM,Benjamin P. Weissman,Jonsson Engineering Center 3210,50,50,0,COGS,2024-08-28,2024-12-20,FALL 2024,68548,2120,03,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-RESEARCH PROBLEMS IN COG SCI,LEC,2,W,11:30AM,1:50PM,Ron Sun,Carnegie Building 113,80,19,61,COGS,2024-08-28,2024-12-20,FALL 2024,66926,6968,01,COGS-6968,Research Problems In Cog Sci,,,,[],[],"Humanities, Arts, and Social Sciences"
+RESEARCH PROBLEMS IN COG SCI,LEC,2,W,11:30AM,1:50PM,Ron Sun,Carnegie Building 113,80,20,60,COGS,2024-08-28,2024-12-20,FALL 2024,66926,6968,01,COGS-6968,Research Problems In Cog Sci,,,,[],[],"Humanities, Arts, and Social Sciences"
 INTRODUCTION TO LINGUISTICS,LEC,4,MR,2:00PM,3:50PM,Benjamin P. Weissman,Pittsburgh Building 4114,50,50,0,COGS,2024-08-28,2024-12-20,FALL 2024,68284,2340,01,COGS-2340,Introduction To Linguistics,"This course offers a survey of scientific and applied approaches to the study of human language, highlighting the endlessly surprising nature of this sophisticated mode of communication. A sampling of the topics to be covered: phonology, morphology, syntax, semantics, lexicography, psycholinguistics, and historical linguistics. Lecture course.",,When Offered: Fall term annually; Spring term upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
-INTRODUCTION TO LINGUISTICS,LEC,4,MR,12:00PM,1:50PM,Marjorie McShane,Russell Sage Laboratory 4510,45,35,10,COGS,2024-08-28,2024-12-20,FALL 2024,69047,2340,02,COGS-2340,Introduction To Linguistics,"This course offers a survey of scientific and applied approaches to the study of human language, highlighting the endlessly surprising nature of this sophisticated mode of communication. A sampling of the topics to be covered: phonology, morphology, syntax, semantics, lexicography, psycholinguistics, and historical linguistics. Lecture course.",,When Offered: Fall term annually; Spring term upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
- HUMAN & MACHINE LEARNING,LEC,4,TF,10:00AM,11:50AM,Christopher Robert Sims,Carnegie Building 208,19,18,1,COGS,2024-08-28,2024-12-20,FALL 2024,69473,4230,01,COGS-4230,Human & Machine Learning,"This seminar explores the growing convergence between computational theories of human and machine learning. The course will focus on major theoretical frameworks including deep learning, Bayesian inference, information theory, and reinforcement learning, utilizing journal articles from both machine learning and cognitive science literatures. These topics will be critically evaluated from the perspective of how computational theories can be instantiated in cognitive systems. Both successes, and limitations, of current computational theories will be considered.",None.,When Offered: Fall annually,[],[],"Humanities, Arts, and Social Sciences"
-UNDERGRADUATE THESIS,LEC,2-6,,,,Bram Van Heuveln,TBA,0,0,0,COGS,2024-08-28,2024-12-20,FALL 2024,68381,4990,02,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO LINGUISTICS,LEC,4,MR,12:00PM,1:50PM,Marjorie McShane,Russell Sage Laboratory 4510,45,39,6,COGS,2024-08-28,2024-12-20,FALL 2024,69047,2340,02,COGS-2340,Introduction To Linguistics,"This course offers a survey of scientific and applied approaches to the study of human language, highlighting the endlessly surprising nature of this sophisticated mode of communication. A sampling of the topics to be covered: phonology, morphology, syntax, semantics, lexicography, psycholinguistics, and historical linguistics. Lecture course.",,When Offered: Fall term annually; Spring term upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+ HUMAN & MACHINE LEARNING,LEC,4,TF,10:00AM,11:50AM,Christopher Robert Sims,Carnegie Building 208,19,16,3,COGS,2024-08-28,2024-12-20,FALL 2024,69473,4230,01,COGS-4230,Human & Machine Learning,"This seminar explores the growing convergence between computational theories of human and machine learning. The course will focus on major theoretical frameworks including deep learning, Bayesian inference, information theory, and reinforcement learning, utilizing journal articles from both machine learning and cognitive science literatures. These topics will be critically evaluated from the perspective of how computational theories can be instantiated in cognitive systems. Both successes, and limitations, of current computational theories will be considered.",None.,When Offered: Fall annually,[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Thomas Macaulay Ferguson,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,67020,4990,01,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Bram Van Heuveln,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,68381,4990,02,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Tomasz Strzalkowski,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,67236,6980,01,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Alicia Ann Walf,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,68283,6980,02,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTERS PROJECT,LEC,1-9,,,,Brett R. Fajen,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,68440,6980,03,COGS-6980,Masters Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-MASTER'S PROJECT,LEC,1-9,,,,Christopher Robert Sims,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,69335,6980,04,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Christopher Robert Sims,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,69335,6980,04,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Wayne D. Gray,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,69342,6980,05,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Mei Si,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,69343,6980,06,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Stefan Tomov Radev,TBA,10,2,8,COGS,2024-08-28,2024-12-20,FALL 2024,69344,6980,07,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Benjamin P. Weissman,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,69345,6980,08,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-MASTER'S PROJECT,LEC,1-9,,,,Bram Van Heuveln,TBA,3,2,1,COGS,2024-08-28,2024-12-20,FALL 2024,69796,6980,09,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Bram Van Heuveln,TBA,3,1,2,COGS,2024-08-28,2024-12-20,FALL 2024,69796,6980,09,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Lucy Cui,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,69949,6980,10,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 INTRODUCTION TO COGNITIVE  NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3704,10,10,0,COGS,2024-08-28,2024-12-20,FALL 2024,68667,4330,01,COGS-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Fall term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
 INTRODUCTION TO COGNITIVE  NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3704,10,10,0,COGS,2024-08-28,2024-12-20,FALL 2024,68668,4330,02,COGS-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Fall term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-INTRODUCTION TO COGNITIVE  NEUROSCIENCE,LEC,4,MR,2:00PM,3:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3713,40,11,29,COGS,2024-08-28,2024-12-20,FALL 2024,69823,4330,03,COGS-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Fall term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+INTRODUCTION TO COGNITIVE  NEUROSCIENCE,LEC,4,MR,2:00PM,3:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3713,40,20,20,COGS,2024-08-28,2024-12-20,FALL 2024,69823,4330,03,COGS-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Fall term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
 MASTERS THESIS,LEC,1-12,,,,Wayne D. Gray,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,66938,6990,01,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTERS THESIS,LEC,1-12,,,,Brett R. Fajen,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,66947,6990,02,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTERS THESIS,LEC,1-12,,,,Larry D Reid,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,67053,6990,03,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
@@ -1316,72 +1352,73 @@ MASTERS THESIS,LEC,1-12,,,,Mei Si,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 20
 MASTERS THESIS,LEC,1-12,,,,Ron Sun,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,67235,6990,06,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTERS THESIS,LEC,1-12,,,,Christopher Robert Sims,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,68643,6990,07,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MASTERS THESIS,LEC,1-12,,,,James A. Hendler,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,68378,6990,08,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTERS THESIS,LEC,1-12,,,,Lucy Cui,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,69948,6990,09,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Wayne D. Gray,TBA,8,0,8,COGS,2024-08-28,2024-12-20,FALL 2024,66942,9990,01,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Brett R. Fajen,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,66943,9990,02,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Selmer Bringsjord,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,66944,9990,03,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,James A. Hendler,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,66948,9990,05,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Ron Sun,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,67008,9990,06,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Christopher Robert Sims,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,67237,9990,08,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
-DISSERTATION,LEC,1-15,,,,Sergei Nirenburg,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,67259,9990,09,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Sergei Nirenburg,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,67259,9990,09,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Marjorie McShane,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,68576,9990,10,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
-DISSERTATION,LEC,1-15,,,,Mei Si,TBA,10,0,10,COGS,2024-08-28,2024-12-20,FALL 2024,68577,9990,11,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Mei Si,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,68577,9990,11,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Tomasz Strzalkowski,TBA,10,1,9,COGS,2024-08-28,2024-12-20,FALL 2024,68578,9990,12,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
-CANINE COGS&SCI-BASED TRAINING,LEC,4,MR,2:00PM,3:50PM,Marjorie McShane,Russell Sage Laboratory 4112,19,11,8,COGS,2024-08-28,2024-12-20,FALL 2024,69532,4960,01,COGS-4960,Canine COGS&SCI-BASED Training,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
-HUMAN & MACHINE LEARNING,LEC,4,TF,10:00AM,11:50AM,Christopher Robert Sims,Carnegie Building 208,19,1,18,COGS,2024-08-28,2024-12-20,FALL 2024,69474,6230,01,COGS-6230,Human & Machine Learning,"This seminar explores the growing convergence between computational theories of human and machine learning. The course will focus on major theoretical frameworks including deep learning, Bayesian inference, information theory, and reinforcement learning, utilizing journal articles from both machine learning and cognitive science literatures. These topics will be critically evaluated from the perspective of how computational theories can be instantiated in cognitive systems. Both successes, and limitations, of current computational theories will be considered.",None.,When Offered: Fall annually,[],[],"Humanities, Arts, and Social Sciences"
-BAYESIAN DATA ANALYSIS,LEC,4,MR,10:00AM,11:50AM,Stefan Tomov Radev,Jonsson-Rowland Science Center 2C25,19,3,16,COGS,2024-08-28,2024-12-20,FALL 2024,69331,6960,01,COGS-6960,Bayesian Data Analysis,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
-LEARNING & ADVANCED GAME AI,LEC,4,MR,12:00PM,1:50PM,Mei Si,Troy Building 2015,19,14,5,COGS,2024-08-28,2024-12-20,FALL 2024,69498,4430,01,COGS-4430,Learning & Advanced Game Ai,"In this course students will explore machine learning techniques to automate the design process of digital games. The course will provide hands-on experience using topics such as Decision Trees, Neural Networks, Genetic Algorithms, and Reinforcement Learning. The course will also introduce psychological theories about peoples' decision-making and emotional processes and how they relate to players' experience in games. The course will consist of a combination of lectures, presentations by students, class discussions, and independent study.",Prerequisite: COGS 4420 or CSCI 4150.,When Offered: Fall term annually.,"['COGS 4420', 'CSCI 4150']","['COGS 4420', 'CSCI 4150']","Humanities, Arts, and Social Sciences"
-INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,150,24,126,COGS,2024-08-28,2024-12-20,FALL 2024,69789,4961,01,COGS-4961,Intro LOGIC-BASED Ai,,,,[],[],"Humanities, Arts, and Social Sciences"
-INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,20,4,16,COGS,2024-08-28,2024-12-20,FALL 2024,69790,6961,01,COGS-6961,Intro LOGIC-BASED Ai,,,,[],[],"Humanities, Arts, and Social Sciences"
-PROFESSIONAL SEMINAR,LEC,4,T,2:00PM,5:50PM,Sergei Nirenburg,Russell Sage Laboratory 3705,9,9,0,COGS,2024-08-28,2024-12-20,FALL 2024,68572,6963,01,COGS-6963,Professional Seminar,,,,[],[],"Humanities, Arts, and Social Sciences"
-APLD MICROECON & PUBLIC POLICY,LEC,3,TF,10:00AM,11:50AM,Michael A. Klein,Low Center for Industrial Inn. 3116,10,7,3,ECON,2024-08-28,2024-12-20,FALL 2024,69222,6010,01,ECON-6010,Apld Microecon & Public Policy,"We study foundational theory for a diverse set of topics including models of consumer choice and decision-making, decisions under uncertainty and risk, firm strategy, market structure, information asymmetries, market failure, and intellectual property rights. Using this theory, we examine real world policy applications in areas such as innovation policy, environmental policy, international trade regulations, contract design, and insurance markets.",Experience with probability or statistics preferrable,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-APPLIED GAME THEORY,LEC,4,MR,10:00AM,11:50AM,Heng Liu,Darrin Communications Center 235,19,19,0,ECON,2024-08-28,2024-12-20,FALL 2024,69325,4220,02,ECON-4220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. It will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 2010.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 2010']","['ECON 1200', 'INQR 1200', 'MATH 2010']","Humanities, Arts, and Social Sciences"
+CANINE COGS&SCI-BASED TRAINING,LEC,4,MR,2:00PM,3:50PM,Marjorie McShane,Russell Sage Laboratory 4112,19,14,5,COGS,2024-08-28,2024-12-20,FALL 2024,69532,4960,01,COGS-4960,Canine COGS&SCI-BASED Training,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
+HUMAN & MACHINE LEARNING,LEC,4,TF,10:00AM,11:50AM,Christopher Robert Sims,Carnegie Building 208,19,2,17,COGS,2024-08-28,2024-12-20,FALL 2024,69474,6230,01,COGS-6230,Human & Machine Learning,"This seminar explores the growing convergence between computational theories of human and machine learning. The course will focus on major theoretical frameworks including deep learning, Bayesian inference, information theory, and reinforcement learning, utilizing journal articles from both machine learning and cognitive science literatures. These topics will be critically evaluated from the perspective of how computational theories can be instantiated in cognitive systems. Both successes, and limitations, of current computational theories will be considered.",None.,When Offered: Fall annually,[],[],"Humanities, Arts, and Social Sciences"
+BAYESIAN DATA ANALYSIS,LEC,4,MR,10:00AM,11:50AM,Stefan Tomov Radev,Jonsson-Rowland Science Center 2C25,19,6,13,COGS,2024-08-28,2024-12-20,FALL 2024,69331,6960,01,COGS-6960,Bayesian Data Analysis,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
+LEARNING & ADVANCED GAME AI,LEC,4,MR,12:00PM,1:50PM,Mei Si,Troy Building 2015,19,13,6,COGS,2024-08-28,2024-12-20,FALL 2024,69498,4430,01,COGS-4430,Learning & Advanced Game Ai,"In this course students will explore machine learning techniques to automate the design process of digital games. The course will provide hands-on experience using topics such as Decision Trees, Neural Networks, Genetic Algorithms, and Reinforcement Learning. The course will also introduce psychological theories about peoples' decision-making and emotional processes and how they relate to players' experience in games. The course will consist of a combination of lectures, presentations by students, class discussions, and independent study.",Prerequisite: COGS 4420 or CSCI 4150.,When Offered: Fall term annually.,"['COGS 4420', 'CSCI 4150']","['COGS 4420', 'CSCI 4150']","Humanities, Arts, and Social Sciences"
+INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,150,32,118,COGS,2024-08-28,2024-12-20,FALL 2024,69789,4961,01,COGS-4961,Intro LOGIC-BASED Ai,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,20,6,14,COGS,2024-08-28,2024-12-20,FALL 2024,69790,6961,01,COGS-6961,Intro LOGIC-BASED Ai,,,,[],[],"Humanities, Arts, and Social Sciences"
+PROFESSIONAL SEMINAR,LEC,4,T,2:00PM,5:50PM,Sergei Nirenburg,Russell Sage Laboratory 3705,9,10,-1,COGS,2024-08-28,2024-12-20,FALL 2024,68572,6963,01,COGS-6963,Professional Seminar,,,,[],[],"Humanities, Arts, and Social Sciences"
+APLD MICROECON & PUBLIC POLICY,LEC,3,TF,10:00AM,11:50AM,Michael A. Klein,Low Center for Industrial Inn. 3116,10,6,4,ECON,2024-08-28,2024-12-20,FALL 2024,69222,6010,01,ECON-6010,Apld Microecon & Public Policy,"We study foundational theory for a diverse set of topics including models of consumer choice and decision-making, decisions under uncertainty and risk, firm strategy, market structure, information asymmetries, market failure, and intellectual property rights. Using this theory, we examine real world policy applications in areas such as innovation policy, environmental policy, international trade regulations, contract design, and insurance markets.",Experience with probability or statistics preferrable,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+APPLIED GAME THEORY,LEC,4,MR,10:00AM,11:50AM,Heng Liu,Darrin Communications Center 235,19,21,-2,ECON,2024-08-28,2024-12-20,FALL 2024,69325,4220,02,ECON-4220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. It will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 2010.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 2010']","['ECON 1200', 'INQR 1200', 'MATH 2010']","Humanities, Arts, and Social Sciences"
 LABOR MRKTS & DISCRIMINATION,LEC,4,TF,12:00PM,1:50PM,Conor Lennon,Greene Building 120,19,19,0,ECON,2024-08-28,2024-12-20,FALL 2024,69221,4380,01,ECON-4380,Labor Mrkts & Discrimination,"This course examines how the US labor market works, addressing topics of labor supply and labor demand, theories of wage determination, employment benefits and regulations, how wage differentials develop and evolve, and the growing role of technology, automation, and artificial intelligence. We will pay special attention to the effects of discrimination, using economic theory and empirical methods to help us understand how gender, racial, and sexual minority discrimination affect earnings and employment. We will also examine the effects of education and skills training on wages and employment prospects, focusing on the effects of training in Science, Technology, Engineering, and Mathematics (STEM).",Prerequisites/Corequisites: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
 DATA ANAYSIS IN ECON & FINANCE,LEC,3,MR,10:00AM,11:50AM,Rui Fan,Low Center for Industrial Inn. 3116,10,10,0,ECON,2024-08-28,2024-12-20,FALL 2024,68834,6030,01,ECON-6030,Data Anaysis In Econ & Finance,"For students who are interested in empirical research in economic- and finance-oriented institutions, this course provides a wide range of econometric tools for the specification, estimation, prediction, and evaluation of economic and financial models. Methods to identify causal effects are emphasized. Mathematical methods of econometrics are developed for tools such as instrumental variables, regression discontinuity, and difference-in-differences. Advanced topics including time series, panel data, and quantile regression will also be addressed. In particular, we examine how the quantile regression can potentially improve the predictability of the stock market and relate it to the current development in this area.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 BEHAVIORAL ECONOMICS,LEC,3,MR,8:00AM,9:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,5,3,2,ECON,2024-08-28,2024-12-20,FALL 2024,68973,6270,01,ECON-6270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-ECONOMETRIC METHODS-BIG DATA,LEC,3,TF,2:00PM,3:50PM,Huaming Peng,West Hall 211,5,3,2,ECON,2024-08-28,2024-12-20,FALL 2024,69483,6280,01,ECON-6280,Econometric METHODS-BIG Data,"Examine advanced econometric and statistical methods for the analysis of high-dimensional data, otherwise known as ""Big Data."" In this setting, detailed information for each unit of observation informs machine learning techniques such as classification and regression trees; rECandom forests; penalized regressions; and boosted estimation. These prediction methods are then utilized to improve causal modeling, with applications in the study of healthcare demand and supply modeling, and behavior of consumers and businesses.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECONOMETRIC METHODS-BIG DATA,LEC,3,TF,2:00PM,3:50PM,Huaming Peng,West Hall 211,5,5,0,ECON,2024-08-28,2024-12-20,FALL 2024,69483,6280,01,ECON-6280,Econometric METHODS-BIG Data,"Examine advanced econometric and statistical methods for the analysis of high-dimensional data, otherwise known as ""Big Data."" In this setting, detailed information for each unit of observation informs machine learning techniques such as classification and regression trees; rECandom forests; penalized regressions; and boosted estimation. These prediction methods are then utilized to improve causal modeling, with applications in the study of healthcare demand and supply modeling, and behavior of consumers and businesses.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MICROECONOMICS I,LEC,3,TF,10:00AM,11:50AM,Robeny Bruno Nkuiya Mbakop,Russell Sage Laboratory 2112,10,3,7,ECON,2024-08-28,2024-12-20,FALL 2024,69486,6710,01,ECON-6710,Microeconomics I,"The central propositions of contemporary economic analysis are discussed. Topics include individual decision-making, consumption, production, the interaction of firms and households, competitive equilibrium, general equilibrium theory, welfare theorems, externalities, uncertainty, and the implications for economic policy.",Ph.D. student status or permission of instructor.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Kenneth L. Simons,TBA,10,0,10,ECON,2024-08-28,2024-12-20,FALL 2024,66255,9990,01,ECON-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,TBA,TBA,90,0,90,ECON,2024-08-28,2024-12-20,FALL 2024,65207,9990,02,ECON-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,TBA,TBA,90,0,90,ECON,2024-08-28,2024-12-20,FALL 2024,65208,9990,03,ECON-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
-APLD MICROECON & PUBLIC POLICY,LEC,4,TF,10:00AM,11:50AM,Michael A. Klein,Low Center for Industrial Inn. 3116,19,7,12,ECON,2024-08-28,2024-12-20,FALL 2024,68974,4010,01,ECON-4010,Apld Microecon & Public Policy,"We study foundational theory for a diverse set of topics including models of consumer choice and decision-making, decisions under uncertainty and risk, firm strategy, market structure, information asymmetries, market failure, and intellectual property rights. Using this theory, we examine real world policy applications in areas such as innovation policy, environmental policy, international trade regulations, contract design, and insurance markets.",Prerequisite: ECON 2010,When Offered: Fall term annually,['ECON 2010'],['ECON 2010'],"Humanities, Arts, and Social Sciences"
+APLD MICROECON & PUBLIC POLICY,LEC,4,TF,10:00AM,11:50AM,Michael A. Klein,Low Center for Industrial Inn. 3116,19,8,11,ECON,2024-08-28,2024-12-20,FALL 2024,68974,4010,01,ECON-4010,Apld Microecon & Public Policy,"We study foundational theory for a diverse set of topics including models of consumer choice and decision-making, decisions under uncertainty and risk, firm strategy, market structure, information asymmetries, market failure, and intellectual property rights. Using this theory, we examine real world policy applications in areas such as innovation policy, environmental policy, international trade regulations, contract design, and insurance markets.",Prerequisite: ECON 2010,When Offered: Fall term annually,['ECON 2010'],['ECON 2010'],"Humanities, Arts, and Social Sciences"
 ECON OF BIOTECH & MED INNOV,LEC,3,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,5,2,3,ECON,2024-08-28,2024-12-20,FALL 2024,69225,6290,01,ECON-6290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
-ECONOMETRICS,LEC,4,MR,2:00PM,3:50PM,Rui Fan,Darrin Communications Center 236,25,27,-2,ECON,2024-08-28,2024-12-20,FALL 2024,67073,4570,01,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
+ECONOMETRICS,LEC,4,MR,2:00PM,3:50PM,Rui Fan,Darrin Communications Center 236,25,23,2,ECON,2024-08-28,2024-12-20,FALL 2024,67073,4570,01,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
 ECONOMETRICS,LEC,4,MR,10:00AM,11:50AM,Huaming Peng,Russell Sage Laboratory 2701,25,22,3,ECON,2024-08-28,2024-12-20,FALL 2024,67853,4570,02,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
-ECON MODELS OF DECISION MAKING,LEC,3,MR,10:00AM,11:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,5,2,3,ECON,2024-08-28,2024-12-20,FALL 2024,69226,6320,01,ECON-6320,Econ Models Of Decision Making,"An exploration of models of decision-making under alternative assumptions, expanding on ""rational"" models of introductory economics. The course will discuss the assumptions of these standard models and their shortcomings. The shortcomings will be addressed through exploration of limited attention and considerations of fairness, uncertainty, and strategic interaction. Applications in areas such as consumer and household finance, marketing, and public policy will be emphasized throughout.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-ECONOMETRICS I,LEC,3,TF,2:00PM,3:50PM,Jorge Andres Rivero,Carnegie Building 106,10,5,5,ECON,2024-08-28,2024-12-20,FALL 2024,69487,6730,01,ECON-6730,Econometrics I,"Theoretical treatment of economic statistics. Topics include a rigorous treatment of set theory and fundamentals of probability theory, statistical estimation and hypothesis testing, analysis of variance, and regression. Also includes advanced topics such as maximum likelihood, generalized method of moments, empirical likelihood, and bootstrap, as well as finite-sample analysis and large-sample asymptotics.",Ph.D. student status or permission of instructor.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
-BEHAVIORAL ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,14,15,-1,ECON,2024-08-28,2024-12-20,FALL 2024,68256,4270,01,ECON-4270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1010 or MATH 1500.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-BEHAVIORAL ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,5,4,1,ECON,2024-08-28,2024-12-20,FALL 2024,69217,4270,02,ECON-4270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1010 or MATH 1500.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+ECON MODELS OF DECISION MAKING,LEC,3,MR,10:00AM,11:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,5,1,4,ECON,2024-08-28,2024-12-20,FALL 2024,69226,6320,01,ECON-6320,Econ Models Of Decision Making,"An exploration of models of decision-making under alternative assumptions, expanding on ""rational"" models of introductory economics. The course will discuss the assumptions of these standard models and their shortcomings. The shortcomings will be addressed through exploration of limited attention and considerations of fairness, uncertainty, and strategic interaction. Applications in areas such as consumer and household finance, marketing, and public policy will be emphasized throughout.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+ECONOMETRICS I,LEC,3,TF,2:00PM,3:50PM,Jorge Andres Rivero,Carnegie Building 106,10,4,6,ECON,2024-08-28,2024-12-20,FALL 2024,69487,6730,01,ECON-6730,Econometrics I,"Theoretical treatment of economic statistics. Topics include a rigorous treatment of set theory and fundamentals of probability theory, statistical estimation and hypothesis testing, analysis of variance, and regression. Also includes advanced topics such as maximum likelihood, generalized method of moments, empirical likelihood, and bootstrap, as well as finite-sample analysis and large-sample asymptotics.",Ph.D. student status or permission of instructor.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+BEHAVIORAL ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,14,13,1,ECON,2024-08-28,2024-12-20,FALL 2024,68256,4270,01,ECON-4270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1010 or MATH 1500.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,5,3,2,ECON,2024-08-28,2024-12-20,FALL 2024,69217,4270,02,ECON-4270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1010 or MATH 1500.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
 DATA ANAYSIS IN ECON & FINANCE,LEC,4,MR,10:00AM,11:50AM,Rui Fan,Low Center for Industrial Inn. 3116,19,13,6,ECON,2024-08-28,2024-12-20,FALL 2024,68833,4580,01,ECON-4580,Data Anaysis In Econ & Finance,"For students who are interested in empirical research in economic- and finance-oriented institutions, this course provides a wide range of econometric tools for the specification, estimation, prediction, and evaluation of economic and financial models. Methods to identify causal effects are emphasized. Mathematical methods of econometrics are developed for tools such as instrumental variables, regression discontinuity, and difference-in-differences. Advanced topics including time series, panel data, and quantile regression will also be addressed. In particular, we examine how the quantile regression can potentially improve the predictability of the stock market and relate it to the current development in this area.",Prerequisites: ECON 4570 and MATH 2010; or permission of instructor,When Offered: Fall term annually,"['ECON 4570', 'MATH 2010']","['ECON 4570', 'MATH 2010']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MICROECONOMIC THEORY,LEC,4,MR,6:00PM,7:50PM,Robert W. Jones,Low Center for Industrial Inn. 3051,70,65,5,ECON,2024-08-28,2024-12-20,FALL 2024,65001,2010,01,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,8:00AM,9:50AM,Robert W. Jones,Russell Sage Laboratory 5101,60,36,24,ECON,2024-08-28,2024-12-20,FALL 2024,65002,2010,02,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,2:00PM,3:50PM,Conor Lennon,Russell Sage Laboratory 5101,60,60,0,ECON,2024-08-28,2024-12-20,FALL 2024,68972,2010,03,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,10:00AM,11:50AM,Jorge Andres Rivero,Lally Hall 104,50,19,31,ECON,2024-08-28,2024-12-20,FALL 2024,69777,2010,04,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-MONEY & BANKING,LEC,4,MR,10:00AM,11:50AM,Sarah Marsden Greene,Darrin Communications Center 318,200,162,38,ECON,2024-08-28,2024-12-20,FALL 2024,65395,4130,01,ECON-4130,Money & Banking,"Financial institutions, especially commercial banking and the Federal Reserve System, are considered from three perspectives: their monetary roles; trends in the economic, organizational, and technological aspects of their operations; and their other economic roles-a critical view. Also, the role of money in macroeconomic theory is considered along with the role of monetary policies in relation to the problems of inflation and unemployment.",Prerequisite: ECON 1200 or INQR 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
-ECONOMETRIC METHODS-BIG DATA,LEC,4,TF,2:00PM,3:50PM,Huaming Peng,West Hall 211,19,9,10,ECON,2024-08-28,2024-12-20,FALL 2024,68257,4280,01,ECON-4280,Econometric METHODS-BIG Data,"Examine advanced econometric and statistical methods for the analysis of high-dimensional data, otherwise known as ""Big Data."" In this setting, detailed information for each unit of observation informs machine learning techniques such as classification and regression trees; random forests; penalized regressions; and boosted estimation. These prediction methods are then utilized to improve causal modeling, with applications in the study of healthcare demand and supply modeling, and behavior of consumers and businesses.","Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1500 or MATH 1010; and ENGR 2600, MGMT 2100, MATP 4600, or PSYC 2310.",When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1500', 'MATH 1010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310']","['ECON 1200', 'INQR 1200', 'MATH 1500', 'MATH 1010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MR,10:00AM,11:50AM,Mina Mahmoudi,Pittsburgh Building 5216,55,30,25,ECON,2024-08-28,2024-12-20,FALL 2024,67183,2020,01,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MACROECONOMIC THEORY,LEC,4,TF,12:00PM,1:50PM,Huaming Peng,Russell Sage Laboratory 3101,59,44,15,ECON,2024-08-28,2024-12-20,FALL 2024,67278,2020,02,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MR,2:00PM,3:50PM,Mina Mahmoudi,Pittsburgh Building 5216,50,33,17,ECON,2024-08-28,2024-12-20,FALL 2024,68026,2020,03,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-ECON OF BIOTECH & MED INNOV,LEC,4,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,14,13,1,ECON,2024-08-28,2024-12-20,FALL 2024,69218,4290,01,ECON-4290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
-ECON OF BIOTECH & MED INNOV,LEC,4,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,5,2,3,ECON,2024-08-28,2024-12-20,FALL 2024,69219,4290,02,ECON-4290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,MR,6:00PM,7:50PM,Robert W. Jones,Low Center for Industrial Inn. 3051,70,64,6,ECON,2024-08-28,2024-12-20,FALL 2024,65001,2010,01,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,8:00AM,9:50AM,Robert W. Jones,Russell Sage Laboratory 5101,60,42,18,ECON,2024-08-28,2024-12-20,FALL 2024,65002,2010,02,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,2:00PM,3:50PM,Conor Lennon,Russell Sage Laboratory 5101,60,52,8,ECON,2024-08-28,2024-12-20,FALL 2024,68972,2010,03,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,10:00AM,11:50AM,Jorge Andres Rivero,Lally Hall 104,50,25,25,ECON,2024-08-28,2024-12-20,FALL 2024,69777,2010,04,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. The course applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Product pricing strategies are examined. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. The course also introduces topics such as game theory, externalities, public goods, asymmetric information, and behavioral economics.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+MONEY & BANKING,LEC,4,MR,10:00AM,11:50AM,Sarah Marsden Greene,Darrin Communications Center 318,200,178,22,ECON,2024-08-28,2024-12-20,FALL 2024,65395,4130,01,ECON-4130,Money & Banking,"Financial institutions, especially commercial banking and the Federal Reserve System, are considered from three perspectives: their monetary roles; trends in the economic, organizational, and technological aspects of their operations; and their other economic roles-a critical view. Also, the role of money in macroeconomic theory is considered along with the role of monetary policies in relation to the problems of inflation and unemployment.",Prerequisite: ECON 1200 or INQR 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+ECONOMETRIC METHODS-BIG DATA,LEC,4,TF,2:00PM,3:50PM,Huaming Peng,West Hall 211,19,15,4,ECON,2024-08-28,2024-12-20,FALL 2024,68257,4280,01,ECON-4280,Econometric METHODS-BIG Data,"Examine advanced econometric and statistical methods for the analysis of high-dimensional data, otherwise known as ""Big Data."" In this setting, detailed information for each unit of observation informs machine learning techniques such as classification and regression trees; random forests; penalized regressions; and boosted estimation. These prediction methods are then utilized to improve causal modeling, with applications in the study of healthcare demand and supply modeling, and behavior of consumers and businesses.","Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1500 or MATH 1010; and ENGR 2600, MGMT 2100, MATP 4600, or PSYC 2310.",When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1500', 'MATH 1010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310']","['ECON 1200', 'INQR 1200', 'MATH 1500', 'MATH 1010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MR,10:00AM,11:50AM,Mina Mahmoudi,Pittsburgh Building 5216,55,28,27,ECON,2024-08-28,2024-12-20,FALL 2024,67183,2020,01,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,TF,12:00PM,1:50PM,Huaming Peng,Russell Sage Laboratory 3101,59,49,10,ECON,2024-08-28,2024-12-20,FALL 2024,67278,2020,02,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MR,2:00PM,3:50PM,Mina Mahmoudi,Pittsburgh Building 5216,50,36,14,ECON,2024-08-28,2024-12-20,FALL 2024,68026,2020,03,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+ECON OF BIOTECH & MED INNOV,LEC,4,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,14,12,2,ECON,2024-08-28,2024-12-20,FALL 2024,69218,4290,01,ECON-4290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+ECON OF BIOTECH & MED INNOV,LEC,4,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,5,1,4,ECON,2024-08-28,2024-12-20,FALL 2024,69219,4290,02,ECON-4290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
 EXPERIMENTAL ECONOMICS,LEC,3,MR,10:00AM,11:50AM,Billur Aksoy,West Hall 211,5,0,5,ECON,2024-08-28,2024-12-20,FALL 2024,68979,6360,01,ECON-6360,Experimental Economics,"This course provides an introduction to experimental methods in economics. It teaches students how to test economic theories, as well as introducing them to the experimental methods that are used to investigate questions that may not be possible to study using existing data sets. Students are introduced to state-of-the-art research methodology in experimental economics. It also prepares students to design, implement and analyze their own economics experiments.",,When Offered: Fall and Spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-ECON DATA ANALYSIS & APPLIC.,LEC,4,TF,12:00PM,1:50PM,Jason Ung Huh,Russell Sage Laboratory 2701,25,24,1,ECON,2024-08-28,2024-12-20,FALL 2024,69213,2100,01,ECON-2100,Econ Data Analysis & APPLIC.,"This course provides an introduction to economic data and analysis. There will be an emphasis on applications using data that pertain to various areas of economics, such as labor market, technology-related markets, economics of climate change, and healthcare sector. Students will learn basic statistical methods to analyze data and interpret current economic and policy issues.",Prerequisite: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
-ECON DATA ANALYSIS & APPLIC.,LEC,4,TF,2:00PM,3:50PM,Prakrati Thakur,Carnegie Building 210,25,24,1,ECON,2024-08-28,2024-12-20,FALL 2024,69361,2100,02,ECON-2100,Econ Data Analysis & APPLIC.,"This course provides an introduction to economic data and analysis. There will be an emphasis on applications using data that pertain to various areas of economics, such as labor market, technology-related markets, economics of climate change, and healthcare sector. Students will learn basic statistical methods to analyze data and interpret current economic and policy issues.",Prerequisite: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
+ECON DATA ANALYSIS & APPLIC.,LEC,4,TF,12:00PM,1:50PM,Jason Ung Huh,Russell Sage Laboratory 2701,25,25,0,ECON,2024-08-28,2024-12-20,FALL 2024,69213,2100,01,ECON-2100,Econ Data Analysis & APPLIC.,"This course provides an introduction to economic data and analysis. There will be an emphasis on applications using data that pertain to various areas of economics, such as labor market, technology-related markets, economics of climate change, and healthcare sector. Students will learn basic statistical methods to analyze data and interpret current economic and policy issues.",Prerequisite: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
+ECON DATA ANALYSIS & APPLIC.,LEC,4,TF,2:00PM,3:50PM,Prakrati Thakur,Carnegie Building 210,25,22,3,ECON,2024-08-28,2024-12-20,FALL 2024,69361,2100,02,ECON-2100,Econ Data Analysis & APPLIC.,"This course provides an introduction to economic data and analysis. There will be an emphasis on applications using data that pertain to various areas of economics, such as labor market, technology-related markets, economics of climate change, and healthcare sector. Students will learn basic statistical methods to analyze data and interpret current economic and policy issues.",Prerequisite: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
 HEALTH ECONOMICS AND POLICY,LEC,3,TF,10:00AM,11:50AM,Jason Ung Huh,Russell Sage Laboratory 2701,5,1,4,ECON,2024-08-28,2024-12-20,FALL 2024,68196,6170,01,ECON-6170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-ECONOMICS OF INNOVATION 1,LEC,3,MR,2:00PM,3:50PM,Kenneth L. Simons,Jonsson-Rowland Science Center 1W01,10,3,7,ECON,2024-08-28,2024-12-20,FALL 2024,69485,6770,01,ECON-6770,Economics Of Innovation 1,"Core issues in the economics of technology and innovation are covered along with policy ramifications. Topics include models of strategic R&D and patenting, quality and price measures, drivers of innovation in firms and fields of knowledge, technology adoption and diffusion, and regional innovation.",Ph.D. student status or permission of instructor.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECONOMICS OF INNOVATION 1,LEC,3,MR,2:00PM,3:50PM,Kenneth L. Simons,Jonsson-Rowland Science Center 1W01,10,4,6,ECON,2024-08-28,2024-12-20,FALL 2024,69485,6770,01,ECON-6770,Economics Of Innovation 1,"Core issues in the economics of technology and innovation are covered along with policy ramifications. Topics include models of strategic R&D and patenting, quality and price measures, drivers of innovation in firms and fields of knowledge, technology adoption and diffusion, and regional innovation.",Ph.D. student status or permission of instructor.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
 ECON MODELS OF DECIS MAKING,LEC,4,MR,10:00AM,11:50AM,Ian S. Chadd,Russell Sage Laboratory 4203,19,9,10,ECON,2024-08-28,2024-12-20,FALL 2024,69220,4320,01,ECON-4320,Econ Models Of Decis Making,"An exploration of models of decision-making under alternative assumptions, expanding on ""rational"" models of introductory economics. The course will discuss the assumptions of these standard models and their shortcomings. The shortcomings will be addressed through the exploration of limited attention and considerations of fairness, uncertainty, and strategic interaction. Applications in areas such as consumer and household finance, marketing, and public policy will be emphasized throughout.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
 ADV INTERN ECO & GLOBALIZATION,LEC,3,TF,12:00PM,1:50PM,Mina Mahmoudi,Jonsson-Rowland Science Center 2C25,10,0,10,ECON,2024-08-28,2024-12-20,FALL 2024,68027,6190,01,ECON-6190,Adv Intern Eco & Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national governments and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the World Trade Organization and International Monetary Fund. The major controversies surrounding globalization are identified, and alternative arguments are evaluated based on available evidence.",,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
-LABOR MRKTS & DISCRIMINATION,LEC,3,TF,12:00PM,1:50PM,Conor Lennon,Greene Building 120,5,0,5,ECON,2024-08-28,2024-12-20,FALL 2024,69829,6380,01,ECON-6380,Labor Mrkts & Discrimination,"This course examines how the US labor market works, addressing topics of labor supply and labor demand, theories of wage determination, employment benefits and regulations, how wage differentials develop and evolve, and the growing role of technology, automation, and artificial intelligence. We will pay special attention to the effects of discrimination, using economic theory and empirical methods to help us understand how gender, racial, and sexual minority discrimination affect earnings and employment. We will also examine the effects of education and skills training on wages and employment prospects, focusing on the effects of training in Science, Technology, Engineering, and Mathematics (STEM).",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-HEALTH ECONOMICS AND POLICY,LEC,4,TF,10:00AM,11:50AM,Jason Ung Huh,Russell Sage Laboratory 2701,14,14,0,ECON,2024-08-28,2024-12-20,FALL 2024,68195,4170,01,ECON-4170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,"Prerequisites/Corequisites: INQR 1200 or ECON 1200, and MATH 1010 or MATH 1500.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+LABOR MRKTS & DISCRIMINATION,LEC,3,TF,12:00PM,1:50PM,Conor Lennon,Greene Building 120,5,1,4,ECON,2024-08-28,2024-12-20,FALL 2024,69829,6380,01,ECON-6380,Labor Mrkts & Discrimination,"This course examines how the US labor market works, addressing topics of labor supply and labor demand, theories of wage determination, employment benefits and regulations, how wage differentials develop and evolve, and the growing role of technology, automation, and artificial intelligence. We will pay special attention to the effects of discrimination, using economic theory and empirical methods to help us understand how gender, racial, and sexual minority discrimination affect earnings and employment. We will also examine the effects of education and skills training on wages and employment prospects, focusing on the effects of training in Science, Technology, Engineering, and Mathematics (STEM).",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+HEALTH ECONOMICS AND POLICY,LEC,4,TF,10:00AM,11:50AM,Jason Ung Huh,Russell Sage Laboratory 2701,14,13,1,ECON,2024-08-28,2024-12-20,FALL 2024,68195,4170,01,ECON-4170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,"Prerequisites/Corequisites: INQR 1200 or ECON 1200, and MATH 1010 or MATH 1500.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
 HEALTH ECONOMICS AND POLICY,LEC,4,TF,10:00AM,11:50AM,Jason Ung Huh,Russell Sage Laboratory 2701,5,5,0,ECON,2024-08-28,2024-12-20,FALL 2024,69214,4170,02,ECON-4170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,"Prerequisites/Corequisites: INQR 1200 or ECON 1200, and MATH 1010 or MATH 1500.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
-ECON-FINANCIAL MARKETS & INST.,LEC,4,TF,10:00AM,11:50AM,Robert W. Jones,Greene Building 120,49,49,0,ECON,2024-08-28,2024-12-20,FALL 2024,68095,4330,01,ECON-4330,ECON-FINANCIAL Markets & INST.,"This course will examine a wide range of financial markets and institutions and the micro-and macroeconomic forces that relate to them. Topics include the use of derivative securities such as future, options, and swap agreements, and their roles in distributing financial risk. The course will be driven by textbook readings, supplemented by current news stories, articles from the financial press, and research articles.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
-ENERGY ECONOMICS AND POLICY,LEC,4,MR,2:00PM,3:50PM,Wint Thu,Lally Hall 02,19,8,11,ECON,2024-08-28,2024-12-20,FALL 2024,69778,4960,01,ECON-4960,Energy Economics And Policy,Selected topics in economic analysis and problems to meet the special needs of upper-division students in various curricula throughout the Institute. This allows students to pursue more in-depth work in their areas of study.,Prerequisites: ECON 1200 or INQR 1200; or permission of instructor.,,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
-APPLIED GAME THEORY,LEC,3,MR,10:00AM,11:50AM,Heng Liu,Darrin Communications Center 235,5,1,4,ECON,2024-08-28,2024-12-20,FALL 2024,69326,6220,02,ECON-6220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. Students will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTERNATIONAL ECONOMICS AND GLOBALIZATION,LEC,4,TF,12:00PM,1:50PM,Mina Mahmoudi,Jonsson-Rowland Science Center 2C25,40,23,17,ECON,2024-08-28,2024-12-20,FALL 2024,67808,4190,01,ECON-4190,International Economics And Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national government and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the world trade organization and international monetary fund. The major controversies surroundin globalization are identified, and alternative arguments are evaluated based on available evidence.",Prerequisite: ECON 1200 or INQR 1200 or permission of instructor.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
-EXPERIMENTAL ECONOMICS,LEC,4,MR,10:00AM,11:50AM,Billur Aksoy,West Hall 211,19,20,-1,ECON,2024-08-28,2024-12-20,FALL 2024,68978,4360,01,ECON-4360,Experimental Economics,"This course provides an introduction to experimental methods in economics. It teaches students how to test economic theories, as well as introducing them to the experimental methods that are used to investigate questions that may not be possible to study using existing data sets. Students are introduced to state-of-the-art research methodology in experimental economics. It also prepares students to design, implement and analyze their own economics experiments.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and Spring terms annually,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
-INTRODUCTION TO GAME ART,LEC,4,TF,2:00PM,3:30PM,Adrianna Sakamoto Oropello,West Hall 214,19,16,3,GSAS,2024-08-28,2024-12-20,FALL 2024,68044,1040,01,GSAS-1040,Introduction To Game Art,"This course combines an introduction to traditional visual arts and digital media and serves as a foundation for work in game design and interactive art. Using studio projects that incorporate physical media, digital imaging and computer code, students develop their formal vocabulary, observational skills, and their understanding of issues in visual and interactive arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-HISTORY AND CULTURE OF GAMES,LEC,4,TF,2:00PM,3:50PM,Yiyuan Zeng,Lally Hall 02,19,15,4,GSAS,2024-08-28,2024-12-20,FALL 2024,68102,1600,01,GSAS-1600,History And Culture Of Games,"This course surveys 5000 years of game history, from ancient Sumer/Sumerian to the latest next-generation consoles and MMOGs. In parallel with this historical tour, several major theories will be examined about the nature of play and the nature of games. Along the way, it will also look at how games and play influence the cultures they are found in, and how culture in turn influences how people structure their leisure time will also be considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-HISTORY AND CULTURE OF GAMES,LEC,4,TF,8:00AM,9:50AM,Nicholas J. Mizer,Ricketts Building 208,19,13,6,GSAS,2024-08-28,2024-12-20,FALL 2024,69520,1600,02,GSAS-1600,History And Culture Of Games,"This course surveys 5000 years of game history, from ancient Sumer/Sumerian to the latest next-generation consoles and MMOGs. In parallel with this historical tour, several major theories will be examined about the nature of play and the nature of games. Along the way, it will also look at how games and play influence the cultures they are found in, and how culture in turn influences how people structure their leisure time will also be considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-"LIGHTING, RENDERING, CINEMA",LEC,4,TF,12:00PM,1:50PM,Adrianna Sakamoto Oropello,Russell Sage Laboratory 2411,19,8,11,GSAS,2024-08-28,2024-12-20,FALL 2024,69519,4200,01,GSAS-4200,"LIGHTING, RENDERING, Cinema","A course exploring methods for 3D computer lighting, rendering, and camera authoring. We will discuss strong foundational theory from film in regards to lighting and cinematography. The course will focus on producing high fidelity rendered images and video for animation, games, and digital art.",,When Offered: Upon availability of instructor,[],[],"Humanities, Arts, and Social Sciences"
+ECON-FINANCIAL MARKETS & INST.,LEC,4,TF,10:00AM,11:50AM,Robert W. Jones,Greene Building 120,49,48,1,ECON,2024-08-28,2024-12-20,FALL 2024,68095,4330,01,ECON-4330,ECON-FINANCIAL Markets & INST.,"This course will examine a wide range of financial markets and institutions and the micro-and macroeconomic forces that relate to them. Topics include the use of derivative securities such as future, options, and swap agreements, and their roles in distributing financial risk. The course will be driven by textbook readings, supplemented by current news stories, articles from the financial press, and research articles.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+ENERGY ECONOMICS AND POLICY,LEC,4,MR,2:00PM,3:50PM,Wint Thu,Lally Hall 02,19,11,8,ECON,2024-08-28,2024-12-20,FALL 2024,69778,4960,01,ECON-4960,Energy Economics And Policy,Selected topics in economic analysis and problems to meet the special needs of upper-division students in various curricula throughout the Institute. This allows students to pursue more in-depth work in their areas of study.,Prerequisites: ECON 1200 or INQR 1200; or permission of instructor.,,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+APPLIED GAME THEORY,LEC,3,MR,10:00AM,11:50AM,Heng Liu,Darrin Communications Center 235,5,0,5,ECON,2024-08-28,2024-12-20,FALL 2024,69326,6220,02,ECON-6220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. Students will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTERNATIONAL ECONOMICS AND GLOBALIZATION,LEC,4,TF,12:00PM,1:50PM,Mina Mahmoudi,Jonsson-Rowland Science Center 2C25,40,24,16,ECON,2024-08-28,2024-12-20,FALL 2024,67808,4190,01,ECON-4190,International Economics And Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national government and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the world trade organization and international monetary fund. The major controversies surroundin globalization are identified, and alternative arguments are evaluated based on available evidence.",Prerequisite: ECON 1200 or INQR 1200 or permission of instructor.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+EXPERIMENTAL ECONOMICS,LEC,4,MR,10:00AM,11:50AM,Billur Aksoy,West Hall 211,19,19,0,ECON,2024-08-28,2024-12-20,FALL 2024,68978,4360,01,ECON-4360,Experimental Economics,"This course provides an introduction to experimental methods in economics. It teaches students how to test economic theories, as well as introducing them to the experimental methods that are used to investigate questions that may not be possible to study using existing data sets. Students are introduced to state-of-the-art research methodology in experimental economics. It also prepares students to design, implement and analyze their own economics experiments.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and Spring terms annually,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GAME ART,LEC,4,TF,2:00PM,3:50PM,Adrianna Sakamoto Oropello,West Hall 214,19,16,3,GSAS,2024-08-28,2024-12-20,FALL 2024,68044,1040,01,GSAS-1040,Introduction To Game Art,"This course combines an introduction to traditional visual arts and digital media and serves as a foundation for work in game design and interactive art. Using studio projects that incorporate physical media, digital imaging and computer code, students develop their formal vocabulary, observational skills, and their understanding of issues in visual and interactive arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+HISTORY AND CULTURE OF GAMES,LEC,4,TF,2:00PM,3:50PM,Yiyuan Zeng,Lally Hall 02,19,22,-3,GSAS,2024-08-28,2024-12-20,FALL 2024,68102,1600,01,GSAS-1600,History And Culture Of Games,"This course surveys 5000 years of game history, from ancient Sumer/Sumerian to the latest next-generation consoles and MMOGs. In parallel with this historical tour, several major theories will be examined about the nature of play and the nature of games. Along the way, it will also look at how games and play influence the cultures they are found in, and how culture in turn influences how people structure their leisure time will also be considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+HISTORY AND CULTURE OF GAMES,LEC,4,TF,8:00AM,9:50AM,Nicholas J. Mizer,Ricketts Building 208,19,19,0,GSAS,2024-08-28,2024-12-20,FALL 2024,69520,1600,02,GSAS-1600,History And Culture Of Games,"This course surveys 5000 years of game history, from ancient Sumer/Sumerian to the latest next-generation consoles and MMOGs. In parallel with this historical tour, several major theories will be examined about the nature of play and the nature of games. Along the way, it will also look at how games and play influence the cultures they are found in, and how culture in turn influences how people structure their leisure time will also be considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+"LIGHTING, RENDERING, CINEMA",LEC,4,TF,12:00PM,1:50PM,Adrianna Sakamoto Oropello,Russell Sage Laboratory 2411,19,7,12,GSAS,2024-08-28,2024-12-20,FALL 2024,69519,4200,01,GSAS-4200,"LIGHTING, RENDERING, Cinema","A course exploring methods for 3D computer lighting, rendering, and camera authoring. We will discuss strong foundational theory from film in regards to lighting and cinematography. The course will focus on producing high fidelity rendered images and video for animation, games, and digital art.",,When Offered: Upon availability of instructor,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Kathleen A. Galloway,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,69347,6980,01,GSAS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Eric Louis Ameres,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,68893,6980,02,GSAS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Benjamin Chia-Ming Chang,TBA,5,0,5,GSAS,2024-08-28,2024-12-20,FALL 2024,68592,6980,03,GSAS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
@@ -1394,149 +1431,150 @@ MASTER'S PROJECT,LEC,1-9,,,,Robert F. Nideffer,TBA,5,1,4,GSAS,2024-08-28,2024-12
 MASTER'S PROJECT,LEC,1-9,,,,Ralph G Noble,TBA,5,0,5,GSAS,2024-08-28,2024-12-20,FALL 2024,68597,6980,10,GSAS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Kathleen Ruiz,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,68599,6980,12,GSAS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 MASTER'S PROJECT,LEC,1-9,,,,Silvia Ruzanka,TBA,5,2,3,GSAS,2024-08-28,2024-12-20,FALL 2024,68600,6980,13,GSAS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO GAME DESIGN,LEC,4,MR,8:00AM,9:50AM,Richard Henry Swope,Russell Sage Laboratory 2510,19,7,12,GSAS,2024-08-28,2024-12-20,FALL 2024,68028,2510,01,GSAS-2510,Intro To Game Design,"This course introduces students to foundational game mechanics, rule clarity, aesthetic design, and player interaction. Students build a shared vocabulary, analyze games, and create their own analog games. Various design perspectives and some psychological/behavioral theory will be incorporated into the class. Through the projects, students will participate in design thinking, organizational methodologies, teamwork, iterative design, and playtesting (including heuristic testing).",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO GAME DESIGN,LEC,4,MR,10:00AM,11:50AM,Richard Henry Swope,Russell Sage Laboratory 2510,19,19,0,GSAS,2024-08-28,2024-12-20,FALL 2024,68037,2510,02,GSAS-2510,Intro To Game Design,"This course introduces students to foundational game mechanics, rule clarity, aesthetic design, and player interaction. Students build a shared vocabulary, analyze games, and create their own analog games. Various design perspectives and some psychological/behavioral theory will be incorporated into the class. Through the projects, students will participate in design thinking, organizational methodologies, teamwork, iterative design, and playtesting (including heuristic testing).",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO GAME DESIGN,LEC,4,TF,10:00AM,11:50AM,Yiyuan Zeng,Russell Sage Laboratory 2510,19,19,0,GSAS,2024-08-28,2024-12-20,FALL 2024,68131,2510,03,GSAS-2510,Intro To Game Design,"This course introduces students to foundational game mechanics, rule clarity, aesthetic design, and player interaction. Students build a shared vocabulary, analyze games, and create their own analog games. Various design perspectives and some psychological/behavioral theory will be incorporated into the class. Through the projects, students will participate in design thinking, organizational methodologies, teamwork, iterative design, and playtesting (including heuristic testing).",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-INTERMEDIATE GAME PROGRAMMING,LEC,4,MR,2:00PM,4:00PM,Eric Louis Ameres,Russell Sage Laboratory 2510,19,12,7,GSAS,2024-08-28,2024-12-20,FALL 2024,69244,4961,01,GSAS-4961,Intermediate Game Programming,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME DESIGN,LEC,4,MR,8:00AM,9:50AM,Richard Henry Swope,Russell Sage Laboratory 2510,19,8,11,GSAS,2024-08-28,2024-12-20,FALL 2024,68028,2510,01,GSAS-2510,Intro To Game Design,"This course introduces students to foundational game mechanics, rule clarity, aesthetic design, and player interaction. Students build a shared vocabulary, analyze games, and create their own analog games. Various design perspectives and some psychological/behavioral theory will be incorporated into the class. Through the projects, students will participate in design thinking, organizational methodologies, teamwork, iterative design, and playtesting (including heuristic testing).",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME DESIGN,LEC,4,MR,10:00AM,11:50AM,Richard Henry Swope,Russell Sage Laboratory 2510,19,20,-1,GSAS,2024-08-28,2024-12-20,FALL 2024,68037,2510,02,GSAS-2510,Intro To Game Design,"This course introduces students to foundational game mechanics, rule clarity, aesthetic design, and player interaction. Students build a shared vocabulary, analyze games, and create their own analog games. Various design perspectives and some psychological/behavioral theory will be incorporated into the class. Through the projects, students will participate in design thinking, organizational methodologies, teamwork, iterative design, and playtesting (including heuristic testing).",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME DESIGN,LEC,4,TF,10:00AM,11:50AM,Yiyuan Zeng,Russell Sage Laboratory 2510,19,20,-1,GSAS,2024-08-28,2024-12-20,FALL 2024,68131,2510,03,GSAS-2510,Intro To Game Design,"This course introduces students to foundational game mechanics, rule clarity, aesthetic design, and player interaction. Students build a shared vocabulary, analyze games, and create their own analog games. Various design perspectives and some psychological/behavioral theory will be incorporated into the class. Through the projects, students will participate in design thinking, organizational methodologies, teamwork, iterative design, and playtesting (including heuristic testing).",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+INTERMEDIATE GAME PROGRAMMING,LEC,4,MR,2:00PM,3:50PM,Eric Louis Ameres,Russell Sage Laboratory 2510,19,12,7,GSAS,2024-08-28,2024-12-20,FALL 2024,69244,4961,01,GSAS-4961,Intermediate Game Programming,,,,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Silvia Ruzanka,TBA,5,2,3,GSAS,2024-08-28,2024-12-20,FALL 2024,69003,9990,01,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Robert F. Nideffer,TBA,5,4,1,GSAS,2024-08-28,2024-12-20,FALL 2024,69004,9990,02,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-DISSERTATION,LEC,1-15,,,,Benjamin Chia-Ming Chang,TBA,5,0,5,GSAS,2024-08-28,2024-12-20,FALL 2024,69027,9990,03,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Benjamin Chia-Ming Chang,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,69027,9990,03,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Robert Kyle Hamilton,TBA,5,0,5,GSAS,2024-08-28,2024-12-20,FALL 2024,69028,9990,04,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,James Wilson Malazita,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,69029,9990,05,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Kathleen Ruiz,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,69031,9990,07,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Mei Si,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,69033,9990,09,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Maurice W Suckling,TBA,5,2,3,GSAS,2024-08-28,2024-12-20,FALL 2024,69034,9990,10,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
 DISSERTATION,LEC,1-15,,,,Kathleen A. Galloway,TBA,5,1,4,GSAS,2024-08-28,2024-12-20,FALL 2024,69348,9990,11,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO GAME STORYTELLING,LEC,4,TF,10:00AM,11:50AM,Nicholas J. Mizer,Russell Sage Laboratory 3205,19,20,-1,GSAS,2024-08-28,2024-12-20,FALL 2024,68030,2520,01,GSAS-2520,Intro To Game Storytelling,"This course is designed to provide an overview of the art of effective story development. Students will come away with a heightened awareness of the structures and principles that master storytellers apply to their craft in games and other popular media. It is intended for all GSAS majors and other interested students, as well as the prerequisite for the GSAS concentration in Writing.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-WRITING FOR GAMES I,LEC,4,MR,12:00PM,1:50PM,Maurice W Suckling,Russell Sage Laboratory 4203,19,12,7,GSAS,2024-08-28,2024-12-20,FALL 2024,69529,4240,01,GSAS-4240,Writing For Games I,"This is the second course in the central track of the Writing concentration for GSAS students. In this project-intensive course, students will learn and practice basic, in-the-trenches writing and narrative development for games, including story outlines, cutscenes, scripted dialogue, systemic dialogue, and mission writing and design, across multiple game types and narrative genres.","Prerequisites: GSAS 2520 or WRIT 2330, or permission of instructor.",When Offered: Spring term annually.,"['GSAS 2520', 'WRIT 2330']","['GSAS 2520', 'WRIT 2330']","Humanities, Arts, and Social Sciences"
+INTRO TO GAME STORYTELLING,LEC,4,TF,10:00AM,11:50AM,Nicholas J. Mizer,Russell Sage Laboratory 3205,19,19,0,GSAS,2024-08-28,2024-12-20,FALL 2024,68030,2520,01,GSAS-2520,Intro To Game Storytelling,"This course is designed to provide an overview of the art of effective story development. Students will come away with a heightened awareness of the structures and principles that master storytellers apply to their craft in games and other popular media. It is intended for all GSAS majors and other interested students, as well as the prerequisite for the GSAS concentration in Writing.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+WRITING FOR GAMES I,LEC,4,MR,12:00PM,1:50PM,Maurice W Suckling,Russell Sage Laboratory 4203,19,11,8,GSAS,2024-08-28,2024-12-20,FALL 2024,69529,4240,01,GSAS-4240,Writing For Games I,"This is the second course in the central track of the Writing concentration for GSAS students. In this project-intensive course, students will learn and practice basic, in-the-trenches writing and narrative development for games, including story outlines, cutscenes, scripted dialogue, systemic dialogue, and mission writing and design, across multiple game types and narrative genres.","Prerequisites: GSAS 2520 or WRIT 2330, or permission of instructor.",When Offered: Spring term annually.,"['GSAS 2520', 'WRIT 2330']","['GSAS 2520', 'WRIT 2330']","Humanities, Arts, and Social Sciences"
 INTRO TO GAME PROGRAMMING,LEC,4,TF,8:00AM,9:50AM,Yiyuan Zeng,Low Center for Industrial Inn. 3116,19,20,-1,GSAS,2024-08-28,2024-12-20,FALL 2024,68296,2540,01,GSAS-2540,Intro To Game Programming,"This hands-on class introduces many fundamental concepts in game development. Students will learn to program multiple video games. Topics include render loops, rigid body dynamics, interfaces, event and messaging systems, and co-routines.",,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
-GSAS CAPSTONE,LEC,4,MR,10:00AM,11:50AM,Maurice W Suckling,Russell Sage Laboratory 4711,19,21,-2,GSAS,2024-08-28,2024-12-20,FALL 2024,68790,4990,01,GSAS-4990,Gsas Capstone,"Senior capstone project course for GSAS majors. Students work in teams to complete a self-directed project in games that is innovative, experimental, or artistically engaged. The course emphasizes the complete development cycle, through continual iteration and critique towards completion and public release. This course may be repeated up to twice for credit (for a max of 8 credits).",Prerequisites/Corequisites: GSAS 4510,When Offered: Fall and spring terms annually,['GSAS 4510'],['GSAS 4510'],"Humanities, Arts, and Social Sciences"
-GAME STDIES THEORY & PRAXIS,LEC,3,W,6:00PM,8:50PM,Robert F. Nideffer,Russell Sage Laboratory 2510,19,13,6,GSAS,2024-08-28,2024-12-20,FALL 2024,68837,6100,01,GSAS-6100,Game Stdies Theory & Praxis,"As foundational course in the practice of critical game design, this course introduces students to major theorists in the field of game studies and topics including theories of play, space, narratology, ludology, identity, representation, culture and society. Students make integrative connections between theory and practice with a semester-long iterative design project, including critical writing, paper prototyping and peer feedback. Students explore game studies concepts both in a traditional research paper format, and in design practice.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
-SEMINAR IN ECORESILIENCE,LEC,3,W,2:00PM,5:00PM,Kathleen Ruiz,Russell Sage Laboratory 2510,19,15,4,GSAS,2024-08-28,2024-12-20,FALL 2024,68749,6200,01,GSAS-6200,Seminar In Ecoresilience,"Topics in Games Research is a special topics course for the Critical Game Design MS and PhD program in which students are exposed to cutting-edge research being conducted by faculty, learn advanced scholarly research methods, and experience a research-infused pedagogy. The content of this course will shift each semester, reflecting the research focus of the faculty member who offers it. This course may also be used to develop new curriculum. May be taken multiple times for credit.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
-EXPERIMENTAL GAME DESIGN,LEC,4,W,2:00PM,5:50PM,Robert F. Nideffer,Russell Sage Laboratory 2411,19,19,0,GSAS,2024-08-28,2024-12-20,FALL 2024,68029,4510,01,GSAS-4510,Experimental Game Design,"Experimental Game Design is an upper level studio arts course focusing on the creation of innovative, workable game prototypes using a variety of interactive multimedia. Games are considered as a new genre and are analyzed as cultural artifacts. The aesthetics of game design including character development, level design, game play experience, and delivery systems are covered. Flow, game theory, and game play gestalt are considered. Alternate gaming paradigms and emerging forms are encouraged.",Prerequisites: GSAS 4540 or CSCI 4540,When Offered: Fall and spring terms annually.,['GSAS 4540'],['GSAS 4540'],"Humanities, Arts, and Social Sciences"
-RES MTHDS CRITICAL GAME DSGN,LEC,3,T,9:00AM,11:50AM,Kathleen A. Galloway,West Hall 112,19,8,11,GSAS,2024-08-28,2024-12-20,FALL 2024,69243,6300,01,GSAS-6300,Res Mthds Critical Game Dsgn,"This multidisciplinary course provides theoretical and methodological orientation to critical games research, and seeks to address both the broad and pragmatic implications of the question, ""What does it mean to conduct research via games?"" Through a hybrid lecture-workshop class format, students will engage with methodological research techniques in the various disciplines that game design draws upon-Visual Arts, Humanities and Media Studies, Social Science, and Computer Science-as well as experiment with independent research design and proposal writing.",,When Offered: spring term annually,[],[],"Humanities, Arts, and Social Sciences"
-GAME DEVELOPMENT I,LEC,4,W,1:00PM,4:50PM,Eric Louis Ameres/Richard Henry Swope,Pittsburgh Building 5216,45,49,-4,GSAS,2024-08-28,2024-12-20,FALL 2024,68038,4520,01,GSAS-4520,Game Development I,"This class is a practical primer for anyone interested in a career in the rapidly evolving industry of video gaming. It is an intense, team-based, project-based course in which students will closely follow the actual game development cycle, with each team producing a complete PC game.",Prerequisite: GSAS 2510 and GSAS 2540,When Offered: Fall term annually.,"['GSAS 2510', 'GSAS 2540']","['GSAS 2510', 'GSAS 2540']","Humanities, Arts, and Social Sciences"
-CRITICAL GAME DESIGN,LEC,3,T,4:00PM,6:50PM,Silvia Ruzanka,Russell Sage Laboratory 2510,19,8,11,GSAS,2024-08-28,2024-12-20,FALL 2024,68840,6400,01,GSAS-6400,Critical Game Design,"A seminar course that focuses on the history and theory of alternative and socially-engaged design for interactive media. Students will read and discuss design history, art history, conceptual artistic practice, and new and emerging theories about digital, critical, and speculative design and the digital humanities. The course is designed to advance students' understanding of bodies of academic literature and theory that explore the hybridization of hermeneutic analysis and design and making practice.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+GSAS CAPSTONE,LEC,4,MR,10:00AM,11:50AM,Maurice W Suckling,Russell Sage Laboratory 4711,19,24,-5,GSAS,2024-08-28,2024-12-20,FALL 2024,68790,4990,01,GSAS-4990,Gsas Capstone,"Senior capstone project course for GSAS majors. Students work in teams to complete a self-directed project in games that is innovative, experimental, or artistically engaged. The course emphasizes the complete development cycle, through continual iteration and critique towards completion and public release. This course may be repeated up to twice for credit (for a max of 8 credits).",Prerequisites/Corequisites: GSAS 4510,When Offered: Fall and spring terms annually,['GSAS 4510'],['GSAS 4510'],"Humanities, Arts, and Social Sciences"
+GAME STDIES THEORY & PRAXIS,LEC,3,W,6:00PM,8:50PM,Robert F. Nideffer,Russell Sage Laboratory 2510,19,14,5,GSAS,2024-08-28,2024-12-20,FALL 2024,68837,6100,01,GSAS-6100,Game Stdies Theory & Praxis,"As foundational course in the practice of critical game design, this course introduces students to major theorists in the field of game studies and topics including theories of play, space, narratology, ludology, identity, representation, culture and society. Students make integrative connections between theory and practice with a semester-long iterative design project, including critical writing, paper prototyping and peer feedback. Students explore game studies concepts both in a traditional research paper format, and in design practice.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+SEMINAR IN ECORESILIENCE,LEC,3,W,2:00PM,5:00PM,Kathleen Ruiz,Russell Sage Laboratory 2510,19,13,6,GSAS,2024-08-28,2024-12-20,FALL 2024,68749,6200,01,GSAS-6200,Seminar In Ecoresilience,"Topics in Games Research is a special topics course for the Critical Game Design MS and PhD program in which students are exposed to cutting-edge research being conducted by faculty, learn advanced scholarly research methods, and experience a research-infused pedagogy. The content of this course will shift each semester, reflecting the research focus of the faculty member who offers it. This course may also be used to develop new curriculum. May be taken multiple times for credit.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+EXPERIMENTAL GAME DESIGN,LEC,4,W,2:00PM,5:50PM,Robert F. Nideffer,Russell Sage Laboratory 2411,19,18,1,GSAS,2024-08-28,2024-12-20,FALL 2024,68029,4510,01,GSAS-4510,Experimental Game Design,"Experimental Game Design is an upper level studio arts course focusing on the creation of innovative, workable game prototypes using a variety of interactive multimedia. Games are considered as a new genre and are analyzed as cultural artifacts. The aesthetics of game design including character development, level design, game play experience, and delivery systems are covered. Flow, game theory, and game play gestalt are considered. Alternate gaming paradigms and emerging forms are encouraged.",Prerequisites: GSAS 4540 or CSCI 4540,When Offered: Fall and spring terms annually.,['GSAS 4540'],['GSAS 4540'],"Humanities, Arts, and Social Sciences"
+RES MTHDS CRITICAL GAME DSGN,LEC,3,T,9:00AM,11:50AM,Kathleen A. Galloway,West Hall 112,19,12,7,GSAS,2024-08-28,2024-12-20,FALL 2024,69243,6300,01,GSAS-6300,Res Mthds Critical Game Dsgn,"This multidisciplinary course provides theoretical and methodological orientation to critical games research, and seeks to address both the broad and pragmatic implications of the question, ""What does it mean to conduct research via games?"" Through a hybrid lecture-workshop class format, students will engage with methodological research techniques in the various disciplines that game design draws upon-Visual Arts, Humanities and Media Studies, Social Science, and Computer Science-as well as experiment with independent research design and proposal writing.",,When Offered: spring term annually,[],[],"Humanities, Arts, and Social Sciences"
+GAME DEVELOPMENT I,LEC,4,W,1:00PM,4:50PM,Eric Louis Ameres/Richard Henry Swope,Pittsburgh Building 5216,45,51,-6,GSAS,2024-08-28,2024-12-20,FALL 2024,68038,4520,01,GSAS-4520,Game Development I,"This class is a practical primer for anyone interested in a career in the rapidly evolving industry of video gaming. It is an intense, team-based, project-based course in which students will closely follow the actual game development cycle, with each team producing a complete PC game.",Prerequisite: GSAS 2510 and GSAS 2540,When Offered: Fall term annually.,"['GSAS 2510', 'GSAS 2540']","['GSAS 2510', 'GSAS 2540']","Humanities, Arts, and Social Sciences"
+CRITICAL GAME DESIGN,LEC,3,T,4:00PM,6:50PM,Silvia Ruzanka,Russell Sage Laboratory 2510,19,4,15,GSAS,2024-08-28,2024-12-20,FALL 2024,68840,6400,01,GSAS-6400,Critical Game Design,"A seminar course that focuses on the history and theory of alternative and socially-engaged design for interactive media. Students will read and discuss design history, art history, conceptual artistic practice, and new and emerging theories about digital, critical, and speculative design and the digital humanities. The course is designed to advance students' understanding of bodies of academic literature and theory that explore the hybridization of hermeneutic analysis and design and making practice.",,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
 RESEARCH METHODS AND STATISTICS II,LEC,4,MR,2:00PM,3:50PM,Brett R. Fajen,Russell Sage Laboratory 2704,30,18,12,PSYC,2024-08-28,2024-12-20,FALL 2024,68039,4310,01,PSYC-4310,Research Methods And Statistics Ii,"This course is the second in a two-semester sequence on research methods and statistics in the behavioral sciences. Students will learn how to analyze data using multiple regression, analysis of variance, factor analysis, principal component analysis, and multi-level linear modeling. Students will also gain proficiency with the R programming language and software environment for statistical computing. Each student will carry out a research project and prepare a formal report that comports with the guidelines from the American Psychological Association.","Prerequisites: PSYC 2310, ENGR 2600 or MGMT 2100.Attributes Data Intensive 2",When Offered: Fall term annually.,"['PSYC 2310', 'ENGR 2600', 'MGMT 2100']","['PSYC 2310', 'ENGR 2600', 'MGMT 2100']","Humanities, Arts, and Social Sciences"
 INTRODUCTION TO COGNITIVE NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3704,10,10,0,PSYC,2024-08-28,2024-12-20,FALL 2024,68669,4330,01,PSYC-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200, COGS 2120, or permission of instructor.",When Offered: Fall term annually,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-INTRODUCTION TO COGNITIVE NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3704,10,10,0,PSYC,2024-08-28,2024-12-20,FALL 2024,68670,4330,02,PSYC-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200, COGS 2120, or permission of instructor.",When Offered: Fall term annually,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-INTRODUCTION TO COGNITIVE NEUROSCIENCE,LEC,4,MR,2:00PM,3:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3713,40,12,28,PSYC,2024-08-28,2024-12-20,FALL 2024,69822,4330,03,PSYC-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200, COGS 2120, or permission of instructor.",When Offered: Fall term annually,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-POSITIVE PSYCHOLOGY,LEC,4,TF,2:00PM,3:50PM,Holly A Traver,Amos Eaton Hall 214,140,137,3,PSYC,2024-08-28,2024-12-20,FALL 2024,67811,4730,01,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
-POSITIVE PSYCHOLOGY,LEC,4,TF,2:00PM,3:50PM,Holly A Traver,Amos Eaton Hall 214,20,6,14,PSYC,2024-08-28,2024-12-20,FALL 2024,68041,4730,02,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO COGNITIVE NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3704,10,9,1,PSYC,2024-08-28,2024-12-20,FALL 2024,68670,4330,02,PSYC-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200, COGS 2120, or permission of instructor.",When Offered: Fall term annually,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+INTRODUCTION TO COGNITIVE NEUROSCIENCE,LEC,4,MR,2:00PM,3:50PM,Mahir Emrah Aktunc,Russell Sage Laboratory 3713,40,20,20,PSYC,2024-08-28,2024-12-20,FALL 2024,69822,4330,03,PSYC-4330,Introduction To Cognitive Neuroscience,"This survey course is intended as an introduction to Cognitive Neuroscience. The topics covered will focus on exploring the neural underpinnings for cognitive processes, such as sensation, language, attention, motor control, executive functions, social communication, emotions, consciousness, and learning/memory. Basic aspects of nervous system function and neuroanatomy, brain development/evolution, structural and functional imaging techniques, and other research methods used in Cognitive Neuroscience will be discussed.","Prerequisite: PSYC 1200, COGS 2120, or permission of instructor.",When Offered: Fall term annually,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+POSITIVE PSYCHOLOGY,LEC,4,TF,2:00PM,3:50PM,Holly A Traver,Darrin Communications Center 308,140,141,-1,PSYC,2024-08-28,2024-12-20,FALL 2024,67811,4730,01,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+POSITIVE PSYCHOLOGY,LEC,4,TF,2:00PM,3:50PM,Holly A Traver,Darrin Communications Center 308,20,8,12,PSYC,2024-08-28,2024-12-20,FALL 2024,68041,4730,02,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
 UNDERGRADUATE THESIS,LEC,1-6,,,,Ralph G Noble,TBA,0,0,0,PSYC,2024-08-28,2024-12-20,FALL 2024,66940,4990,01,PSYC-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
 UNDERGRADUATE THESIS,LEC,1-6,,,,Holly A Traver,TBA,0,0,0,PSYC,2024-08-28,2024-12-20,FALL 2024,65985,4990,21,PSYC-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
-RESEARCH METHODS AND STATISTICS I,LEC,4,MR,10:00AM,11:50AM,Lucy Cui,Russell Sage Laboratory 2112,7,7,0,PSYC,2024-08-28,2024-12-20,FALL 2024,68219,2310,01,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-RESEARCH METHODS AND STATISTICS I,LEC,4,MR,10:00AM,11:50AM,Lucy Cui,Russell Sage Laboratory 2112,12,11,1,PSYC,2024-08-28,2024-12-20,FALL 2024,68220,2310,02,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-SOCIAL PSYCHOLOGY,LEC,4,TF,12:00PM,1:50PM,Holly A Traver,Amos Eaton Hall 214,100,101,-1,PSYC,2024-08-28,2024-12-20,FALL 2024,65074,2730,01,PSYC-2730,Social Psychology,"This is a survey course covering theories, methods, and empirical research on personal and situational factors influencing social behavior. Topics covered include social perception, the construction of social reality, decision making, group influences on behavior, and attitudes.",Prerequisite: PSYC 1200.,When Offered: Fall term annually,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
-COGNITIVE PSYCHOLOGY,LEC,4,TF,12:00PM,1:50PM,Christopher Robert Sims,Academy Hall AUD,60,60,0,PSYC,2024-08-28,2024-12-20,FALL 2024,65840,4370,01,PSYC-4370,Cognitive Psychology,"The focus of this course is on the flow of information from sensory input to retrieval from long-term memory. Within this framework, topics such as mnemonics, pattern recognition, attention, computer simulation, reasoning, and the relationship between culture and thought are discussed.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Fall and spring terms annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-COGNITIVE PSYCHOLOGY,LEC,4,TF,12:00PM,1:50PM,Christopher Robert Sims,Academy Hall AUD,20,2,18,PSYC,2024-08-28,2024-12-20,FALL 2024,68971,4370,02,PSYC-4370,Cognitive Psychology,"The focus of this course is on the flow of information from sensory input to retrieval from long-term memory. Within this framework, topics such as mnemonics, pattern recognition, attention, computer simulation, reasoning, and the relationship between culture and thought are discussed.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Fall and spring terms annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
-PSYCHOLOGY OF MINDFULNESS,LEC,4,TF,8:00AM,9:50AM,Holly A Traver,Low Center for Industrial Inn. 4034,14,14,0,PSYC,2024-08-28,2024-12-20,FALL 2024,68566,4430,01,PSYC-4430,Psychology Of Mindfulness,"Mindfulness involves giving particular attention to our moment-to-moment experiences in a way that emphasizes observing, rather than judging or evaluating. There is empirical evidence of the many health benefits of mindfulness meditation, including the potential to produce fundamental changes in brain structure and epigenetic change. In this class, participants will discuss the historical and psychological foundations of mindfulness and empirical findings supporting its positive effects. Students will participate in structured exercises. This course is a very hands-on approach to mindfulness. Students will be required to practice mindfulness and meditation and develop their mindful skills.",,When Offered: Fall and summer terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+RESEARCH METHODS AND STATISTICS I,LEC,4,MR,10:00AM,11:50AM,Lucy Cui,Russell Sage Laboratory 2112,7,8,-1,PSYC,2024-08-28,2024-12-20,FALL 2024,68219,2310,01,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+RESEARCH METHODS AND STATISTICS I,LEC,4,MR,10:00AM,11:50AM,Lucy Cui,Russell Sage Laboratory 2112,12,12,0,PSYC,2024-08-28,2024-12-20,FALL 2024,68220,2310,02,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+SOCIAL PSYCHOLOGY,LEC,4,TF,12:00PM,1:50PM,Holly A Traver,Amos Eaton Hall 214,100,104,-4,PSYC,2024-08-28,2024-12-20,FALL 2024,65074,2730,01,PSYC-2730,Social Psychology,"This is a survey course covering theories, methods, and empirical research on personal and situational factors influencing social behavior. Topics covered include social perception, the construction of social reality, decision making, group influences on behavior, and attitudes.",Prerequisite: PSYC 1200.,When Offered: Fall term annually,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+COGNITIVE PSYCHOLOGY,LEC,4,TF,12:00PM,1:50PM,Christopher Robert Sims,Academy Hall AUD,60,58,2,PSYC,2024-08-28,2024-12-20,FALL 2024,65840,4370,01,PSYC-4370,Cognitive Psychology,"The focus of this course is on the flow of information from sensory input to retrieval from long-term memory. Within this framework, topics such as mnemonics, pattern recognition, attention, computer simulation, reasoning, and the relationship between culture and thought are discussed.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Fall and spring terms annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+COGNITIVE PSYCHOLOGY,LEC,4,TF,12:00PM,1:50PM,Christopher Robert Sims,Academy Hall AUD,20,3,17,PSYC,2024-08-28,2024-12-20,FALL 2024,68971,4370,02,PSYC-4370,Cognitive Psychology,"The focus of this course is on the flow of information from sensory input to retrieval from long-term memory. Within this framework, topics such as mnemonics, pattern recognition, attention, computer simulation, reasoning, and the relationship between culture and thought are discussed.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Fall and spring terms annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+PSYCHOLOGY OF MINDFULNESS,LEC,4,TF,8:00AM,9:50AM,Holly A Traver,Low Center for Industrial Inn. 4034,14,15,-1,PSYC,2024-08-28,2024-12-20,FALL 2024,68566,4430,01,PSYC-4430,Psychology Of Mindfulness,"Mindfulness involves giving particular attention to our moment-to-moment experiences in a way that emphasizes observing, rather than judging or evaluating. There is empirical evidence of the many health benefits of mindfulness meditation, including the potential to produce fundamental changes in brain structure and epigenetic change. In this class, participants will discuss the historical and psychological foundations of mindfulness and empirical findings supporting its positive effects. Students will participate in structured exercises. This course is a very hands-on approach to mindfulness. Students will be required to practice mindfulness and meditation and develop their mindful skills.",,When Offered: Fall and summer terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 PSYCHOLOGY OF MINDFULNESS,LEC,4,TF,8:00AM,9:50AM,Holly A Traver,Low Center for Industrial Inn. 4034,5,6,-1,PSYC,2024-08-28,2024-12-20,FALL 2024,68567,4430,02,PSYC-4430,Psychology Of Mindfulness,"Mindfulness involves giving particular attention to our moment-to-moment experiences in a way that emphasizes observing, rather than judging or evaluating. There is empirical evidence of the many health benefits of mindfulness meditation, including the potential to produce fundamental changes in brain structure and epigenetic change. In this class, participants will discuss the historical and psychological foundations of mindfulness and empirical findings supporting its positive effects. Students will participate in structured exercises. This course is a very hands-on approach to mindfulness. Students will be required to practice mindfulness and meditation and develop their mindful skills.",,When Offered: Fall and summer terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 BAYESIAN DATA ANALYSIS,LEC,4,MR,10:00AM,11:50AM,Stefan Tomov Radev,Jonsson-Rowland Science Center 2C25,19,4,15,PSYC,2024-08-28,2024-12-20,FALL 2024,69330,4960,01,PSYC-4960,Bayesian Data Analysis,An advanced course concerned with selected topics in psychology.,Prerequisite: PSYC 1200 or permission of instructor.,,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
-MODELS IN MENTAL PROCESSES,LEC,4,TF,2:00PM,3:50PM,Yingrui Yang,Russell Sage Laboratory 2112,19,0,19,PSYC,2024-08-28,2024-12-20,FALL 2024,69835,4961,01,PSYC-4961,Models In Mental Processes,,,,[],[],"Humanities, Arts, and Social Sciences"
-LEARNING,LEC,4,MR,10:00AM,11:50AM,Mahir Emrah Aktunc,TBA,20,7,13,PSYC,2024-08-28,2024-12-20,FALL 2024,69059,4450,01,PSYC-4450,Learning,"The first half of this course is devoted to presentation of traditional theories of learning. Classical and operant conditioning and single-subject methodology are studied in depth. During the second half of the course, students apply their knowledge of operant conditioning principles in the context of a group-based field study.",Prerequisite: PSYC 1200.,"When Offered: Fall term, odd-numbered years.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
-PHYSICS MEETS SOCIAL SCIENCES,LEC,4,TF,12:00PM,1:50PM,Yingrui Yang,Russell Sage Laboratory 2112,19,0,19,PSYC,2024-08-28,2024-12-20,FALL 2024,69836,4962,01,PSYC-4962,Physics Meets Social Sciences,,,,[],[],"Humanities, Arts, and Social Sciences"
-CANINE COGS&SCI-BASED TRAINING,LEC,4,MR,2:00PM,3:50PM,Marjorie McShane,Russell Sage Laboratory 4112,19,9,10,PSYC,2024-08-28,2024-12-20,FALL 2024,69533,4963,01,PSYC-4963,Canine COGS&SCI-BASED Training,,,,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO PSYCHOLOGICAL SCIENCE,LEC,4,MR,2:00PM,3:50PM,Lucy Cui,Russell Sage Laboratory 3303,240,177,63,PSYC,2024-08-28,2024-12-20,FALL 2024,65393,1200,01,PSYC-1200,Intro To Psychological Science,"This course embraces the science of psychology. The aim is for students to learn how using the scientific method provides important insights about mind, brain, and behavior. This course integrates research on neuroscience throughout all the standard topics in an introductory course in psychology. The course presents advances across all subfields of psychology. In addition to standard exams, there are online assignments for each chapter and online laboratory experiences.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
-INTRO TO PSYCHOLOGICAL SCIENCE,LEC,4,MR,4:00PM,5:50PM,Lucy Cui,Russell Sage Laboratory 3303,240,118,122,PSYC,2024-08-28,2024-12-20,FALL 2024,68958,1200,02,PSYC-1200,Intro To Psychological Science,"This course embraces the science of psychology. The aim is for students to learn how using the scientific method provides important insights about mind, brain, and behavior. This course integrates research on neuroscience throughout all the standard topics in an introductory course in psychology. The course presents advances across all subfields of psychology. In addition to standard exams, there are online assignments for each chapter and online laboratory experiences.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MODELS IN MENTAL PROCESSES,LEC,4,TF,4:00PM,5:50PM,Yingrui Yang,Carnegie Building 208,19,21,-2,PSYC,2024-08-28,2024-12-20,FALL 2024,69835,4961,01,PSYC-4961,Models In Mental Processes,,,,[],[],"Humanities, Arts, and Social Sciences"
+LEARNING,LEC,4,MR,10:00AM,11:50AM,Mahir Emrah Aktunc,Russell Sage Laboratory 4304,20,12,8,PSYC,2024-08-28,2024-12-20,FALL 2024,69059,4450,01,PSYC-4450,Learning,"The first half of this course is devoted to presentation of traditional theories of learning. Classical and operant conditioning and single-subject methodology are studied in depth. During the second half of the course, students apply their knowledge of operant conditioning principles in the context of a group-based field study.",Prerequisite: PSYC 1200.,"When Offered: Fall term, odd-numbered years.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+PHYSICS MEETS SOCIAL SCIENCES,LEC,4,TF,6:00PM,7:50PM,Yingrui Yang,Carnegie Building 208,19,19,0,PSYC,2024-08-28,2024-12-20,FALL 2024,69836,4962,01,PSYC-4962,Physics Meets Social Sciences,,,,[],[],"Humanities, Arts, and Social Sciences"
+CANINE COGS&SCI-BASED TRAINING,LEC,4,MR,2:00PM,3:50PM,Marjorie McShane,Russell Sage Laboratory 4112,19,4,15,PSYC,2024-08-28,2024-12-20,FALL 2024,69533,4963,01,PSYC-4963,Canine COGS&SCI-BASED Training,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO PSYCHOLOGICAL SCIENCE,LEC,4,MR,2:00PM,3:50PM,Lucy Cui,Russell Sage Laboratory 3303,240,190,50,PSYC,2024-08-28,2024-12-20,FALL 2024,65393,1200,01,PSYC-1200,Intro To Psychological Science,"This course embraces the science of psychology. The aim is for students to learn how using the scientific method provides important insights about mind, brain, and behavior. This course integrates research on neuroscience throughout all the standard topics in an introductory course in psychology. The course presents advances across all subfields of psychology. In addition to standard exams, there are online assignments for each chapter and online laboratory experiences.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO PSYCHOLOGICAL SCIENCE,LEC,4,MR,4:00PM,5:50PM,Lucy Cui,Russell Sage Laboratory 3303,240,125,115,PSYC,2024-08-28,2024-12-20,FALL 2024,68958,1200,02,PSYC-1200,Intro To Psychological Science,"This course embraces the science of psychology. The aim is for students to learn how using the scientific method provides important insights about mind, brain, and behavior. This course integrates research on neuroscience throughout all the standard topics in an introductory course in psychology. The course presents advances across all subfields of psychology. In addition to standard exams, there are online assignments for each chapter and online laboratory experiences.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
 MOTIVATION & PERFORMANCE,LEC,4,MR,10:00AM,11:50AM,Ralph G Noble,Russell Sage Laboratory 2715,25,25,0,PSYC,2024-08-28,2024-12-20,FALL 2024,65322,4110,01,PSYC-4110,Motivation & Performance,,Prerequisites/Corequisites: PSYC 1200,When Offered: Upon availability of instructor.,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
-MOTIVATION & PERFORMANCE,LEC,4,MR,10:00AM,11:50AM,Ralph G Noble,Russell Sage Laboratory 2715,5,4,1,PSYC,2024-08-28,2024-12-20,FALL 2024,68565,4110,02,PSYC-4110,Motivation & Performance,,Prerequisites/Corequisites: PSYC 1200,When Offered: Upon availability of instructor.,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
-INTRO TO IT & WEB SCIENCE,LEC,4,MR,12:00PM,1:50PM,Richard M. Plotka,Lally Hall 102,30,23,7,ITWS,2024-08-28,2024-12-20,FALL 2024,66342,1100,01,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-INTRO TO IT & WEB SCIENCE,LEC,4,M,6:00PM,7:50PM,TBA,Lally Hall 104,30,23,7,ITWS,2024-08-28,2024-12-20,FALL 2024,66342,1100,01,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-INTRO TO IT & WEB SCIENCE,LEC,4,M,12:00PM,1:50PM,Richard M. Plotka,Lally Hall 102,25,20,5,ITWS,2024-08-28,2024-12-20,FALL 2024,67881,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-INTRO TO IT & WEB SCIENCE,LEC,4,M,6:00PM,7:50PM,TBA,Lally Hall 104,25,20,5,ITWS,2024-08-28,2024-12-20,FALL 2024,67881,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-INTRO TO IT & WEB SCIENCE,LEC,4,R,2:00PM,3:50PM,Richard M. Plotka,Lally Hall 102,25,20,5,ITWS,2024-08-28,2024-12-20,FALL 2024,67881,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-IT & WEB SCIENCE CAPSTONE,LEC,4,MR,4:00PM,5:50PM,Kevin R. Stewart,Lally Hall 102,26,22,4,ITWS,2024-08-28,2024-12-20,FALL 2024,65331,4100,01,ITWS-4100,It & Web Science Capstone,"Students work on collaborative projects to design innovative ITWS solutions which address a specific problem or area of need in the student's field. Students work to identify a problem and research viable solutions. They go on to propose, design, and prototype their ITWS solution learning best practices for ITWS project management, communication, and user-center design. This course serves as the culminating experience for the undergraduate ITWS program. Restricted to ITWS majors. This is a communication-intensive course.",Prerequisites: ITWS 2210 and ITWS 4310.,When Offered: Fall and spring terms annually.,"['ITWS 2210', 'ITWS 4310']","['ITWS 2210', 'ITWS 4310']",Information Technology and Web Science
-DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,15,13,2,ITWS,2024-08-28,2024-12-20,FALL 2024,68036,6600,01,ITWS-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather then individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
-DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,15,4,11,ITWS,2024-08-28,2024-12-20,FALL 2024,68229,6600,02,ITWS-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather then individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
+MOTIVATION & PERFORMANCE,LEC,4,MR,10:00AM,11:50AM,Ralph G Noble,Russell Sage Laboratory 2715,5,5,0,PSYC,2024-08-28,2024-12-20,FALL 2024,68565,4110,02,PSYC-4110,Motivation & Performance,,Prerequisites/Corequisites: PSYC 1200,When Offered: Upon availability of instructor.,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+INTRO TO IT & WEB SCIENCE,LEC,4,MR,12:00PM,1:50PM,Richard M. Plotka,Lally Hall 102,30,30,0,ITWS,2024-08-28,2024-12-20,FALL 2024,66342,1100,01,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,M,6:00PM,7:50PM,TBA,Lally Hall 104,30,30,0,ITWS,2024-08-28,2024-12-20,FALL 2024,66342,1100,01,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,M,12:00PM,1:50PM,Richard M. Plotka,Lally Hall 102,30,29,1,ITWS,2024-08-28,2024-12-20,FALL 2024,67881,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,M,6:00PM,7:50PM,TBA,Lally Hall 104,30,29,1,ITWS,2024-08-28,2024-12-20,FALL 2024,67881,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,R,2:00PM,3:50PM,Richard M. Plotka,Lally Hall 102,30,29,1,ITWS,2024-08-28,2024-12-20,FALL 2024,67881,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+IT & WEB SCIENCE CAPSTONE,LEC,4,MR,4:00PM,5:50PM,Kevin R. Stewart,Lally Hall 102,26,23,3,ITWS,2024-08-28,2024-12-20,FALL 2024,65331,4100,01,ITWS-4100,It & Web Science Capstone,"Students work on collaborative projects to design innovative ITWS solutions which address a specific problem or area of need in the student's field. Students work to identify a problem and research viable solutions. They go on to propose, design, and prototype their ITWS solution learning best practices for ITWS project management, communication, and user-center design. This course serves as the culminating experience for the undergraduate ITWS program. Restricted to ITWS majors. This is a communication-intensive course.",Prerequisites: ITWS 2210 and ITWS 4310.,When Offered: Fall and spring terms annually.,"['ITWS 2210', 'ITWS 4310']","['ITWS 2210', 'ITWS 4310']",Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,15,12,3,ITWS,2024-08-28,2024-12-20,FALL 2024,68036,6600,01,ITWS-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather then individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,15,6,9,ITWS,2024-08-28,2024-12-20,FALL 2024,68229,6600,02,ITWS-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather then individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
 IT  MASTER'S CAPSTONE,LEC,3,MR,4:00PM,5:50PM,Kevin R. Stewart,Lally Hall 102,6,3,3,ITWS,2024-08-28,2024-12-20,FALL 2024,66808,6800,01,ITWS-6800,It MASTER'S Capstone,"Integration of the knowledge and professional practice of the Master's in IT core and concentration courses. Topics in database systems, networking, software design, human computer interaction, management of technology, and ethics are applied within a framework of global e-business strategy. The course utilizes a Team Project with a real organization to practice major IT concepts. Team members select, develop, and present a significant technology implementation project, incorporating strategy, systems development, and business planning.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-MANAGING IT RESOURCES,LEC,4,MR,8:00AM,9:50AM,Matthew John Grill,Lally Hall 102,30,35,-5,ITWS,2024-08-28,2024-12-20,FALL 2024,65296,4310,01,ITWS-4310,Managing It Resources,"This course provides an introduction to fundamental concepts of management and applies them to IT. It examines the use of IT in business processes and the management issues of integrating IT into organizational processes to gain competitive advantage. Topics include: management, organizations, and information systems; development life cycle; project management and systems engineering; process reengineering; and organizational learning. This course includes the planning, development, and implementation of an IT project for a real client.",Prerequisite: CSCI 1200. Prerequisite or Corequisite: ITWS 2110. Restricted to juniors or seniors.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'ITWS 2110']","['CSCI 1200', 'ITWS 2110']",Information Technology and Web Science
-MANAGING IT RESOURCES,LEC,4,MR,12:00PM,1:50PM,Kathleen Sturey Fontaine,Russell Sage Laboratory 3713,30,39,-9,ITWS,2024-08-28,2024-12-19,FALL 2024,69496,4310,02,ITWS-4310,Managing It Resources,"This course provides an introduction to fundamental concepts of management and applies them to IT. It examines the use of IT in business processes and the management issues of integrating IT into organizational processes to gain competitive advantage. Topics include: management, organizations, and information systems; development life cycle; project management and systems engineering; process reengineering; and organizational learning. This course includes the planning, development, and implementation of an IT project for a real client.",Prerequisite: CSCI 1200. Prerequisite or Corequisite: ITWS 2110. Restricted to juniors or seniors.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'ITWS 2110']","['CSCI 1200', 'ITWS 2110']",Information Technology and Web Science
-DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,5,5,0,ITWS,2024-08-28,2024-12-20,FALL 2024,67184,4350,01,ITWS-4350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Information Technology and Web Science
-PLATFORM BUS. FOR ENG. & SCI.,LEC,3,MR,6:00PM,7:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,10,6,4,ITWS,2024-08-28,2024-12-20,FALL 2024,69685,6960,01,ITWS-6960,Platform BUS. For ENG. & SCI.,,,,[],[],Information Technology and Web Science
-WEB SYSTEMS DEVELOPMENT,LEC,4,TF,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 102,55,39,16,ITWS,2024-08-28,2024-12-20,FALL 2024,66931,2110,01,ITWS-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisite: ITWS 1100. Corequisite: CSCI 1200.,When Offered: Fall term annually.,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Information Technology and Web Science
-WEB SYSTEMS DEVELOPMENT,LEC,4,TF,2:00PM,3:50PM,Brian Robert Callahan,Lally Hall 102,55,49,6,ITWS,2024-08-28,2024-12-20,FALL 2024,68034,2110,02,ITWS-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisite: ITWS 1100. Corequisite: CSCI 1200.,When Offered: Fall term annually.,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Information Technology and Web Science
-DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,4,1,ITWS,2024-08-28,2024-12-20,FALL 2024,68035,4600,01,ITWS-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
+MANAGING IT RESOURCES,LEC,4,MR,8:00AM,9:50AM,Matthew John Grill,Lally Hall 102,30,33,-3,ITWS,2024-08-28,2024-12-20,FALL 2024,65296,4310,01,ITWS-4310,Managing It Resources,"This course provides an introduction to fundamental concepts of management and applies them to IT. It examines the use of IT in business processes and the management issues of integrating IT into organizational processes to gain competitive advantage. Topics include: management, organizations, and information systems; development life cycle; project management and systems engineering; process reengineering; and organizational learning. This course includes the planning, development, and implementation of an IT project for a real client.",Prerequisite: CSCI 1200. Prerequisite or Corequisite: ITWS 2110. Restricted to juniors or seniors.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'ITWS 2110']","['CSCI 1200', 'ITWS 2110']",Information Technology and Web Science
+MANAGING IT RESOURCES,LEC,4,MR,12:00PM,1:50PM,Kathleen Sturey Fontaine,Russell Sage Laboratory 3713,30,37,-7,ITWS,2024-08-28,2024-12-19,FALL 2024,69496,4310,02,ITWS-4310,Managing It Resources,"This course provides an introduction to fundamental concepts of management and applies them to IT. It examines the use of IT in business processes and the management issues of integrating IT into organizational processes to gain competitive advantage. Topics include: management, organizations, and information systems; development life cycle; project management and systems engineering; process reengineering; and organizational learning. This course includes the planning, development, and implementation of an IT project for a real client.",Prerequisite: CSCI 1200. Prerequisite or Corequisite: ITWS 2110. Restricted to juniors or seniors.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'ITWS 2110']","['CSCI 1200', 'ITWS 2110']",Information Technology and Web Science
+DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,5,4,1,ITWS,2024-08-28,2024-12-20,FALL 2024,67184,4350,01,ITWS-4350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Information Technology and Web Science
+PLATFORM BUS. FOR ENG. & SCI.,LEC,3,MR,6:00PM,7:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,10,5,5,ITWS,2024-08-28,2024-12-20,FALL 2024,69685,6960,01,ITWS-6960,Platform BUS. For ENG. & SCI.,,,,[],[],Information Technology and Web Science
+WEB SYSTEMS DEVELOPMENT,LEC,4,TF,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 102,55,38,17,ITWS,2024-08-28,2024-12-20,FALL 2024,66931,2110,01,ITWS-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisite: ITWS 1100. Corequisite: CSCI 1200.,When Offered: Fall term annually.,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Information Technology and Web Science
+WEB SYSTEMS DEVELOPMENT,LEC,4,TF,2:00PM,3:50PM,Brian Robert Callahan,Lally Hall 102,55,53,2,ITWS,2024-08-28,2024-12-20,FALL 2024,68034,2110,02,ITWS-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisite: ITWS 1100. Corequisite: CSCI 1200.,When Offered: Fall term annually.,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,5,0,ITWS,2024-08-28,2024-12-20,FALL 2024,68035,4600,01,ITWS-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
 DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,3,2,ITWS,2024-08-28,2024-12-20,FALL 2024,68226,4600,02,ITWS-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Information Technology and Web Science
-BUSINESS ISSUES FOR ENGINEERS AND SCIENTISTS,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,15,15,0,ITWS,2024-08-28,2024-12-20,FALL 2024,65484,6300,01,ITWS-6300,Business Issues For Engineers And Scientists,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
-DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,34,25,9,ITWS,2024-08-28,2024-12-20,FALL 2024,67185,6350,01,ITWS-6350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Information Technology and Web Science
+BUSINESS ISSUES FOR ENGINEERS AND SCIENTISTS,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Low Center for Industrial Inn. 3039,15,16,-1,ITWS,2024-08-28,2024-12-20,FALL 2024,65484,6300,01,ITWS-6300,Business Issues For Engineers And Scientists,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,34,24,10,ITWS,2024-08-28,2024-12-20,FALL 2024,67185,6350,01,ITWS-6350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Information Technology and Web Science
 MODERN BINARY EXPLOITATION,LEC,4,MR,10:00AM,11:50AM,Brian Robert Callahan,West Hall AUD,100,22,78,ITWS,2024-08-28,2024-12-20,FALL 2024,69463,4850,01,ITWS-4850,Modern Binary Exploitation,"Modern Binary Exploitation will focus on teaching practical offensive security skills in binary exploitation and reverse engineering. Through a combination of interactive lectures and hands on labs, the course will offer students an opportunity to explore some of the most technically involved and fascinating subjects in the rapidly evolving field of security. It will cover protections found on modern systems and the techniques used to defeat them.",Prerequisite: CSCI 2500.,When Offered: Fall terms only.,['CSCI 2500'],['CSCI 2500'],Information Technology and Web Science
-ADV CORPORATE FINANCE,LEC,4,MR,12:00PM,1:50PM,Johan Maharjan,Carnegie Building 201,20,9,11,MGMT,2024-08-28,2024-12-20,FALL 2024,67060,4340,01,MGMT-4340,Adv Corporate Finance,"Advanced topics in financial theory and corporate policy as they are applied to the modern corporation. Emphasis in blending theory with application. Case studies are used to illustrate relevance of theoretical concepts. Topics include corporate financial decision making under uncertainty, financial forecasting, application of option pricing principles to capital budgeting decision making, mergers and acquisitions, leveraged buyouts and takeovers, leasing, financial engineering.",Prerequisites/Corequisites: MGMT 2320,When Offered: Fall term annually.,['MGMT 2320'],['MGMT 2320'],Management and Technology
+MASTERS THESIS,LEC,3-6,,,,Kevin R. Stewart,TBA,10,1,9,ITWS,2024-08-28,2024-12-20,FALL 2024,69946,6990,01,ITWS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+ADV CORPORATE FINANCE,LEC,4,MR,12:00PM,1:50PM,Johan Maharjan,Carnegie Building 201,20,10,10,MGMT,2024-08-28,2024-12-20,FALL 2024,67060,4340,01,MGMT-4340,Adv Corporate Finance,"Advanced topics in financial theory and corporate policy as they are applied to the modern corporation. Emphasis in blending theory with application. Case studies are used to illustrate relevance of theoretical concepts. Topics include corporate financial decision making under uncertainty, financial forecasting, application of option pricing principles to capital budgeting decision making, mergers and acquisitions, leveraged buyouts and takeovers, leasing, financial engineering.",Prerequisites/Corequisites: MGMT 2320,When Offered: Fall term annually.,['MGMT 2320'],['MGMT 2320'],Management and Technology
 DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,0,5,MGMT,2024-08-28,2024-12-20,FALL 2024,69130,4600,01,MGMT-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Management and Technology
-DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,2,3,MGMT,2024-08-28,2024-12-20,FALL 2024,69142,4600,02,MGMT-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Management and Technology
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,1,4,MGMT,2024-08-28,2024-12-20,FALL 2024,69142,4600,02,MGMT-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Management and Technology
 CONSUMER BEHAVIO/ PROD DESIGN,LEC,3,MR,10:00AM,11:50AM,Gaurav Jain,Low Center for Industrial Inn. 3045,40,7,33,MGMT,2024-08-28,2024-12-20,FALL 2024,67718,6800,01,MGMT-6800,Consumer BEHAVIO/ Prod Design,"This course introduces the motivations and related factors that shape consumers' purchasing decisions. Also considered is the consumer perceptual process and how it affects purchasing behavior and consumer reaction to product designs. The relationship between perception and product design is extended to topics such as design for understanding, universal product design, aesthetics, and industrial design.",,When Offered: Fall term annually.,[],[],Management and Technology
-MANAGEMENT PROFESSIONAL DEVELOPMENT I,LEC,2,T,2:00PM,3:50PM,Christine M Allard/Tracy N. Sullivan,Russell Sage Laboratory 4510,35,25,10,MGMT,2024-08-28,2024-12-20,FALL 2024,65298,1240,01,MGMT-1240,Management Professional Development I,"The course is the first in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: personal values and self-awareness, leadership and followership, ethics, basic oral presentation skills.",,When Offered: Fall term annually.,[],[],Management and Technology
-MANAGEMENT PROFESSIONAL DEVELOPMENT I,LEC,2,W,8:00AM,9:50AM,Christine M Allard/Tracy N. Sullivan,Pittsburgh Building 4114,35,25,10,MGMT,2024-08-28,2024-12-20,FALL 2024,65297,1240,02,MGMT-1240,Management Professional Development I,"The course is the first in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: personal values and self-awareness, leadership and followership, ethics, basic oral presentation skills.",,When Offered: Fall term annually.,[],[],Management and Technology
-MANAGEMENT PROFESSIONAL DEVELOPMENT I,LEC,2,W,12:00PM,1:50PM,Christine M Allard/Tracy N. Sullivan,Pittsburgh Building 5114,36,36,0,MGMT,2024-08-28,2024-12-20,FALL 2024,69197,1240,03,MGMT-1240,Management Professional Development I,"The course is the first in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: personal values and self-awareness, leadership and followership, ethics, basic oral presentation skills.",,When Offered: Fall term annually.,[],[],Management and Technology
+MANAGEMENT PROFESSIONAL DEVELOPMENT I,LEC,2,T,2:00PM,3:50PM,Christine M Allard/Tracy N. Sullivan,Russell Sage Laboratory 4510,35,26,9,MGMT,2024-08-28,2024-12-20,FALL 2024,65298,1240,01,MGMT-1240,Management Professional Development I,"The course is the first in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: personal values and self-awareness, leadership and followership, ethics, basic oral presentation skills.",,When Offered: Fall term annually.,[],[],Management and Technology
+MANAGEMENT PROFESSIONAL DEVELOPMENT I,LEC,2,W,8:00AM,9:50AM,Christine M Allard/Tracy N. Sullivan,Pittsburgh Building 4114,35,28,7,MGMT,2024-08-28,2024-12-20,FALL 2024,65297,1240,02,MGMT-1240,Management Professional Development I,"The course is the first in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: personal values and self-awareness, leadership and followership, ethics, basic oral presentation skills.",,When Offered: Fall term annually.,[],[],Management and Technology
+MANAGEMENT PROFESSIONAL DEVELOPMENT I,LEC,2,W,12:00PM,1:50PM,Christine M Allard/Tracy N. Sullivan,Pittsburgh Building 5114,36,37,-1,MGMT,2024-08-28,2024-12-20,FALL 2024,69197,1240,03,MGMT-1240,Management Professional Development I,"The course is the first in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: personal values and self-awareness, leadership and followership, ethics, basic oral presentation skills.",,When Offered: Fall term annually.,[],[],Management and Technology
 INTRO TO MACHINE LEARNING APPS,LEC,4,MR,8:00AM,9:50AM,Lydia Manikonda,Troy Building 2018,50,12,38,MGMT,2024-08-28,2024-12-20,FALL 2024,68659,4190,01,MGMT-4190,Intro To Machine Learning Apps,"The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context. Students will learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-INTRO TO MACHINE LEARNING APPS,LEC,4,MR,4:00PM,5:50PM,Lydia Manikonda,Troy Building 2012,50,17,33,MGMT,2024-08-28,2024-12-20,FALL 2024,68644,4190,02,MGMT-4190,Intro To Machine Learning Apps,"The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context. Students will learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-FINANCIAL MANAGEMENT I,LEC,3,MR,8:00AM,9:20AM,Johan Maharjan,Pittsburgh Building 5216,40,30,10,MGMT,2024-08-28,2024-12-20,FALL 2024,66471,6020,01,MGMT-6020,Financial Management I,"The purpose of this course is to develop a working understanding of the major investment and financial decisions of the firm. Emphasis will be placed upon identifying and solving the problems commonly faced by financial managers. The course presents the needed theory and develops financial problem solving skills through individualized problem solving, structured case analysis, and industry and company analysis using Internet sources.",NoneWaiver: This course can be waived and replaced with an upper level Finance course by approval.,When Offered: Spring term annually.,[],[],Management and Technology
+INTRO TO MACHINE LEARNING APPS,LEC,4,MR,4:00PM,5:50PM,Lydia Manikonda,Troy Building 2012,50,13,37,MGMT,2024-08-28,2024-12-20,FALL 2024,68644,4190,02,MGMT-4190,Intro To Machine Learning Apps,"The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context. Students will learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+FINANCIAL MANAGEMENT I,LEC,3,MR,8:00AM,9:20AM,Johan Maharjan,Pittsburgh Building 5216,40,25,15,MGMT,2024-08-28,2024-12-20,FALL 2024,66471,6020,01,MGMT-6020,Financial Management I,"The purpose of this course is to develop a working understanding of the major investment and financial decisions of the firm. Emphasis will be placed upon identifying and solving the problems commonly faced by financial managers. The course presents the needed theory and develops financial problem solving skills through individualized problem solving, structured case analysis, and industry and company analysis using Internet sources.",NoneWaiver: This course can be waived and replaced with an upper level Finance course by approval.,When Offered: Spring term annually.,[],[],Management and Technology
 SUPPLY CHAIN ANALYTICS,LEC,3,,,,David Joseph Stec,Online ,25,8,17,MGMT,2024-08-28,2024-12-20,FALL 2024,68612,6350,H01,MGMT-6350,Supply Chain Analytics,"This is a hands on course where students learn a mix of theoretical and practical tools and use them to solve a variety of supply chain problems, both analytically and numerically. Time series, Markov chain, optimal control, linear programming, statistical analysis, and other mathematical tools are used to examine data to understand supply, demand, and inventory levels and develop insights for managerial recommendations.",Prerequisites/Corequisites: MGMT 6100 and either MGMT 6460,When Offered: Spring term annually.,"['MGMT 6100', 'MGMT 6460']","['MGMT 6100', 'MGMT 6460']",Management and Technology
-ECONOMICS AND INSTITUTIONS,LEC,3,R,6:00PM,8:50PM,Raffi Enmanuel Garcia,Amos Eaton Hall 215,45,29,16,MGMT,2024-08-28,2024-12-20,FALL 2024,65861,7730,01,MGMT-7730,Economics And Institutions,"Main course objective is to introduce students to basic economics principles and establish economics as a managerial decision-making framework. The course will draw on economic analysis of such concepts as cost, demand, profit, competition, pricing strategy, and market protection and tie them to operational business decisions.",,When Offered: Fall term annually.,[],[],Management and Technology
-STATISTICAL METHODS,LEC,4,MR,12:00PM,1:50PM,Kedong Chen,Pittsburgh Building 4114,55,54,1,MGMT,2024-08-28,2024-12-20,FALL 2024,65253,2100,01,MGMT-2100,Statistical Methods,"This course develops an understanding of concepts in business statistics and focuses on application of concepts in problem-solving situations. In particular, students learn to present and describe data, analyze probability distributions, make statistical inferences based on data samples, and develop models for prediction and forecasting.",Prerequisites: MATH 1500 and MATH 1520 or permission of instructor.Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 1500', 'MATH 1520']","['MATH 1500', 'MATH 1520']",Management and Technology
-STATISTICAL METHODS,LEC,4,TF,2:00PM,3:50PM,Raffi Enmanuel Garcia,Amos Eaton Hall 215,50,40,10,MGMT,2024-08-28,2024-12-20,FALL 2024,67673,2100,02,MGMT-2100,Statistical Methods,"This course develops an understanding of concepts in business statistics and focuses on application of concepts in problem-solving situations. In particular, students learn to present and describe data, analyze probability distributions, make statistical inferences based on data samples, and develop models for prediction and forecasting.",Prerequisites: MATH 1500 and MATH 1520 or permission of instructor.Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 1500', 'MATH 1520']","['MATH 1500', 'MATH 1520']",Management and Technology
-BUSINESS UG INTERNSHIP,LEC,0,,,,Kevin Albro Fletcher,TBA,60,43,17,MGMT,2024-08-28,2024-12-20,FALL 2024,69402,4800,01,MGMT-4800,Business Ug Internship,"This is a required course for management majors. It is designed to introduce students to the key operational characteristics of a real company. Students are expected to secure an internship and successfully complete it before registering for this class. Students will submit a written report documenting what they did, what they learned, etc.  It is a 0-credit hour class used to document the fact that Lally students have completed an internship.  This is a requirement for graduation for all Lally students.",None.,When Offered: Upon availability of instructor.,[],[],Management and Technology
-INTRODUCTION TO ACCOUNTING AND FINANCIAL MANAGEMENT,LEC,3,T,6:00PM,8:50PM,Johan Maharjan,Pittsburgh Building 4206,40,36,4,MGMT,2024-08-28,2024-12-20,FALL 2024,67072,6190,01,MGMT-6190,Introduction To Accounting And Financial Management,"This course introduces accounting and financial management to first-semester M.S. students. The interpretation and preparation of basic financial statements such as the balance sheet and income statement are introduced along with relevant regulation and practice. In addition, the course introduces the student to basic financial concepts and techniques such as time value, risk, equilibrium asset pricing models, capital budgeting, cost of capital, and capital structure and discusses their applications in practice.",NoneWaiver: This course can be waived and replaced with an upper level Finance course by approval.,When Offered: Fall term annually.,[],[],Management and Technology
-"INVENTION, INNOV & ENTREPREN",LEC,3,MR,2:00PM,3:50PM,Jonathan Daniel Ashdown,Carnegie Building 102,20,7,13,MGMT,2024-08-28,2024-12-20,FALL 2024,65856,6640,01,MGMT-6640,"INVENTION, Innov & Entrepren","Creativity is the starting point for technological entrepreneurship. Through interaction with faculty and guest speakers, students increase their understanding of the creative process and some of the tools that can be implemented to stimulate and/or manage individual and collective creativity. In addition, through application of these techniques in course activities, students explore and attempt to enhance their own creativity.",None,When Offered: Fall term annually.,[],[],Management and Technology
+ECONOMICS AND INSTITUTIONS,LEC,3,R,6:00PM,8:50PM,Raffi Enmanuel Garcia,Pittsburgh Building 4114,45,28,17,MGMT,2024-08-28,2024-12-20,FALL 2024,65861,7730,01,MGMT-7730,Economics And Institutions,"Main course objective is to introduce students to basic economics principles and establish economics as a managerial decision-making framework. The course will draw on economic analysis of such concepts as cost, demand, profit, competition, pricing strategy, and market protection and tie them to operational business decisions.",,When Offered: Fall term annually.,[],[],Management and Technology
+STATISTICAL METHODS,LEC,4,MR,12:00PM,1:50PM,Kedong Chen,Pittsburgh Building 4114,55,55,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65253,2100,01,MGMT-2100,Statistical Methods,"This course develops an understanding of concepts in business statistics and focuses on application of concepts in problem-solving situations. In particular, students learn to present and describe data, analyze probability distributions, make statistical inferences based on data samples, and develop models for prediction and forecasting.",Prerequisites: MATH 1500 and MATH 1520 or permission of instructor.Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 1500', 'MATH 1520']","['MATH 1500', 'MATH 1520']",Management and Technology
+STATISTICAL METHODS,LEC,4,TF,2:00PM,3:50PM,Raffi Enmanuel Garcia,Greene Building 120,45,38,7,MGMT,2024-08-28,2024-12-20,FALL 2024,67673,2100,02,MGMT-2100,Statistical Methods,"This course develops an understanding of concepts in business statistics and focuses on application of concepts in problem-solving situations. In particular, students learn to present and describe data, analyze probability distributions, make statistical inferences based on data samples, and develop models for prediction and forecasting.",Prerequisites: MATH 1500 and MATH 1520 or permission of instructor.Attributes Data Intensive 2,When Offered: Fall and spring terms annually.,"['MATH 1500', 'MATH 1520']","['MATH 1500', 'MATH 1520']",Management and Technology
+BUSINESS UG INTERNSHIP,LEC,0,,,,Kevin Albro Fletcher,TBA,60,55,5,MGMT,2024-08-28,2024-12-20,FALL 2024,69402,4800,01,MGMT-4800,Business Ug Internship,"This is a required course for management majors. It is designed to introduce students to the key operational characteristics of a real company. Students are expected to secure an internship and successfully complete it before registering for this class. Students will submit a written report documenting what they did, what they learned, etc.  It is a 0-credit hour class used to document the fact that Lally students have completed an internship.  This is a requirement for graduation for all Lally students.",None.,When Offered: Upon availability of instructor.,[],[],Management and Technology
+INTRODUCTION TO ACCOUNTING AND FINANCIAL MANAGEMENT,LEC,3,T,6:00PM,8:50PM,Johan Maharjan,Pittsburgh Building 4206,40,37,3,MGMT,2024-08-28,2024-12-20,FALL 2024,67072,6190,01,MGMT-6190,Introduction To Accounting And Financial Management,"This course introduces accounting and financial management to first-semester M.S. students. The interpretation and preparation of basic financial statements such as the balance sheet and income statement are introduced along with relevant regulation and practice. In addition, the course introduces the student to basic financial concepts and techniques such as time value, risk, equilibrium asset pricing models, capital budgeting, cost of capital, and capital structure and discusses their applications in practice.",NoneWaiver: This course can be waived and replaced with an upper level Finance course by approval.,When Offered: Fall term annually.,[],[],Management and Technology
+"INVENTION, INNOV & ENTREPREN",LEC,3,MR,2:00PM,3:50PM,Jonathan Daniel Ashdown,Carnegie Building 102,20,10,10,MGMT,2024-08-28,2024-12-20,FALL 2024,65856,6640,01,MGMT-6640,"INVENTION, Innov & Entrepren","Creativity is the starting point for technological entrepreneurship. Through interaction with faculty and guest speakers, students increase their understanding of the creative process and some of the tools that can be implemented to stimulate and/or manage individual and collective creativity. In addition, through application of these techniques in course activities, students explore and attempt to enhance their own creativity.",None,When Offered: Fall term annually.,[],[],Management and Technology
 GAME THEORY APP: SUPPLY CHAIN,LEC,3,TF,8:00AM,9:50AM,Bahar Cavdar,Pittsburgh Building 4114,10,3,7,MGMT,2024-08-28,2024-12-20,FALL 2024,69181,6960,01,MGMT-6960,Game Theory APP: Supply Chain,,,,[],[],Management and Technology
-ACCOUNTING FOR REPORTING AND CONTROL,LEC,3,TF,8:00AM,9:20AM,Tahseen Hasan,Pittsburgh Building 5216,45,41,4,MGMT,2024-08-28,2024-12-20,FALL 2024,65862,7740,01,MGMT-7740,Accounting For Reporting And Control,"This course introduces theories and practices of financial as well as managerial accounting. The financial accounting sessions provide an overview of external financial statements. The managerial accounting sessions focus on how accounting information is used in the internal managerial decision making process within a firm as well as cover cost accounting, budgeting, and performance evaluation tools.",,When Offered: Fall term annually.,[],[],Management and Technology
-BUSINESS ETHICS & LAW,LEC,4,TF,10:00AM,11:50AM,Tanya Singh,Folsom Library 107,45,45,0,MGMT,2024-08-28,2024-12-20,FALL 2024,67634,1260,01,MGMT-1260,Business Ethics & Law,"This undergraduate course is an introduction to ethical and legal frameworks currently being applied in the business environment in the United States. The course looks to engage with moral and legal challenges that businesses currently face and may face in the future, such as threats to data privacy and security, issues pertaining to climate justice and environmental sustainability, employee surveillance mediated through digitization, among others.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
-ORG BEHAVIOR IN HIGH PERF ORG,LEC,4,TF,12:00PM,1:50PM,Kevin Albro Fletcher,Amos Eaton Hall 215,50,44,6,MGMT,2024-08-28,2024-12-20,FALL 2024,65054,4850,01,MGMT-4850,Org Behavior In High Perf Org,"This course provides an overview of basic processes in human behavior that influence the effectiveness of individuals, groups and organizations. Its focus is on understanding what happens during interpersonal interactions in work situations, and what can be done to make employees more effective. Topics covered include organizational socialization, motivation, decision-making, team dynamics, virtual teams, influence, and conflict management. Numerous exercises and case analyses are used in class to help provide students with insights into these processes.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,"When Offered: Fall, spring, and summer terms annually.",['MGMT 1100'],['MGMT 1100'],Management and Technology
+ACCOUNTING FOR REPORTING AND CONTROL,LEC,3,TF,8:00AM,9:20AM,Tahseen Hasan,Pittsburgh Building 5216,45,42,3,MGMT,2024-08-28,2024-12-20,FALL 2024,65862,7740,01,MGMT-7740,Accounting For Reporting And Control,"This course introduces theories and practices of financial as well as managerial accounting. The financial accounting sessions provide an overview of external financial statements. The managerial accounting sessions focus on how accounting information is used in the internal managerial decision making process within a firm as well as cover cost accounting, budgeting, and performance evaluation tools.",,When Offered: Fall term annually.,[],[],Management and Technology
+BUSINESS ETHICS & LAW,LEC,4,TF,10:00AM,11:50AM,Tanya Singh,Folsom Library 107,45,44,1,MGMT,2024-08-28,2024-12-20,FALL 2024,67634,1260,01,MGMT-1260,Business Ethics & Law,"This undergraduate course is an introduction to ethical and legal frameworks currently being applied in the business environment in the United States. The course looks to engage with moral and legal challenges that businesses currently face and may face in the future, such as threats to data privacy and security, issues pertaining to climate justice and environmental sustainability, employee surveillance mediated through digitization, among others.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+ORG BEHAVIOR IN HIGH PERF ORG,LEC,4,TF,12:00PM,1:50PM,Kevin Albro Fletcher,Amos Eaton Hall 215,50,48,2,MGMT,2024-08-28,2024-12-20,FALL 2024,65054,4850,01,MGMT-4850,Org Behavior In High Perf Org,"This course provides an overview of basic processes in human behavior that influence the effectiveness of individuals, groups and organizations. Its focus is on understanding what happens during interpersonal interactions in work situations, and what can be done to make employees more effective. Topics covered include organizational socialization, motivation, decision-making, team dynamics, virtual teams, influence, and conflict management. Numerous exercises and case analyses are used in class to help provide students with insights into these processes.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,"When Offered: Fall, spring, and summer terms annually.",['MGMT 1100'],['MGMT 1100'],Management and Technology
 TALENT MANAGEMENT,LEC,3,TF,2:00PM,3:20PM,Tanya Singh,Pittsburgh Building 5216,50,34,16,MGMT,2024-08-28,2024-12-20,FALL 2024,65855,6040,01,MGMT-6040,Talent Management,"This course is designed to develop skills in understanding human behavior in organizations and how to effectively manage the talent that resides within employees. Students will learn about essential aspects of managing and developing talent, including individual differences, employee hiring, motivation, team dynamics, leadership, and influencing others. Through a discussion of concepts in human behavior students will learn useful analytical frameworks for understanding the complexities of managing talent in order to best achieve organizational success.",,When Offered: Fall term annually.,[],[],Management and Technology
-"ADVANCED OPTIONS, FUTURES AND DERIVATIVES MARKETS",LEC,3,T,6:00PM,8:40PM,Albert Lee Chun,Pittsburgh Building 5114,35,18,17,MGMT,2024-08-28,2024-12-20,FALL 2024,66924,6370,01,MGMT-6370,"Advanced OPTIONS, Futures And Derivatives Markets","The purpose of this course is to provide an introduction to second generation financial instruments including forward and futures contracts, options, futures options, and swaps on a variety of underlying instruments including fixed income securities. The fixed income markets will be integrated with the discussion of IRDs (interest rate derivatives).",Prerequisites/Corequisites: MGMT 6020 Financial Management I or permission of the instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
+"ADVANCED OPTIONS, FUTURES AND DERIVATIVES MARKETS",LEC,3,T,6:00PM,8:40PM,Albert Lee Chun,Pittsburgh Building 5114,35,19,16,MGMT,2024-08-28,2024-12-20,FALL 2024,66924,6370,01,MGMT-6370,"Advanced OPTIONS, Futures And Derivatives Markets","The purpose of this course is to provide an introduction to second generation financial instruments including forward and futures contracts, options, futures options, and swaps on a variety of underlying instruments including fixed income securities. The fixed income markets will be integrated with the discussion of IRDs (interest rate derivatives).",Prerequisites/Corequisites: MGMT 6020 Financial Management I or permission of the instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
 COMM BMED INN/ENTREP BUS FDMT,LEC,3,F,9:00AM,11:50AM,Johan Maharjan,Carnegie Building 210,15,5,10,MGMT,2024-08-28,2024-12-20,FALL 2024,69475,6961,01,MGMT-6961,Comm Bmed INN/ENTREP Bus Fdmt,,,,[],[],Management and Technology
-NETWORKS AND VALUE CREATION,LEC,4,MR,2:00PM,3:50PM,Mert Hakan Hekimoglu,Russell Sage Laboratory 3704,35,4,31,MGMT,2024-08-28,2024-12-20,FALL 2024,68538,4080,01,MGMT-4080,Networks And Value Creation,Increasingly the competitive landscape in many industries is shaped not only by individual firm competencies but more by those of the extended value networks that organizations are part of. The course focuses on how value networks for demand fulfillment can be designed and managed. Key concepts related to how inter-enterprise integration and value chain constellations can be deployed to effectively detect and fulfill customer needs in a cost-efficient manner. The course will also examine several sourcing strategies and their suitability and economics for different types of products and services.,Prerequisite: MGMT 4100,When Offered: Fall terms annually.,['MGMT 4100'],['MGMT 4100'],Management and Technology
-HUMAN RESOURCES IN HIGH PERFORMANCE ORGANIZATIONS,LEC,4,MR,12:00PM,1:50PM,Timothy D. Golden,Carnegie Building 101,35,35,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65055,4860,01,MGMT-4860,Human Resources In High Performance Organizations,"This course provides an overview of human resources principles and practices in business organizations. Students are given tools for understanding how people are managed on a day-to-day basis. Topics include: the recruiting and hiring process; self, peer, and managerial evaluations; training and development; and legal issues related to the work setting and the job-search process. Students come away with an understanding of the difficulties and challenges associated with workforce management. This course utilizes a combination of lecture, discussion, and experiential exercises.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
-HUMAN RESOURCES IN HIGH PERFORMANCE ORGANIZATIONS,LEC,4,MR,2:00PM,3:50PM,Timothy D. Golden,Carnegie Building 101,35,14,21,MGMT,2024-08-28,2024-12-20,FALL 2024,65056,4860,02,MGMT-4860,Human Resources In High Performance Organizations,"This course provides an overview of human resources principles and practices in business organizations. Students are given tools for understanding how people are managed on a day-to-day basis. Topics include: the recruiting and hiring process; self, peer, and managerial evaluations; training and development; and legal issues related to the work setting and the job-search process. Students come away with an understanding of the difficulties and challenges associated with workforce management. This course utilizes a combination of lecture, discussion, and experiential exercises.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
-ADVANCED CORPORATE FINANCE,LEC,3,MR,12:00PM,1:50PM,Johan Maharjan,Carnegie Building 201,20,4,16,MGMT,2024-08-28,2024-12-20,FALL 2024,68654,6380,01,MGMT-6380,Advanced Corporate Finance,"The overall objective of this course is to study advanced corporate finance issues and test empirically the stock market reaction to financing decisions and the issuance of securities. Corporate finance topics include shareholder value and economic value-added concepts, as well as corporate governance issues. Financing decisions include venture capital and initial public offerings, seasoned equity offerings, stock splits, corporate bonds and bank loans, stock listings on foreign exchanges. Other topics are mergers and acquisitions, pension fund management, financial analysis, and planning. Real stock prices and case studies are used to apply the theoretical concepts.",Prerequisites/Corequisites: MGMT 6020 or permission of the instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
-FINANCIAL MODEL & OPTIMIZATION,LEC,3,M,6:00PM,8:40PM,Albert Lee Chun,Pittsburgh Building 5114,30,14,16,MGMT,2024-08-28,2024-12-20,FALL 2024,67071,6520,01,MGMT-6520,Financial Model & Optimization,"This course introduces quantitative analysis for financial markets and instruments. The course covers applications of mathematical tools and optimization modeling to portfolio selection and fund management, risk analysis, hedging and valuation of financial assets, and financial planning under uncertainty. The course introduces applications of calculus, differential equations, and introduces stochastic processes within a financial markets context to address arbitrage pricing and equilibrium asset pricing models.",Prerequisites/Corequisites: MGMT 6020 or permission of instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
-PRACTICUM IN MANAGEMENT,LEC,3,M,6:00PM,8:50PM,Jason Nicholas Kuruzovich,Pittsburgh Building 4206,45,34,11,MGMT,2024-08-28,2024-12-20,FALL 2024,67635,6840,01,MGMT-6840,Practicum In Management,"This is an experiential, project-based course where students work on projects for an actual business. Students work in a consulting role for a local company. Practicum in Management is designed and developed for students from all educational backgrounds including analytics, who want to learn the fundamentals of business as they apply to satisfying a ""customer's need"" in various real-world applications. Students will work on a team or individually on projects and communicate to the class frequently to facilitate student learning from one another. We begin with some basic tenets of business and an overview of how to develop and oversee a project plan. The course will give you first-hand experience understanding the needs of a consulting client, articulating a plan and executing the plan to fill their needs.",Prerequisites/Corequisites: MGMT 6580 and MGMT 7030; and faculty adviser approval.,When Offered: Fall term annually.,"['MGMT 6580', 'MGMT 7030']","['MGMT 6580', 'MGMT 7030']",Management and Technology
+NETWORKS AND VALUE CREATION,LEC,4,MR,2:00PM,3:50PM,Mert Hakan Hekimoglu,Russell Sage Laboratory 3704,35,1,34,MGMT,2024-08-28,2024-12-20,FALL 2024,68538,4080,01,MGMT-4080,Networks And Value Creation,Increasingly the competitive landscape in many industries is shaped not only by individual firm competencies but more by those of the extended value networks that organizations are part of. The course focuses on how value networks for demand fulfillment can be designed and managed. Key concepts related to how inter-enterprise integration and value chain constellations can be deployed to effectively detect and fulfill customer needs in a cost-efficient manner. The course will also examine several sourcing strategies and their suitability and economics for different types of products and services.,Prerequisite: MGMT 4100,When Offered: Fall terms annually.,['MGMT 4100'],['MGMT 4100'],Management and Technology
+HUMAN RESOURCES IN HIGH PERFORMANCE ORGANIZATIONS,LEC,4,MR,12:00PM,1:50PM,Timothy D. Golden,Folsom Library 107,35,35,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65055,4860,01,MGMT-4860,Human Resources In High Performance Organizations,"This course provides an overview of human resources principles and practices in business organizations. Students are given tools for understanding how people are managed on a day-to-day basis. Topics include: the recruiting and hiring process; self, peer, and managerial evaluations; training and development; and legal issues related to the work setting and the job-search process. Students come away with an understanding of the difficulties and challenges associated with workforce management. This course utilizes a combination of lecture, discussion, and experiential exercises.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+HUMAN RESOURCES IN HIGH PERFORMANCE ORGANIZATIONS,LEC,4,MR,2:00PM,3:50PM,Timothy D. Golden,Folsom Library 107,35,13,22,MGMT,2024-08-28,2024-12-20,FALL 2024,65056,4860,02,MGMT-4860,Human Resources In High Performance Organizations,"This course provides an overview of human resources principles and practices in business organizations. Students are given tools for understanding how people are managed on a day-to-day basis. Topics include: the recruiting and hiring process; self, peer, and managerial evaluations; training and development; and legal issues related to the work setting and the job-search process. Students come away with an understanding of the difficulties and challenges associated with workforce management. This course utilizes a combination of lecture, discussion, and experiential exercises.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+ADVANCED CORPORATE FINANCE,LEC,3,MR,12:00PM,1:50PM,Johan Maharjan,Carnegie Building 201,20,6,14,MGMT,2024-08-28,2024-12-20,FALL 2024,68654,6380,01,MGMT-6380,Advanced Corporate Finance,"The overall objective of this course is to study advanced corporate finance issues and test empirically the stock market reaction to financing decisions and the issuance of securities. Corporate finance topics include shareholder value and economic value-added concepts, as well as corporate governance issues. Financing decisions include venture capital and initial public offerings, seasoned equity offerings, stock splits, corporate bonds and bank loans, stock listings on foreign exchanges. Other topics are mergers and acquisitions, pension fund management, financial analysis, and planning. Real stock prices and case studies are used to apply the theoretical concepts.",Prerequisites/Corequisites: MGMT 6020 or permission of the instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
+FINANCIAL MODEL & OPTIMIZATION,LEC,3,M,6:00PM,8:40PM,Albert Lee Chun,Pittsburgh Building 5114,30,17,13,MGMT,2024-08-28,2024-12-20,FALL 2024,67071,6520,01,MGMT-6520,Financial Model & Optimization,"This course introduces quantitative analysis for financial markets and instruments. The course covers applications of mathematical tools and optimization modeling to portfolio selection and fund management, risk analysis, hedging and valuation of financial assets, and financial planning under uncertainty. The course introduces applications of calculus, differential equations, and introduces stochastic processes within a financial markets context to address arbitrage pricing and equilibrium asset pricing models.",Prerequisites/Corequisites: MGMT 6020 or permission of instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
+PRACTICUM IN MANAGEMENT,LEC,3,M,6:00PM,8:50PM,Jason Nicholas Kuruzovich,Pittsburgh Building 4206,45,37,8,MGMT,2024-08-28,2024-12-20,FALL 2024,67635,6840,01,MGMT-6840,Practicum In Management,"This is an experiential, project-based course where students work on projects for an actual business. Students work in a consulting role for a local company. Practicum in Management is designed and developed for students from all educational backgrounds including analytics, who want to learn the fundamentals of business as they apply to satisfying a ""customer's need"" in various real-world applications. Students will work on a team or individually on projects and communicate to the class frequently to facilitate student learning from one another. We begin with some basic tenets of business and an overview of how to develop and oversee a project plan. The course will give you first-hand experience understanding the needs of a consulting client, articulating a plan and executing the plan to fill their needs.",Prerequisites/Corequisites: MGMT 6580 and MGMT 7030; and faculty adviser approval.,When Offered: Fall term annually.,"['MGMT 6580', 'MGMT 7030']","['MGMT 6580', 'MGMT 7030']",Management and Technology
 ECON / STRATEGIC MGMT DGTL AGE,LEC,3,R,6:00PM,8:40PM,Jason Nicholas Kuruzovich,Pittsburgh Building 5114,10,10,0,MGMT,2024-08-28,2024-12-20,FALL 2024,68269,6962,01,MGMT-6962,Econ / Strategic Mgmt Dgtl Age,,,,[],[],Management and Technology
-FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,TF,10:00AM,11:50AM,Tahseen Hasan,Pittsburgh Building 4206,40,30,10,MGMT,2024-08-28,2024-12-20,FALL 2024,65052,2300,01,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
-FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,TF,12:00PM,1:50PM,Tahseen Hasan,Pittsburgh Building 4206,40,29,11,MGMT,2024-08-28,2024-12-20,FALL 2024,69531,2300,02,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
-STRATEGY AND POLICY,LEC,4,TF,10:00AM,11:50AM,Murali Dharan Raman Chari,Carnegie Building 101,35,29,6,MGMT,2024-08-28,2024-12-20,FALL 2024,67097,4870,01,MGMT-4870,Strategy And Policy,This is a course that integrates the functional fields of management. The first part of the course focuses on the tools and discipline commonly used in strategy formulation. The second part focuses on the implementation of strategy in a variety of contexts.,"Prerequisites/Corequisites: MGMT 2300 Accounting for Decision Making, MGMT 2320 Managerial Finance, MGMT 2430 Marketing Principles, and MGMT 4110 Operations Management.",When Offered: Fall and spring terms annually.,"['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']","['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']",Management and Technology
+FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,TF,10:00AM,11:50AM,Tahseen Hasan,Pittsburgh Building 4206,40,33,7,MGMT,2024-08-28,2024-12-20,FALL 2024,65052,2300,01,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,TF,12:00PM,1:50PM,Tahseen Hasan,Pittsburgh Building 4206,40,27,13,MGMT,2024-08-28,2024-12-20,FALL 2024,69531,2300,02,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+STRATEGY AND POLICY,LEC,4,TF,10:00AM,11:50AM,Murali Dharan Raman Chari,Carnegie Building 101,35,30,5,MGMT,2024-08-28,2024-12-20,FALL 2024,67097,4870,01,MGMT-4870,Strategy And Policy,This is a course that integrates the functional fields of management. The first part of the course focuses on the tools and discipline commonly used in strategy formulation. The second part focuses on the implementation of strategy in a variety of contexts.,"Prerequisites/Corequisites: MGMT 2300 Accounting for Decision Making, MGMT 2320 Managerial Finance, MGMT 2430 Marketing Principles, and MGMT 4110 Operations Management.",When Offered: Fall and spring terms annually.,"['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']","['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']",Management and Technology
 STRATEGY AND POLICY,LEC,4,TF,12:00PM,1:50PM,Murali Dharan Raman Chari,Carnegie Building 101,35,12,23,MGMT,2024-08-28,2024-12-20,FALL 2024,65057,4870,02,MGMT-4870,Strategy And Policy,This is a course that integrates the functional fields of management. The first part of the course focuses on the tools and discipline commonly used in strategy formulation. The second part focuses on the implementation of strategy in a variety of contexts.,"Prerequisites/Corequisites: MGMT 2300 Accounting for Decision Making, MGMT 2320 Managerial Finance, MGMT 2430 Marketing Principles, and MGMT 4110 Operations Management.",When Offered: Fall and spring terms annually.,"['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']","['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']",Management and Technology
-BUSINESS IMPL. OF EMERG. TECH,LEC,3,MR,4:00PM,5:20PM,M.V. Shyam Kumar,Pittsburgh Building 4206,35,32,3,MGMT,2024-08-28,2024-12-20,FALL 2024,65450,6060,01,MGMT-6060,Business IMPL. Of EMERG. Tech,"This course investigates the business dimensions of major technological advances, highlighting how industry structures an organization, the dynamics of competition, patterns of innovation, operational decisions, and financial investment are all influenced by various types of technical breakthrough. Students also get to explore the interplay between emerging technology development and commercialization. The challenges associated with intellectual property protection and utilization, as well as the socio-economic and ethical dimensions of new technology adoption, are explored. Each year, a different set of key technologies will be examined and analyzed.",,When Offered: Fall term annually.,[],[],Management and Technology
-FINANCL TRADING AND INVESTING,LEC,3,MR,2:00PM,3:50PM,Meimuneh Sumadi,Amos Eaton Hall 216,40,9,31,MGMT,2024-08-28,2024-12-20,FALL 2024,66293,6240,01,MGMT-6240,Financl Trading And Investing,"This course introduces interactive trading in financial instruments. Students learn the principles of asset price discovery through real-time trading in a variety of markets, including equities, bonds, options, derivatives. Topics addressed include asset valuation, portfolio management and risk management in the context of real-time trading of financial instruments. The course uses the facilities of the Lally School's Virtual Trading Room. Students will work in teams of two in many trading assignments.",Prerequisites/Corequisites: MGMT 6020 or permission of instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
-PROFESSIONAL DEVELOPMENT WORKSHOP I - MS,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Carnegie Building 113,55,32,23,MGMT,2024-08-28,2024-12-20,FALL 2024,67716,7770,02,MGMT-7770,Professional Development Workshop I - Ms,"The PDW sequence is designed to develop the professional skills of students in the M.S. programs that are needed to be a successful contributor in a business setting. PDW I follows a framework of Leadership, Followership, and Membership in a professional community. Students will gain practical experience through exposure to experts in specific skill areas, role play and practice sessions, and exercise completions. The fall semester concentrates on individual skills development in presentation, communication, and networking. Additionally, membership in one's professional community will be emphasized through engagement in two activities specific to the student's M.S. program. Building on the skills and abilities obtained earlier in your career, this PDW is geared toward a higher level of professionalism inherent in a successful business environment.",,When Offered: Fall term annually.,[],[],Management and Technology
-PROFESSIONAL DEVELOPMENT WORKSHOP I - MS,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Carnegie Building 113,65,22,43,MGMT,2024-08-28,2024-12-20,FALL 2024,67717,7770,03,MGMT-7770,Professional Development Workshop I - Ms,"The PDW sequence is designed to develop the professional skills of students in the M.S. programs that are needed to be a successful contributor in a business setting. PDW I follows a framework of Leadership, Followership, and Membership in a professional community. Students will gain practical experience through exposure to experts in specific skill areas, role play and practice sessions, and exercise completions. The fall semester concentrates on individual skills development in presentation, communication, and networking. Additionally, membership in one's professional community will be emphasized through engagement in two activities specific to the student's M.S. program. Building on the skills and abilities obtained earlier in your career, this PDW is geared toward a higher level of professionalism inherent in a successful business environment.",,When Offered: Fall term annually.,[],[],Management and Technology
+BUSINESS IMPL. OF EMERG. TECH,LEC,3,MR,4:00PM,5:20PM,M.V. Shyam Kumar,Pittsburgh Building 4206,35,34,1,MGMT,2024-08-28,2024-12-20,FALL 2024,65450,6060,01,MGMT-6060,Business IMPL. Of EMERG. Tech,"This course investigates the business dimensions of major technological advances, highlighting how industry structures an organization, the dynamics of competition, patterns of innovation, operational decisions, and financial investment are all influenced by various types of technical breakthrough. Students also get to explore the interplay between emerging technology development and commercialization. The challenges associated with intellectual property protection and utilization, as well as the socio-economic and ethical dimensions of new technology adoption, are explored. Each year, a different set of key technologies will be examined and analyzed.",,When Offered: Fall term annually.,[],[],Management and Technology
+FINANCL TRADING AND INVESTING,LEC,3,MR,2:00PM,3:50PM,Meimuneh Sumadi,Amos Eaton Hall 216,40,12,28,MGMT,2024-08-28,2024-12-20,FALL 2024,66293,6240,01,MGMT-6240,Financl Trading And Investing,"This course introduces interactive trading in financial instruments. Students learn the principles of asset price discovery through real-time trading in a variety of markets, including equities, bonds, options, derivatives. Topics addressed include asset valuation, portfolio management and risk management in the context of real-time trading of financial instruments. The course uses the facilities of the Lally School's Virtual Trading Room. Students will work in teams of two in many trading assignments.",Prerequisites/Corequisites: MGMT 6020 or permission of instructor.,When Offered: Fall term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
+PROFESSIONAL DEVELOPMENT WORKSHOP I - MS,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Carnegie Building 113,55,31,24,MGMT,2024-08-28,2024-12-20,FALL 2024,67716,7770,02,MGMT-7770,Professional Development Workshop I - Ms,"The PDW sequence is designed to develop the professional skills of students in the M.S. programs that are needed to be a successful contributor in a business setting. PDW I follows a framework of Leadership, Followership, and Membership in a professional community. Students will gain practical experience through exposure to experts in specific skill areas, role play and practice sessions, and exercise completions. The fall semester concentrates on individual skills development in presentation, communication, and networking. Additionally, membership in one's professional community will be emphasized through engagement in two activities specific to the student's M.S. program. Building on the skills and abilities obtained earlier in your career, this PDW is geared toward a higher level of professionalism inherent in a successful business environment.",,When Offered: Fall term annually.,[],[],Management and Technology
+PROFESSIONAL DEVELOPMENT WORKSHOP I - MS,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Carnegie Building 113,65,27,38,MGMT,2024-08-28,2024-12-20,FALL 2024,67717,7770,03,MGMT-7770,Professional Development Workshop I - Ms,"The PDW sequence is designed to develop the professional skills of students in the M.S. programs that are needed to be a successful contributor in a business setting. PDW I follows a framework of Leadership, Followership, and Membership in a professional community. Students will gain practical experience through exposure to experts in specific skill areas, role play and practice sessions, and exercise completions. The fall semester concentrates on individual skills development in presentation, communication, and networking. Additionally, membership in one's professional community will be emphasized through engagement in two activities specific to the student's M.S. program. Building on the skills and abilities obtained earlier in your career, this PDW is geared toward a higher level of professionalism inherent in a successful business environment.",,When Offered: Fall term annually.,[],[],Management and Technology
 MANAGERIAL FINANCE,LEC,4,MR,10:00AM,11:50AM,Bill Francis,Carnegie Building 106,40,39,1,MGMT,2024-08-28,2024-12-20,FALL 2024,68537,2320,01,MGMT-2320,Managerial Finance,"An introduction to corporate financial analysis and decision making. This course covers the following topics: financial statement analysis, valuation principles, risk and return analysis, working capital management, capital budgeting, cost of capital, capital structure, and dividend policy.",Prerequisites: MGMT 2300,"When Offered: Fall, spring, and summer terms annually.",['MGMT 2300'],['MGMT 2300'],Management and Technology
-MANAGERIAL FINANCE,LEC,4,MR,4:00PM,5:50PM,Meimuneh Sumadi,Pittsburgh Building 5216,40,32,8,MGMT,2024-08-28,2024-12-20,FALL 2024,69505,2320,02,MGMT-2320,Managerial Finance,"An introduction to corporate financial analysis and decision making. This course covers the following topics: financial statement analysis, valuation principles, risk and return analysis, working capital management, capital budgeting, cost of capital, capital structure, and dividend policy.",Prerequisites: MGMT 2300,"When Offered: Fall, spring, and summer terms annually.",['MGMT 2300'],['MGMT 2300'],Management and Technology
-QUANTITATIVE METHODS FOR BUS,LEC,4,TF,8:00AM,9:50AM,Sebastian Souyris,Amos Eaton Hall 216,35,30,5,MGMT,2024-08-28,2024-12-20,FALL 2024,65430,4100,01,MGMT-4100,Quantitative Methods For Bus,"This course introduces the student to the business management of production and operations systems. The concepts are related to inventory control, forecasting, scheduling, man-powers, and facilities planning. Computer usage includes specialized packages for quantitative analysis.",Prerequisites/Corequisites: MGMT 2100,When Offered: Fall and spring terms annually.,['MGMT 2100'],['MGMT 2100'],Management and Technology
-SYSTEMS ANALYSIS & DESIGN,LEC,4,TF,2:00PM,3:50PM,Nishtha Langer,Pittsburgh Building 5114,25,11,14,MGMT,2024-08-28,2024-12-20,FALL 2024,65289,4240,01,MGMT-4240,Systems Analysis & Design,"This course presents conceptual material on the analysis and design of business information systems. The focus is on understanding business information processing requirements and developing information systems solutions to meet these requirements. Key stages of the systems development life cycle including planning, analysis, and design are the focus of this course. Models and procedures for understanding and modeling an organization's existing and planned information systems are presented. Computer-aided software engineering tools are used to provide hands-on experience in designing information systems.",,When Offered: Fall term annually.,[],[],Management and Technology
+MANAGERIAL FINANCE,LEC,4,MR,4:00PM,5:50PM,Meimuneh Sumadi,Pittsburgh Building 5216,40,29,11,MGMT,2024-08-28,2024-12-20,FALL 2024,69505,2320,02,MGMT-2320,Managerial Finance,"An introduction to corporate financial analysis and decision making. This course covers the following topics: financial statement analysis, valuation principles, risk and return analysis, working capital management, capital budgeting, cost of capital, capital structure, and dividend policy.",Prerequisites: MGMT 2300,"When Offered: Fall, spring, and summer terms annually.",['MGMT 2300'],['MGMT 2300'],Management and Technology
+QUANTITATIVE METHODS FOR BUS,LEC,4,TF,8:00AM,9:50AM,Sebastian Souyris,Amos Eaton Hall 216,35,32,3,MGMT,2024-08-28,2024-12-20,FALL 2024,65430,4100,01,MGMT-4100,Quantitative Methods For Bus,"This course introduces the student to the business management of production and operations systems. The concepts are related to inventory control, forecasting, scheduling, man-powers, and facilities planning. Computer usage includes specialized packages for quantitative analysis.",Prerequisites/Corequisites: MGMT 2100,When Offered: Fall and spring terms annually.,['MGMT 2100'],['MGMT 2100'],Management and Technology
+SYSTEMS ANALYSIS & DESIGN,LEC,4,TF,2:00PM,3:50PM,Nishtha Langer,Pittsburgh Building 5114,25,10,15,MGMT,2024-08-28,2024-12-20,FALL 2024,65289,4240,01,MGMT-4240,Systems Analysis & Design,"This course presents conceptual material on the analysis and design of business information systems. The focus is on understanding business information processing requirements and developing information systems solutions to meet these requirements. Key stages of the systems development life cycle including planning, analysis, and design are the focus of this course. Models and procedures for understanding and modeling an organization's existing and planned information systems are presented. Computer-aided software engineering tools are used to provide hands-on experience in designing information systems.",,When Offered: Fall term annually.,[],[],Management and Technology
 MARKETING PRINCIPLES,LEC,4,TF,10:00AM,11:50AM,Sarah K. Parker Ward,Ricketts Building 212,35,34,1,MGMT,2024-08-28,2024-12-20,FALL 2024,67205,2430,01,MGMT-2430,Marketing Principles,"This course provides students with an understanding of marketing principles and the role of the marketing discipline. The course is intended to help students learn the basic concepts and practices of marketing and to familiarize them with the terminology and techniques for properly framing and analyzing marketing problems. In addition to marketing concepts, processes, and strategy, issues such as the social consequences of marketing are discussed.",None,When Offered: Fall and spring terms annually.,[],[],Management and Technology
 MARKETING PRINCIPLES,LEC,4,TF,12:00PM,1:50PM,Sarah K. Parker Ward,Jonsson Engineering Center 4309,35,35,0,MGMT,2024-08-28,2024-12-20,FALL 2024,67204,2430,02,MGMT-2430,Marketing Principles,"This course provides students with an understanding of marketing principles and the role of the marketing discipline. The course is intended to help students learn the basic concepts and practices of marketing and to familiarize them with the terminology and techniques for properly framing and analyzing marketing problems. In addition to marketing concepts, processes, and strategy, issues such as the social consequences of marketing are discussed.",None,When Offered: Fall and spring terms annually.,[],[],Management and Technology
 OPERATIONS MANAGEMENT,LEC,4,TF,10:00AM,11:50AM,Christopher McDermott,Pittsburgh Building 4114,45,45,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65398,4110,01,MGMT-4110,Operations Management,"This course introduces the student to the operations function in services and manufacturing-oriented firms. Students develop an appreciation of the concepts, principles, and techniques used for decision making in the operations function. The course takes a managerial perspective.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-CONSUMER BEHAVIOR AND PROD DSN,LEC,4,MR,10:00AM,11:50AM,Gaurav Jain,Low Center for Industrial Inn. 3045,40,12,28,MGMT,2024-08-28,2024-12-20,FALL 2024,67448,4460,01,MGMT-4460,Consumer Behavior And Prod Dsn,"This course introduces the motivations and related factors that shape consumers' purchasing decisions. Also considered is the consumer perceptual process and how it affects purchasing behavior and consumer reaction to product designs. The relationship between perception and product design is extended to topics such as design for understanding, universal product design, aesthetics, and industrial design",Prerequisites/Corequisites: MGMT 2430,When Offered: Fall term annually.,['MGMT 2430'],['MGMT 2430'],Management and Technology
+CONSUMER BEHAVIOR AND PROD DSN,LEC,4,MR,10:00AM,11:50AM,Gaurav Jain,Low Center for Industrial Inn. 3045,40,11,29,MGMT,2024-08-28,2024-12-20,FALL 2024,67448,4460,01,MGMT-4460,Consumer Behavior And Prod Dsn,"This course introduces the motivations and related factors that shape consumers' purchasing decisions. Also considered is the consumer perceptual process and how it affects purchasing behavior and consumer reaction to product designs. The relationship between perception and product design is extended to topics such as design for understanding, universal product design, aesthetics, and industrial design",Prerequisites/Corequisites: MGMT 2430,When Offered: Fall term annually.,['MGMT 2430'],['MGMT 2430'],Management and Technology
 "NETWORKS, INNOVATION AND VALUE CREATION I",LEC,3,MR,2:00PM,3:50PM,Mert Hakan Hekimoglu,Russell Sage Laboratory 3704,35,20,15,MGMT,2024-08-28,2024-12-20,FALL 2024,67631,6080,01,MGMT-6080,"NETWORKS, Innovation And Value Creation I","This course considers the evolving new models of value creation and business growth being introduced across different industries and examines such critical issues as product and process technology strategy, operational innovation, IT strategies and infrastructures, networks and organization, and finance. Utilizing a series of case studies from across a range of industry networks, students will have a chance to learn how companies can participate in such networks and what unique business resources and capabilities they can employ to enhance their probability of commercial success.",,When Offered: Fall term annually.,[],[],Management and Technology
-ENTREPRENEURIAL FINANCE,LEC,3,MR,12:00PM,1:50PM,Bill Francis,Carnegie Building 106,40,4,36,MGMT,2024-08-28,2024-12-20,FALL 2024,68747,6260,01,MGMT-6260,Entrepreneurial Finance,"The overall objective of this course is to understand how entrepreneurs and investors create value, noting that their interests do not always coincide. This involves learning about topics which trace out the ""venture capital cycle""; opportunity recognition; valuation and evaluation; negotiation; structuring financing contract; managing investment; exit strategy. This course is structured into three modules: valuation, private equity market, and harvesting entrepreneurial value. A student cannot receive credit for both the graduate and undergraduate versions of this course.","Prerequisites/Corequisites: MGMT 6190 or MGMT 6020, or approval of the instructor",When Offered: Fall term annually.,"['MGMT 6190', 'MGMT 6020']","['MGMT 6190', 'MGMT 6020']",Management and Technology
-MARKETING RESEARCH,LEC,3,MR,12:00PM,1:50PM,Gaurav Jain,Low Center for Industrial Inn. 3045,30,7,23,MGMT,2024-08-28,2024-12-20,FALL 2024,67801,6550,01,MGMT-6550,Marketing Research,"Marketing strategy decisions are developed in the framework of many case studies. Marketing research techniques, including questionnaire development and data analysis, are introduced and utilized in a team project.",Prerequisites/Corequisites: MGMT 6100 or permission of instructor.,When Offered: Fall term annually.,['MGMT 6100'],['MGMT 6100'],Management and Technology
-INTRO TO DATA MGMT & ANALYTICS,LEC,4,MR,10:00AM,11:50AM,Saggi Nevo,Pittsburgh Building 4206,40,39,1,MGMT,2024-08-28,2024-12-20,FALL 2024,66282,2510,01,MGMT-2510,Intro To Data Mgmt & Analytics,"An introduction to the fundamentals of data management and analysis with applications in business and information systems. Through hands-on exercises students will develop competencies in working with data through spreadsheets applications and relational databases. Topics include foundational concepts in information systems, spreadsheets, and basic data modeling and database design.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
-INTRO TO DATA MGMT & ANALYTICS,LEC,4,TF,2:00PM,3:50PM,Jonathan Alexis McKinney,Ricketts Building 212,30,20,10,MGMT,2024-08-28,2024-12-20,FALL 2024,66042,2510,02,MGMT-2510,Intro To Data Mgmt & Analytics,"An introduction to the fundamentals of data management and analysis with applications in business and information systems. Through hands-on exercises students will develop competencies in working with data through spreadsheets applications and relational databases. Topics include foundational concepts in information systems, spreadsheets, and basic data modeling and database design.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
-MARKETING RESEARCH,LEC,4,MR,12:00PM,1:50PM,Gaurav Jain,Low Center for Industrial Inn. 3045,30,16,14,MGMT,2024-08-28,2024-12-20,FALL 2024,66945,4470,01,MGMT-4470,Marketing Research,"A course on identifying and solving marketing problems through the systematic gathering and analysis of market information. Course focuses on careful definition of marketing problems, specification of information needs, sampling theory, research design, statistical methods, and marketing management implications. A major project involving marketing research for an off-campus ""client"" is a key part of the final grade.",Prerequisites/Corequisites: MGMT 2430.,When Offered: Fall term annually.,['MGMT 2430'],['MGMT 2430'],Management and Technology
-INTRODUCTION TO MACHINE LEARNING APPLICATIONS,LEC,3,MR,8:00AM,9:50AM,Lydia Manikonda,Troy Building 2018,50,27,23,MGMT,2024-08-28,2024-12-20,FALL 2024,68287,6560,01,MGMT-6560,Introduction To Machine Learning Applications,"""The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context."" They will also learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-INTRODUCTION TO MACHINE LEARNING APPLICATIONS,LEC,3,MR,4:00PM,5:50PM,Lydia Manikonda,Troy Building 2012,50,29,21,MGMT,2024-08-28,2024-12-20,FALL 2024,67719,6560,02,MGMT-6560,Introduction To Machine Learning Applications,"""The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context."" They will also learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-FOUNDATIONS OF DATA SCIENCE,LEC,3,TF,2:00PM,3:20PM,Sebastian Souyris,Lally Hall 104,50,46,4,MGMT,2024-08-28,2024-12-20,FALL 2024,67069,6100,01,MGMT-6100,Foundations Of Data Science,"Every dataset tells a unique story, and in this course, students learn to elicit these stories from data. The course develops students' ability to ask critical questions about their data in order to better understand it. Students will run tests to identify data problems and will learn how to take corrective actions. In addition, the course covers important parametric and non-parametric tests, and discusses their benefits and limitations in a big data world.",None,When Offered: Fall and Spring term annually.,[],[],Management and Technology
-PROFESSIONAL DEVELOPMENT WORKSHOP I,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Carnegie Building 113,65,36,29,MGMT,2024-08-28,2024-12-20,FALL 2024,65822,7230,01,MGMT-7230,Professional Development Workshop I,"This course is the first in a three part series of Professional Development Workshops that teach practical skills in laboratory settings. Over the first three semesters, the MBA cohort student will be exposed to professional skills training, distinguished speakers, and leadership development. This first part will concentrate on building writing and presentation skills, and practicing those skills in the conceptual environment of Leadership, Followership, and Membership.",MBA Cohort.,"When Offered: Fall term of the first year of the MBA cohort, every other week, for six weeks.",[],[],Management and Technology
-COMPUTER INFO SYSTEMS,LEC,4,TF,12:00PM,1:50PM,Nishtha Langer,Pittsburgh Building 5114,31,31,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65288,4140,01,MGMT-4140,Computer Info Systems,"This course provides the undergraduate management student with an introduction to the concept and components of computer-based ""management information systems"" (MIS) and their integration into organizational processes to gain competitive advantage. This course will examine approaches for developing and using information systems in support of business processes. Topics include: the impact of computer-based information systems on organizations; the basic technology components of modern information systems; the process by which information systems are created and changed; and selected management and technology issues.",,"When Offered: Fall, spring, and summer terms anually.",[],[],Management and Technology
+ENTREPRENEURIAL FINANCE,LEC,3,MR,12:00PM,1:50PM,Bill Francis,Carnegie Building 106,40,5,35,MGMT,2024-08-28,2024-12-20,FALL 2024,68747,6260,01,MGMT-6260,Entrepreneurial Finance,"The overall objective of this course is to understand how entrepreneurs and investors create value, noting that their interests do not always coincide. This involves learning about topics which trace out the ""venture capital cycle""; opportunity recognition; valuation and evaluation; negotiation; structuring financing contract; managing investment; exit strategy. This course is structured into three modules: valuation, private equity market, and harvesting entrepreneurial value. A student cannot receive credit for both the graduate and undergraduate versions of this course.","Prerequisites/Corequisites: MGMT 6190 or MGMT 6020, or approval of the instructor",When Offered: Fall term annually.,"['MGMT 6190', 'MGMT 6020']","['MGMT 6190', 'MGMT 6020']",Management and Technology
+MARKETING RESEARCH,LEC,3,MR,12:00PM,1:50PM,Gaurav Jain,Low Center for Industrial Inn. 3045,30,8,22,MGMT,2024-08-28,2024-12-20,FALL 2024,67801,6550,01,MGMT-6550,Marketing Research,"Marketing strategy decisions are developed in the framework of many case studies. Marketing research techniques, including questionnaire development and data analysis, are introduced and utilized in a team project.",Prerequisites/Corequisites: MGMT 6100 or permission of instructor.,When Offered: Fall term annually.,['MGMT 6100'],['MGMT 6100'],Management and Technology
+INTRO TO DATA MGMT & ANALYTICS,LEC,4,MR,10:00AM,11:50AM,Saggi Nevo,Low Center for Industrial Inn. 3039,40,36,4,MGMT,2024-08-28,2024-12-20,FALL 2024,66282,2510,01,MGMT-2510,Intro To Data Mgmt & Analytics,"An introduction to the fundamentals of data management and analysis with applications in business and information systems. Through hands-on exercises students will develop competencies in working with data through spreadsheets applications and relational databases. Topics include foundational concepts in information systems, spreadsheets, and basic data modeling and database design.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+INTRO TO DATA MGMT & ANALYTICS,LEC,4,TF,2:00PM,3:50PM,Jonathan Alexis McKinney,Ricketts Building 212,30,26,4,MGMT,2024-08-28,2024-12-20,FALL 2024,66042,2510,02,MGMT-2510,Intro To Data Mgmt & Analytics,"An introduction to the fundamentals of data management and analysis with applications in business and information systems. Through hands-on exercises students will develop competencies in working with data through spreadsheets applications and relational databases. Topics include foundational concepts in information systems, spreadsheets, and basic data modeling and database design.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+MARKETING RESEARCH,LEC,4,MR,12:00PM,1:50PM,Gaurav Jain,Low Center for Industrial Inn. 3045,30,18,12,MGMT,2024-08-28,2024-12-20,FALL 2024,66945,4470,01,MGMT-4470,Marketing Research,"A course on identifying and solving marketing problems through the systematic gathering and analysis of market information. Course focuses on careful definition of marketing problems, specification of information needs, sampling theory, research design, statistical methods, and marketing management implications. A major project involving marketing research for an off-campus ""client"" is a key part of the final grade.",Prerequisites/Corequisites: MGMT 2430.,When Offered: Fall term annually.,['MGMT 2430'],['MGMT 2430'],Management and Technology
+INTRODUCTION TO MACHINE LEARNING APPLICATIONS,LEC,3,MR,8:00AM,9:50AM,Lydia Manikonda,Troy Building 2018,50,31,19,MGMT,2024-08-28,2024-12-20,FALL 2024,68287,6560,01,MGMT-6560,Introduction To Machine Learning Applications,"""The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context."" They will also learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+INTRODUCTION TO MACHINE LEARNING APPLICATIONS,LEC,3,MR,4:00PM,5:50PM,Lydia Manikonda,Troy Building 2012,50,31,19,MGMT,2024-08-28,2024-12-20,FALL 2024,67719,6560,02,MGMT-6560,Introduction To Machine Learning Applications,"""The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context."" They will also learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+FOUNDATIONS OF DATA SCIENCE,LEC,3,TF,2:00PM,3:20PM,Sebastian Souyris,Lally Hall 104,50,48,2,MGMT,2024-08-28,2024-12-20,FALL 2024,67069,6100,01,MGMT-6100,Foundations Of Data Science,"Every dataset tells a unique story, and in this course, students learn to elicit these stories from data. The course develops students' ability to ask critical questions about their data in order to better understand it. Students will run tests to identify data problems and will learn how to take corrective actions. In addition, the course covers important parametric and non-parametric tests, and discusses their benefits and limitations in a big data world.",None,When Offered: Fall and Spring term annually.,[],[],Management and Technology
+PROFESSIONAL DEVELOPMENT WORKSHOP I,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Carnegie Building 113,65,35,30,MGMT,2024-08-28,2024-12-20,FALL 2024,65822,7230,01,MGMT-7230,Professional Development Workshop I,"This course is the first in a three part series of Professional Development Workshops that teach practical skills in laboratory settings. Over the first three semesters, the MBA cohort student will be exposed to professional skills training, distinguished speakers, and leadership development. This first part will concentrate on building writing and presentation skills, and practicing those skills in the conceptual environment of Leadership, Followership, and Membership.",MBA Cohort.,"When Offered: Fall term of the first year of the MBA cohort, every other week, for six weeks.",[],[],Management and Technology
+COMPUTER INFO SYSTEMS,LEC,4,TF,12:00PM,1:50PM,Nishtha Langer,Pittsburgh Building 5114,31,28,3,MGMT,2024-08-28,2024-12-20,FALL 2024,65288,4140,01,MGMT-4140,Computer Info Systems,"This course provides the undergraduate management student with an introduction to the concept and components of computer-based ""management information systems"" (MIS) and their integration into organizational processes to gain competitive advantage. This course will examine approaches for developing and using information systems in support of business processes. Topics include: the impact of computer-based information systems on organizations; the basic technology components of modern information systems; the process by which information systems are created and changed; and selected management and technology issues.",,"When Offered: Fall, spring, and summer terms anually.",[],[],Management and Technology
 "INVENTION, INNOV & ENTREPREN",LEC,4,MR,2:00PM,3:50PM,Jonathan Daniel Ashdown,Carnegie Building 102,20,9,11,MGMT,2024-08-28,2024-12-20,FALL 2024,65290,4510,01,MGMT-4510,"INVENTION, Innov & Entrepren","This course focuses on three key goals: providing increased insight into the cognitive foundations of entrepreneurship, offering practice in applying creative thinking to the task of formulating ideas for new products or services, and presenting basic information about the organizational process of commercializing such innovations. These goals will be achieved through a combination of assigned readings, in-class exercises, and individual and team projects. In addition, the course will include contributions from guest speakers who will share with the class their own experiences and expertise.",None,When Offered: Fall term annually.,[],[],Management and Technology
 ADV DATA RESOURCE MANAGEMENT,LEC,3,MR,2:00PM,3:50PM,Jonathan Alexis McKinney,Pittsburgh Building 5114,35,10,25,MGMT,2024-08-28,2024-12-20,FALL 2024,68274,6570,01,MGMT-6570,Adv Data Resource Management,"The primary objective of this course is to introduce the multifaceted role of data as a resource of the organization, in three ways. First, it examines the role of data at the operational, tactical, and strategic levels of the organization. Second, it provides students with knowledge and hands on training of technologies that manipulate data, including structured query language (SQL), extraction transformation and loading tools (ETL), data warehousing (DW), online analytical processing (OLAP), and data mining (DM). The course exposes students to big data management techniques. Finally, the course provides students the theory and hands on training to understand the transformation of data to information.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-ADV DATA RESOURCE MANAGEMENT,LEC,3,TF,12:00PM,1:50PM,Jonathan Alexis McKinney,Ricketts Building 212,35,31,4,MGMT,2024-08-28,2024-12-20,FALL 2024,67720,6570,02,MGMT-6570,Adv Data Resource Management,"The primary objective of this course is to introduce the multifaceted role of data as a resource of the organization, in three ways. First, it examines the role of data at the operational, tactical, and strategic levels of the organization. Second, it provides students with knowledge and hands on training of technologies that manipulate data, including structured query language (SQL), extraction transformation and loading tools (ETL), data warehousing (DW), online analytical processing (OLAP), and data mining (DM). The course exposes students to big data management techniques. Finally, the course provides students the theory and hands on training to understand the transformation of data to information.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
-MANAGEMENT IN THE DIGITAL AGE,LEC,4,MR,10:00AM,11:50AM,Adrienne Susan Frank,Low Center for Industrial Inn. 3039,45,45,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65049,1100,01,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
-MANAGEMENT IN THE DIGITAL AGE,LEC,4,MR,2:00PM,3:50PM,M.V. Shyam Kumar,Pittsburgh Building 4206,45,34,11,MGMT,2024-08-28,2024-12-20,FALL 2024,67056,1100,02,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+ADV DATA RESOURCE MANAGEMENT,LEC,3,TF,12:00PM,1:50PM,Jonathan Alexis McKinney,Ricketts Building 212,35,30,5,MGMT,2024-08-28,2024-12-20,FALL 2024,67720,6570,02,MGMT-6570,Adv Data Resource Management,"The primary objective of this course is to introduce the multifaceted role of data as a resource of the organization, in three ways. First, it examines the role of data at the operational, tactical, and strategic levels of the organization. Second, it provides students with knowledge and hands on training of technologies that manipulate data, including structured query language (SQL), extraction transformation and loading tools (ETL), data warehousing (DW), online analytical processing (OLAP), and data mining (DM). The course exposes students to big data management techniques. Finally, the course provides students the theory and hands on training to understand the transformation of data to information.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,MR,10:00AM,11:50AM,Adrienne Susan Frank,Pittsburgh Building 4206,45,45,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65049,1100,01,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,MR,2:00PM,3:50PM,M.V. Shyam Kumar,Pittsburgh Building 4206,45,35,10,MGMT,2024-08-28,2024-12-20,FALL 2024,67056,1100,02,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
 MANAGEMENT IN THE DIGITAL AGE,LEC,4,TF,10:00AM,11:50AM,Margaret A McDermott,Russell Sage Laboratory 3713,45,45,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65048,1100,03,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
-MANAGEMENT IN THE DIGITAL AGE,LEC,4,TF,12:00PM,1:50PM,Margaret A McDermott,Russell Sage Laboratory 3713,45,37,8,MGMT,2024-08-28,2024-12-20,FALL 2024,65050,1100,04,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
-FINL TRADING AND INVESTING,LEC,4,MR,2:00PM,3:50PM,Meimuneh Sumadi,Amos Eaton Hall 216,20,17,3,MGMT,2024-08-28,2024-12-20,FALL 2024,68549,4310,01,MGMT-4310,Finl Trading And Investing,"This course introduces interactive trading in financial instruments. Students learn the principles of asset price discovery through real-time trading in a variety of markets, including equities, bonds, options, derivatives. Topics addressed include asset valuation, portfolio management, and risk management in the context of real-time trading of financial instruments. The course uses the facilities of the Lally School's Virtual Trading Room.",Prerequisites/Corequisites: MGMT 2320,When Offered: Fall term annually.,['MGMT 2320'],['MGMT 2320'],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,TF,12:00PM,1:50PM,Margaret A McDermott,Russell Sage Laboratory 3713,45,45,0,MGMT,2024-08-28,2024-12-20,FALL 2024,65050,1100,04,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+FINL TRADING AND INVESTING,LEC,4,MR,2:00PM,3:50PM,Meimuneh Sumadi,Amos Eaton Hall 216,20,21,-1,MGMT,2024-08-28,2024-12-20,FALL 2024,68549,4310,01,MGMT-4310,Finl Trading And Investing,"This course introduces interactive trading in financial instruments. Students learn the principles of asset price discovery through real-time trading in a variety of markets, including equities, bonds, options, derivatives. Topics addressed include asset valuation, portfolio management, and risk management in the context of real-time trading of financial instruments. The course uses the facilities of the Lally School's Virtual Trading Room.",Prerequisites/Corequisites: MGMT 2320,When Offered: Fall term annually.,['MGMT 2320'],['MGMT 2320'],Management and Technology
 MANAGE DIGITIZATION & TRANSFRM,LEC,3,MR,10:00AM,11:20AM,Thiagarajan Ravichandran,Russell Sage Laboratory 4510,40,26,14,MGMT,2024-08-28,2024-12-20,FALL 2024,68746,6140,01,MGMT-6140,Manage Digitization & Transfrm,"Understanding technology-enabled changes in contemporary business environments, and how insightful executives leverage IT, is key to creating value and winning competitive advantage. This course develops an understanding of cutting-edge technological trends and their potential business impact. The course also explores the business drivers of technology-related decisions in firms and stimulates thought on new applications of technology for commerce, including new products, processes, and business models. Topics covered include: how different business models necessitate different kinds of IT investments; how IT coupled with big data analytics impacts different industries; whether and how IT hastens and aids the growth of disruptive innovations; and how organizations should adapt to the digital economy.",None,When Offered: Spring term annually.,[],[],Management and Technology
-MODELING AND OPTIMIZATION,LEC,3,MR,12:00PM,1:20PM,Mert Hakan Hekimoglu,Low Center for Industrial Inn. 3039,45,49,-4,MGMT,2024-08-28,2024-12-20,FALL 2024,68294,6460,01,MGMT-6460,Modeling And Optimization,"This graduate level course is designed to provide the student with an understanding of the applications of quantitative models, methods, algorithms, and computational techniques across business functions. You will investigate how to apply optimization methods using a hands-on implementation approach.",None,When Offered: Fall term annually.,[],[],Management and Technology
-DATA RESOURCE MANAGEMENT,LEC,4,MR,2:00PM,3:50PM,Jonathan Alexis McKinney,Pittsburgh Building 5114,35,18,17,MGMT,2024-08-28,2024-12-20,FALL 2024,67406,4170,01,MGMT-4170,Data Resource Management,"This is a hands-on course where students will learn a mix of theoretical and practical tools. Using these tools, they will solve a variety of supply chain problems, both analytically and numerically. Students will examine data and use this to understand supply, demand, and inventory levels using R to model many of these problems. The course will also review the data and assess its suitability for modelling. Time series, Markov chain, optimal control, linear programming, statistical analysis, and other mathematical tools will be used to reveal the data's secrets. The bottom line is these insights will be used to make recommendations to firms and other decision makers. Students will also look at qualitative problems through the examination and discussions of cases in class. Not everything can be distilled to a number and so a holistic view of business problems will be taken to make more strategic recommendations. Teams of students will then solve and present these case results",Prerequisites/Corequisites: MGMT 4100 and MGMT 4110,When Offered: Fall and Springs terms annually,"['MGMT 4100', 'MGMT 4110']","['MGMT 4100', 'MGMT 4110']",Management and Technology
-DATA RESOURCE MANAGEMENT,LEC,4,TF,12:00PM,1:50PM,Jonathan Alexis McKinney,Ricketts Building 212,35,4,31,MGMT,2024-08-28,2024-12-20,FALL 2024,68660,4170,02,MGMT-4170,Data Resource Management,"This is a hands-on course where students will learn a mix of theoretical and practical tools. Using these tools, they will solve a variety of supply chain problems, both analytically and numerically. Students will examine data and use this to understand supply, demand, and inventory levels using R to model many of these problems. The course will also review the data and assess its suitability for modelling. Time series, Markov chain, optimal control, linear programming, statistical analysis, and other mathematical tools will be used to reveal the data's secrets. The bottom line is these insights will be used to make recommendations to firms and other decision makers. Students will also look at qualitative problems through the examination and discussions of cases in class. Not everything can be distilled to a number and so a holistic view of business problems will be taken to make more strategic recommendations. Teams of students will then solve and present these case results",Prerequisites/Corequisites: MGMT 4100 and MGMT 4110,When Offered: Fall and Springs terms annually,"['MGMT 4100', 'MGMT 4110']","['MGMT 4100', 'MGMT 4110']",Management and Technology
-INVESTMENTS I,LEC,4,MR,10:00AM,11:50AM,Meimuneh Sumadi,Pittsburgh Building 5114,30,22,8,MGMT,2024-08-28,2024-12-20,FALL 2024,65053,4320,01,MGMT-4320,Investments I,"Introduction to financial markets, financial instruments, and basic investment principles. The course provides students with an understanding of how to value securities, how to assess risk and return tradeoffs, how to make investment decisions, and how to measure investment performance. Topics include market microstructure and impact of technology on securities markets, principles of investment banking, valuation of stocks and bonds and hybrid instruments, portfolio theory, asset pricing models, bond portfolio management, and derivative securities.",Prerequisites/Corequisites: MGMT 2300 and MGMT 2320,When Offered: Fall term annually.,"['MGMT 2300', 'MGMT 2320']","['MGMT 2300', 'MGMT 2320']",Management and Technology
+MODELING AND OPTIMIZATION,LEC,3,MR,12:00PM,1:20PM,Mert Hakan Hekimoglu,Troy Building 2012,45,50,-5,MGMT,2024-08-28,2024-12-20,FALL 2024,68294,6460,01,MGMT-6460,Modeling And Optimization,"This graduate level course is designed to provide the student with an understanding of the applications of quantitative models, methods, algorithms, and computational techniques across business functions. You will investigate how to apply optimization methods using a hands-on implementation approach.",None,When Offered: Fall term annually.,[],[],Management and Technology
+DATA RESOURCE MANAGEMENT,LEC,4,MR,2:00PM,3:50PM,Jonathan Alexis McKinney,Pittsburgh Building 5114,35,19,16,MGMT,2024-08-28,2024-12-20,FALL 2024,67406,4170,01,MGMT-4170,Data Resource Management,"This is a hands-on course where students will learn a mix of theoretical and practical tools. Using these tools, they will solve a variety of supply chain problems, both analytically and numerically. Students will examine data and use this to understand supply, demand, and inventory levels using R to model many of these problems. The course will also review the data and assess its suitability for modelling. Time series, Markov chain, optimal control, linear programming, statistical analysis, and other mathematical tools will be used to reveal the data's secrets. The bottom line is these insights will be used to make recommendations to firms and other decision makers. Students will also look at qualitative problems through the examination and discussions of cases in class. Not everything can be distilled to a number and so a holistic view of business problems will be taken to make more strategic recommendations. Teams of students will then solve and present these case results",Prerequisites/Corequisites: MGMT 4100 and MGMT 4110,When Offered: Fall and Springs terms annually,"['MGMT 4100', 'MGMT 4110']","['MGMT 4100', 'MGMT 4110']",Management and Technology
+DATA RESOURCE MANAGEMENT,LEC,4,TF,12:00PM,1:50PM,Jonathan Alexis McKinney,Ricketts Building 212,35,5,30,MGMT,2024-08-28,2024-12-20,FALL 2024,68660,4170,02,MGMT-4170,Data Resource Management,"This is a hands-on course where students will learn a mix of theoretical and practical tools. Using these tools, they will solve a variety of supply chain problems, both analytically and numerically. Students will examine data and use this to understand supply, demand, and inventory levels using R to model many of these problems. The course will also review the data and assess its suitability for modelling. Time series, Markov chain, optimal control, linear programming, statistical analysis, and other mathematical tools will be used to reveal the data's secrets. The bottom line is these insights will be used to make recommendations to firms and other decision makers. Students will also look at qualitative problems through the examination and discussions of cases in class. Not everything can be distilled to a number and so a holistic view of business problems will be taken to make more strategic recommendations. Teams of students will then solve and present these case results",Prerequisites/Corequisites: MGMT 4100 and MGMT 4110,When Offered: Fall and Springs terms annually,"['MGMT 4100', 'MGMT 4110']","['MGMT 4100', 'MGMT 4110']",Management and Technology
+INVESTMENTS I,LEC,4,MR,10:00AM,11:50AM,Meimuneh Sumadi,Pittsburgh Building 5114,30,23,7,MGMT,2024-08-28,2024-12-20,FALL 2024,65053,4320,01,MGMT-4320,Investments I,"Introduction to financial markets, financial instruments, and basic investment principles. The course provides students with an understanding of how to value securities, how to assess risk and return tradeoffs, how to make investment decisions, and how to measure investment performance. Topics include market microstructure and impact of technology on securities markets, principles of investment banking, valuation of stocks and bonds and hybrid instruments, portfolio theory, asset pricing models, bond portfolio management, and derivative securities.",Prerequisites/Corequisites: MGMT 2300 and MGMT 2320,When Offered: Fall term annually.,"['MGMT 2300', 'MGMT 2320']","['MGMT 2300', 'MGMT 2320']",Management and Technology
 ENTREPRENEURIAL FINANCE,LEC,4,MR,12:00PM,1:50PM,Bill Francis,Carnegie Building 106,20,5,15,MGMT,2024-08-28,2024-12-20,FALL 2024,68745,4540,01,MGMT-4540,Entrepreneurial Finance,"This course covers the theory and practice of venture capital financing of entrepreneurial firms. Topics to be discussed include the structure and governance of venture capital funds, venture capital financial contracting, valuation of entrepreneurial firms, staging, syndication, capital structure, and exits (IPOs, acquisitions, secondary sales, buybacks, and liquidations). International differences in venture capital markets will also be studied. A student cannot receive credit for both the graduate and undergraduate versions of this course",Prerequisites/Corequisites: MGMT 2300 and MGMT 2320.,When Offered: Fall term annually.,"['MGMT 2300', 'MGMT 2320']","['MGMT 2300', 'MGMT 2320']",Management and Technology
-INTRO TO SPORT MANAGEMENT,LEC,4,TF,8:00AM,9:50AM,TBA,Darrin Communications Center 239,10,10,0,MGMT,2024-08-28,2024-12-20,FALL 2024,68653,4964,01,MGMT-4964,Intro To Sport Management,,,,[],[],Management and Technology
+INTRO TO SPORT MANAGEMENT,LEC,4,TF,8:00AM,9:50AM,Lauren Mullen,Darrin Communications Center 239,20,16,4,MGMT,2024-08-28,2024-12-20,FALL 2024,68653,4964,01,MGMT-4964,Intro To Sport Management,,,,[],[],Management and Technology
 DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,15,6,9,MGMT,2024-08-28,2024-12-20,FALL 2024,68994,6600,01,MGMT-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps. When Offered:Fall term annually.",,When Offered: Fall and Spring term annually,[],[],Management and Technology
 DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,10,1,9,MGMT,2024-08-28,2024-12-20,FALL 2024,69185,6600,02,MGMT-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps. When Offered:Fall term annually.",,When Offered: Fall and Spring term annually,[],[],Management and Technology
-DISSERTATION,LEC,1-15,,,,Thiagarajan Ravichandran,TBA,10,1,9,MGMT,2024-08-28,2024-12-20,FALL 2024,65178,9990,01,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Thiagarajan Ravichandran,TBA,10,2,8,MGMT,2024-08-28,2024-12-20,FALL 2024,65178,9990,01,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
 DISSERTATION,LEC,1-15,,,,Timothy D. Golden,TBA,10,1,9,MGMT,2024-08-28,2024-12-20,FALL 2024,66131,9990,02,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
 DISSERTATION,LEC,1-15,,,,Brian John Clark,TBA,10,3,7,MGMT,2024-08-28,2024-12-20,FALL 2024,67469,9990,03,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
 DISSERTATION,LEC,1-15,,,,Christopher McDermott,TBA,10,0,10,MGMT,2024-08-28,2024-12-20,FALL 2024,66016,9990,04,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
@@ -1552,12 +1590,12 @@ DISSERTATION,LEC,1-15,,,,Dorit Nevo,TBA,10,0,10,MGMT,2024-08-28,2024-12-20,FALL
 DISSERTATION,LEC,1-15,,,,Sebastian Souyris,TBA,10,0,10,MGMT,2024-08-28,2024-12-20,FALL 2024,66998,9990,16,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
 DISSERTATION,LEC,1-15,,,,Jason Nicholas Kuruzovich,TBA,10,3,7,MGMT,2024-08-28,2024-12-20,FALL 2024,66642,9990,17,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
 DISSERTATION,LEC,1-15,,,,M.V. Shyam Kumar,TBA,10,0,10,MGMT,2024-08-28,2024-12-20,FALL 2024,66739,9990,18,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
-DISSERTATION,LEC,1-15,,,,TBA,TBA,10,1,9,MGMT,2024-08-28,2024-12-20,FALL 2024,66813,9990,20,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
-"ENGINEERING, SCI & MGMT SEMR",LEC,0,W,11:00AM,11:50AM,Margaret A McDermott,Pittsburgh Building 4114,20,5,15,MGMT,2024-08-28,2024-12-20,FALL 2024,69902,4550,01,MGMT-4550,"ENGINEERING, Sci & Mgmt Semr","This seminar sequence is designed for engineering and science undergraduates interested in pursuing the accelerated MBA program. This seminar is a dynamic and interactive course designed to provide students with an introductory understanding of the contemporary business landscape. Topics will vary, but may include strategy, operations and supply chain, entrepreneurship, marketing, financial management, and ethical considerations in business. Through a combination of guest speaker presentations, activities, and discussions, students will explore the multifaceted aspects of business management.",None.,When Offered: Spring and Fall annually,[],[],Management and Technology
-"ENGINEERING, SCI & MGMT SEMR",LEC,0,,,,Margaret A McDermott,TBA,20,12,8,MGMT,2024-08-28,2024-12-20,FALL 2024,69903,4550,02,MGMT-4550,"ENGINEERING, Sci & Mgmt Semr","This seminar sequence is designed for engineering and science undergraduates interested in pursuing the accelerated MBA program. This seminar is a dynamic and interactive course designed to provide students with an introductory understanding of the contemporary business landscape. Topics will vary, but may include strategy, operations and supply chain, entrepreneurship, marketing, financial management, and ethical considerations in business. Through a combination of guest speaker presentations, activities, and discussions, students will explore the multifaceted aspects of business management.",None.,When Offered: Spring and Fall annually,[],[],Management and Technology
-COMP ADVANT & OPERATIONS STRAT,LEC,3,TF,12:00PM,1:20PM,Christopher McDermott,Walker Laboratory 6113,55,43,12,MGMT,2024-08-28,2024-12-20,FALL 2024,67070,6490,01,MGMT-6490,Comp Advant & Operations Strat,This course includes topics such as manufacturing as a competitive weapon; management of quality; manufacturing technology implementation; strategic impact of advanced manufacturing technologies; and manufacturing's role in new product development.,,When Offered: Fall term annually.,[],[],Management and Technology
-COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Low Center for Industrial Inn. 3112,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,69729,6963,01,ASTR-6963,Cosmology,,,,[],[],Science
-INTRO ASTRONOMY & ASTROPHYS,LEC,4,MR,2:00PM,3:50PM,Victor Hugo Robles Sanchez,Darrin Communications Center 337,100,45,55,ASTR,2024-08-28,2024-12-20,FALL 2024,66923,2050,01,ASTR-2050,Intro Astronomy & Astrophys,"Astronomy for students with a background of college mathematics and physics. Topics include: astrophysical concepts, solar system basics, stellar astronomy and the interstellar medium, the Milky Way system, galaxies, quasars, and cosmology.",Prerequisites/Corequisites: Corequisite: PHYS 1200 or PHYS 1250 (either course may be taken concurrent),When Offered: Fall term annually.,"['PHYS 1200', 'PHYS 1250']","['PHYS 1200', 'PHYS 1250']",Science
+DISSERTATION,LEC,1-15,,,,Saggi Nevo,TBA,10,1,9,MGMT,2024-08-28,2024-12-20,FALL 2024,66813,9990,20,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+"ENGINEERING, SCI & MGMT SEMR",LEC,0,W,12:00PM,12:50PM,Margaret A McDermott,Pittsburgh Building 5216,20,12,8,MGMT,2024-08-28,2024-12-20,FALL 2024,69902,4550,01,MGMT-4550,"ENGINEERING, Sci & Mgmt Semr","This seminar sequence is designed for engineering and science undergraduates interested in pursuing the accelerated MBA program. This seminar is a dynamic and interactive course designed to provide students with an introductory understanding of the contemporary business landscape. Topics will vary, but may include strategy, operations and supply chain, entrepreneurship, marketing, financial management, and ethical considerations in business. Through a combination of guest speaker presentations, activities, and discussions, students will explore the multifaceted aspects of business management.",None.,When Offered: Spring and Fall annually,[],[],Management and Technology
+"ENGINEERING, SCI & MGMT SEMR",LEC,0,,,,Margaret A McDermott,TBA,20,7,13,MGMT,2024-08-28,2024-12-20,FALL 2024,69903,4550,02,MGMT-4550,"ENGINEERING, Sci & Mgmt Semr","This seminar sequence is designed for engineering and science undergraduates interested in pursuing the accelerated MBA program. This seminar is a dynamic and interactive course designed to provide students with an introductory understanding of the contemporary business landscape. Topics will vary, but may include strategy, operations and supply chain, entrepreneurship, marketing, financial management, and ethical considerations in business. Through a combination of guest speaker presentations, activities, and discussions, students will explore the multifaceted aspects of business management.",None.,When Offered: Spring and Fall annually,[],[],Management and Technology
+COMP ADVANT & OPERATIONS STRAT,LEC,3,TF,12:00PM,1:20PM,Christopher McDermott,Walker Laboratory 6113,55,45,10,MGMT,2024-08-28,2024-12-20,FALL 2024,67070,6490,01,MGMT-6490,Comp Advant & Operations Strat,This course includes topics such as manufacturing as a competitive weapon; management of quality; manufacturing technology implementation; strategic impact of advanced manufacturing technologies; and manufacturing's role in new product development.,,When Offered: Fall term annually.,[],[],Management and Technology
+COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Carnegie Building 102,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,69729,6963,01,ASTR-6963,Cosmology,,,,[],[],Science
+INTRO ASTRONOMY & ASTROPHYS,LEC,4,MR,2:00PM,3:50PM,Victor Hugo Robles Sanchez,Darrin Communications Center 337,100,37,63,ASTR,2024-08-28,2024-12-20,FALL 2024,66923,2050,01,ASTR-2050,Intro Astronomy & Astrophys,"Astronomy for students with a background of college mathematics and physics. Topics include: astrophysical concepts, solar system basics, stellar astronomy and the interstellar medium, the Milky Way system, galaxies, quasars, and cosmology.",Prerequisites/Corequisites: Corequisite: PHYS 1200 or PHYS 1250 (either course may be taken concurrent),When Offered: Fall term annually.,"['PHYS 1200', 'PHYS 1250']","['PHYS 1200', 'PHYS 1250']",Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Glenn Ciolek,TBA,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,68854,6970,01,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Ethan Craig Brown,TBA,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,67680,6970,02,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Heidi Jo Newberg,TBA,10,1,9,ASTR,2024-08-28,2024-12-20,FALL 2024,68273,6970,03,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
@@ -1565,21 +1603,22 @@ MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Charles Harold Martin,TBA,10,0,10,ASTR,2
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Ravishankar Sundararaman,TBA,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,68860,6970,05,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Victor Hugo Robles Sanchez,TBA,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,69019,6970,07,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Yong Zheng,TBA,10,0,10,ASTR,2024-08-28,2024-12-20,FALL 2024,69324,6970,09,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
-COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Low Center for Industrial Inn. 3112,10,2,8,ASTR,2024-08-28,2024-12-20,FALL 2024,69726,4963,01,ASTR-4963,Cosmology,,,,[],[],Science
+COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Carnegie Building 102,10,1,9,ASTR,2024-08-28,2024-12-20,FALL 2024,69726,4963,01,ASTR-4963,Cosmology,,,,[],[],Science
 EARTH AND SKY,LEC,4,MR,12:00PM,1:50PM,Charles Harold Martin,Pittsburgh Building 5216,55,59,-4,ASTR,2024-08-28,2024-12-20,FALL 2024,69884,1540,01,ASTR-1540,Earth And Sky,,,When Offered: Fall and summer terms annually.,[],[],Science
 MICROBIAL PATHOGENESIS,LEC,4,TF,10:00AM,11:50AM,Blanca L. Barquera,Lally Hall 02,5,0,5,BCBP,2024-08-28,2024-12-20,FALL 2024,69760,6345,01,BCBP-6345,Microbial Pathogenesis,This course is an advanced Microbiology course on the mechanisms of microbial pathogenesis. The course will examine the common features on how microbes cause disease. The course will be based on lectures and students' presentations.,,When Offered: Fall annually,[],[],Science
-METHODS IN BIOPHYSICS,LEC,4,TF,10:00AM,11:50AM,Catherine Ann Royer,Jonsson-Rowland Science Center 2C25,30,17,13,BCBP,2024-08-28,2024-12-20,FALL 2024,67254,4800,01,BCBP-4800,Methods In Biophysics,"Biophysics addresses the physical principles of biological function, which requires the application of physical methods. The focus of this course is on methods used to study the interactions and dynamics of biomolecules in vitro, primarily proteins and nucleic acids. Both the theoretical and methodological aspects of molecular biophysical methods will be covered. This course is designed as an interdisciplinary introduction to the field and is open to students in biology, chemistry, physics, or engineering.",Prerequisite: BCBP 4760 or BIOL 4760 or CHEM 4760; or permission of instructor.,When Offered: Fall term annually.,"['BCBP 4760', 'BIOL 4760', 'CHEM 4760']","['BCBP 4760', 'BIOL 4760', 'CHEM 4760']",Science
+METHODS IN BIOPHYSICS,LEC,4,TF,10:00AM,11:50AM,Catherine Ann Royer,Jonsson-Rowland Science Center 2C25,30,13,17,BCBP,2024-08-28,2024-12-20,FALL 2024,67254,4800,01,BCBP-4800,Methods In Biophysics,"Biophysics addresses the physical principles of biological function, which requires the application of physical methods. The focus of this course is on methods used to study the interactions and dynamics of biomolecules in vitro, primarily proteins and nucleic acids. Both the theoretical and methodological aspects of molecular biophysical methods will be covered. This course is designed as an interdisciplinary introduction to the field and is open to students in biology, chemistry, physics, or engineering.",Prerequisite: BCBP 4760 or BIOL 4760 or CHEM 4760; or permission of instructor.,When Offered: Fall term annually.,"['BCBP 4760', 'BIOL 4760', 'CHEM 4760']","['BCBP 4760', 'BIOL 4760', 'CHEM 4760']",Science
 BIOCHEMISTRY RESEARCH,LEC,1-6,,,,Wilfredo Colon,TBA,80,1,79,BCBP,2024-08-28,2024-12-20,FALL 2024,65191,4980,01,BCBP-4980,Biochemistry Research,,,,[],[],Science
-PROTEIN STRUCTURE DETERMIN.,LEC,4,MR,10:00AM,11:50AM,Chunyu Wang,Darrin Communications Center 239,20,9,11,BCBP,2024-08-28,2024-12-20,FALL 2024,66043,4870,01,BCBP-4870,Protein Structure DETERMIN.,"X-ray crystallography and nuclear magnetic resonance (NMR) are used to determine 3-D structures of biological macromolecules at atomic resolution. The course will cover crystallographic and NMR methods, their theory and practice, along with thermodynamics of structure formation and molecular dynamics. Students will prepare a poster presentation on a protein of their choice.","Prerequisites: BCBP 4760, BIOL 4760, or CHEM 4760; and MATH 1020, and PHYS 1200 or equivalents.",When Offered: Fall term annually,"['BCBP 4760', 'BIOL 4760', 'CHEM 4760', 'MATH 1020', 'PHYS 1200']","['BCBP 4760', 'BIOL 4760', 'CHEM 4760', 'MATH 1020', 'PHYS 1200']",Science
-SENIOR RESEARCH THESIS,LEC,4,,,,Scott Thomas Forth,TBA,10,1,9,BCBP,2024-08-28,2024-12-20,FALL 2024,66154,4990,02,BCBP-4990,Senior Research Thesis,"Independent laboratory research, on or off campus, supervised by a faculty member, culminating in a written thesis; or literature research culminating in the writing of a review article. The thesis research must also be presented in the form of a poster presentation or a talk. This is a communication-intensive course.",Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+PROTEIN STRUCTURE DETERMIN.,LEC,4,MR,10:00AM,11:50AM,Chunyu Wang,Darrin Communications Center 239,20,10,10,BCBP,2024-08-28,2024-12-20,FALL 2024,66043,4870,01,BCBP-4870,Protein Structure DETERMIN.,"X-ray crystallography and nuclear magnetic resonance (NMR) are used to determine 3-D structures of biological macromolecules at atomic resolution. The course will cover crystallographic and NMR methods, their theory and practice, along with thermodynamics of structure formation and molecular dynamics. Students will prepare a poster presentation on a protein of their choice.","Prerequisites: BCBP 4760, BIOL 4760, or CHEM 4760; and MATH 1020, and PHYS 1200 or equivalents.",When Offered: Fall term annually,"['BCBP 4760', 'BIOL 4760', 'CHEM 4760', 'MATH 1020', 'PHYS 1200']","['BCBP 4760', 'BIOL 4760', 'CHEM 4760', 'MATH 1020', 'PHYS 1200']",Science
 TOPICS IN CIRCADIAN BIOLOGY,LEC,2,W,9:00AM,10:50AM,Jennifer Marie Hurley,TBA,0,0,0,BCBP,2024-08-28,2024-12-20,FALL 2024,69193,4240,01,BCBP-4240,Topics In Circadian Biology,"This is an in-depth study of current papers within the broad field of Circadian Biology. Students will read and critique recent primary literature, present current research articles, and lead discussions on new findings in the field.",,When Offered: Fall term annually.,[],[],Science
 MICROBIAL PATHOGENESIS,LEC,4,TF,10:00AM,11:50AM,Blanca L. Barquera,Lally Hall 02,20,4,16,BCBP,2024-08-28,2024-12-20,FALL 2024,69759,4345,01,BCBP-4345,Microbial Pathogenesis,This course is an advanced Microbiology course on the mechanisms of microbial pathogenesis. The course will examine the common features on how microbes cause disease. The course will be based on lectures and students' presentations.,Prerequisite: BIOL 4310 and permission of instructor,When Offered: Fall annually,['BIOL 4310'],['BIOL 4310'],Science
 PROFESSIONAL PROJECT,LEC,1-9,,,,Jennifer Marie Hurley,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,68871,6970,01,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
 PROFESSIONAL PROJECT,LEC,1-9,,,,Catherine Ann Royer,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,68915,6970,02,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
-PROFESSIONAL PROJECT,LEC,1-9,,,,Blanca L. Barquera,TBA,10,1,9,BCBP,2024-08-28,2024-12-20,FALL 2024,69815,6970,03,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-9,,,,Blanca L. Barquera,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,69815,6970,03,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-9,,,,Gaetano T. Montelione,TBA,10,1,9,BCBP,2024-08-28,2024-12-20,FALL 2024,69918,6970,04,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-9,,,,Benjamin Larson,TBA,10,1,9,BCBP,2024-08-28,2024-12-20,FALL 2024,70127,6970,05,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
 METHODS IN BIOPHYSICS,LEC,4,TF,10:00AM,11:50AM,Catherine Ann Royer,Jonsson-Rowland Science Center 2C25,30,2,28,BCBP,2024-08-28,2024-12-20,FALL 2024,67255,6800,01,BCBP-6800,Methods In Biophysics,"Biophysics addresses the physical principles of biological function, which requires the application of physical methods. The focus of this course is on methods used to study the interactions and dynamics of biomolecules in vitro, primarily proteins and nucleic acids. It will cover both the theoretical and methodological aspects of molecular biophysical methods. This course is designed as an interdisciplinary introduction to the field and is open to students in biology, chemistry, physics, or engineering.",Prerequisite: BCBP 4760 or permission of instructor.,When Offered: Fall term annually.,['BCBP 4760'],['BCBP 4760'],Science
 PROTEIN STRUCTURE DETERMIN.,LEC,4,MR,10:00AM,11:50AM,Christopher Bystroff/Chunyu Wang,Darrin Communications Center 239,10,8,2,BCBP,2024-08-28,2024-12-20,FALL 2024,66044,6870,01,BCBP-6870,Protein Structure DETERMIN.,"X-ray crystallography and nuclear magnetic resonance (NMR) are used to determine 3-D structures of biological macromolecules at atomic resolution. The course will cover crystallographic and NMR methods, their theory and practice, along with thermodynamics of structure formation and molecular dynamics. Students will prepare an oral presentation on a protein of their choice.","Prerequisites: BCBP 4760, MATH 1020, and PHYS 1200 or equivalents.",When Offered: Fall term even-numbered years.,"['BCBP 4760', 'MATH 1020', 'PHYS 1200']","['BCBP 4760', 'MATH 1020', 'PHYS 1200']",Science
-DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,2,3,BCBP,2024-08-28,2024-12-20,FALL 2024,68859,4600,01,BCBP-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,4,1,BCBP,2024-08-28,2024-12-20,FALL 2024,68859,4600,01,BCBP-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and Spring term annually,[],[],Science
 RESEARCH ROTATION,LEC,4,,,,Catherine Ann Royer,TBA,10,5,5,BCBP,2024-08-28,2024-12-20,FALL 2024,67256,6910,01,BCBP-6910,Research Rotation,"The student will perform hands on research in the lab of a BCBP faculty to learn basic research methods and techniques, accomplish a small research project and determine whether the lab is a good fit for thesis research.",Restricted to first year BCBP graduate students.,When Offered: Spring and fall terms annually.,[],[],Science
 DISSERTATION,LEC,12,,,,Mattheos Koffas,TBA,10,1,9,BCBP,2024-08-28,2024-12-20,FALL 2024,66290,9990,02,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Lee Ligon,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,66291,9990,03,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -1606,35 +1645,34 @@ DISSERTATION,LEC,1-15,,,,Moussa Ngom,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL
 DISSERTATION,LEC,1-15,,,,Deepak Vashishth,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,68889,9990,24,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Esther Alexandra Wertz,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,68890,9990,25,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Runye H. Zha,TBA,10,0,10,BCBP,2024-08-28,2024-12-20,FALL 2024,68891,9990,26,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-MOLECULAR BIOCHEM I,LEC,4,MR,10:00AM,11:50AM,George I. Makhatadze,Darrin Communications Center 330,100,30,70,BCBP,2024-08-28,2024-12-20,FALL 2024,65062,4760,01,BCBP-4760,Molecular Biochem I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites: CHEM 2250 and; BIOL 1010 or BIOL 2120,When Offered: Fall and summer terms annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
-TOPICS IN CIRCADIAN BIOLOGY,LEC,2,W,9:00AM,10:50AM,Jennifer Marie Hurley,TBA,0,1,-1,BCBP,2024-08-28,2024-12-20,FALL 2024,69194,6240,01,BCBP-6240,Topics In Circadian Biology,"This is an in-depth study of current papers within the broad field of Circadian Biology. Students will read and critique recent primary literature, present current research articles, and lead discussions on new findings in the field.",,When Offered: Fall term annually.,[],[],Science
+MOLECULAR BIOCHEM I,LEC,4,MR,10:00AM,11:50AM,George I. Makhatadze,Darrin Communications Center 330,100,34,66,BCBP,2024-08-28,2024-12-20,FALL 2024,65062,4760,01,BCBP-4760,Molecular Biochem I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites: CHEM 2250 and; BIOL 1010 or BIOL 2120,When Offered: Fall and summer terms annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
+TOPICS IN CIRCADIAN BIOLOGY,LEC,2,W,9:00AM,10:50AM,Jennifer Marie Hurley,TBA,0,2,-2,BCBP,2024-08-28,2024-12-20,FALL 2024,69194,6240,01,BCBP-6240,Topics In Circadian Biology,"This is an in-depth study of current papers within the broad field of Circadian Biology. Students will read and critique recent primary literature, present current research articles, and lead discussions on new findings in the field.",,When Offered: Fall term annually.,[],[],Science
 BIOLOGY CORE COURSE I,LEC,4,MWF,4:00PM,5:20PM,Lee Ligon,Jonsson-Rowland Science Center 2C13,15,10,5,BIOL,2024-08-28,2024-12-20,FALL 2024,66431,6510,01,BIOL-6510,Biology Core Course I,"An intensive course designed to provide instruction and stimulate discussion on important topics relevant to biological research. It is loosely divided into three sections: 1) overview of major areas of faculty research; 2) professional development topics such as research ethics and responsible conduct of research, scientific communication, career options, and software tools for science (i.e. structural biology toolkits, bioinformatics tools, graphics packages, etc.); and 3) scientific writing. This course is required of and limited to first year students in the Biology and Biochemistry/Biophysics Ph.D. programs.",Completed bachelor's degree or permission of instructor.,When Offered: Fall term annually.,[],[],Science
-GENETICS & EVOLUTION,LEC,4,MR,10:00AM,11:50AM,Richard Peter Bonocora,Darrin Communications Center 337,110,102,8,BIOL,2024-08-28,2024-12-20,FALL 2024,65299,2500,01,BIOL-2500,Genetics & Evolution,"Mechanisms of inheritance in eukaryotes and prokaryotes; genetic mapping, gene expression, cloning and sequencing; quantitative and population genetics, and synthetic theory of evolution.",Prerequisite: BIOL 2120.,When Offered: Fall term annually.,['BIOL 2120'],['BIOL 2120'],Science
-ADV TOPICS: ECOLOGY & ENV BIOL,LEC,2,R,10:00AM,11:50AM,Kevin Christopher Rose,Russell Sage Laboratory 2704,15,1,14,BIOL,2024-08-28,2024-12-20,FALL 2024,69755,4500,01,BIOL-4500,Adv TOPICS: Ecology & Env Biol,"Students in this course will complete an in-depth study of current peer reviewed literature and topics in the field of ecology and environmental biology. Students will read and critique peer-reviewed papers and present and lead discussions on peer-reviewed articles. Topics covered will include populations and biological communities, biodiversity, ecosystem structures and habitats, climate change, and ecosystem attributes.",,When Offered: Fall annually,[],[],Science
+GENETICS & EVOLUTION,LEC,4,MR,10:00AM,11:50AM,Richard Peter Bonocora,Darrin Communications Center 337,110,101,9,BIOL,2024-08-28,2024-12-20,FALL 2024,65299,2500,01,BIOL-2500,Genetics & Evolution,"Mechanisms of inheritance in eukaryotes and prokaryotes; genetic mapping, gene expression, cloning and sequencing; quantitative and population genetics, and synthetic theory of evolution.",Prerequisite: BIOL 2120.,When Offered: Fall term annually.,['BIOL 2120'],['BIOL 2120'],Science
+ADV TOPICS: ECOLOGY & ENV BIOL,LEC,2,R,10:00AM,11:50AM,Kevin Christopher Rose,Ricketts Building 208,15,1,14,BIOL,2024-08-28,2024-12-20,FALL 2024,69755,4500,01,BIOL-4500,Adv TOPICS: Ecology & Env Biol,"Students in this course will complete an in-depth study of current peer reviewed literature and topics in the field of ecology and environmental biology. Students will read and critique peer-reviewed papers and present and lead discussions on peer-reviewed articles. Topics covered will include populations and biological communities, biodiversity, ecosystem structures and habitats, climate change, and ecosystem attributes.",,When Offered: Fall annually,[],[],Science
 CYTOSKELETAL BIOLOGY,LEC,2,M,10:00AM,11:50AM,Marvin D Bentley,Russell Sage Laboratory 2707,15,0,15,BIOL,2024-08-28,2024-12-20,FALL 2024,69045,4140,01,BIOL-4140,Cytoskeletal Biology,"This course is an in-depth study of current research within the broad field of cytoskeletal biology. Students will read, interpret, and critique recent primary literature, present new findings, lead discussions, and identify rising questions in the field.",Prerequisite: BIOL 4260 and permission of instructor.,,['BIOL 4260'],['BIOL 4260'],Science
-FROM NEURON TO BEHAVIOR,LEC,4,MR,6:00PM,7:50PM,Robert Wallace Flint,Low Center for Industrial Inn. 4050,25,3,22,BIOL,2024-08-28,2024-12-20,FALL 2024,68768,6100,01,BIOL-6100,From Neuron To Behavior,"A detailed survey of important topics in the neurosciences. Some of the topics to be covered in this class are: basic mechanisms of neural signaling (neurophysiology, synaptic transmission, and molecular signaling; understanding of sensation/movement and in particular how it relates to neuroanatomy; neurodevelopment and how the mature brain can change (plasticity); and complex brain functions and neurological disease. Students prepare analyses and make a presentation of a paper in the original literature.","Prerequisites: BIOL 1010, BIOL 2120 or permission of the instructor.",When Offered: Fall term annually.,"['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+FROM NEURON TO BEHAVIOR,LEC,4,MR,6:00PM,7:50PM,Robert Wallace Flint,Low Center for Industrial Inn. 4050,25,4,21,BIOL,2024-08-28,2024-12-20,FALL 2024,68768,6100,01,BIOL-6100,From Neuron To Behavior,"A detailed survey of important topics in the neurosciences. Some of the topics to be covered in this class are: basic mechanisms of neural signaling (neurophysiology, synaptic transmission, and molecular signaling; understanding of sensation/movement and in particular how it relates to neuroanatomy; neurodevelopment and how the mature brain can change (plasticity); and complex brain functions and neurological disease. Students prepare analyses and make a presentation of a paper in the original literature.","Prerequisites: BIOL 1010, BIOL 2120 or permission of the instructor.",When Offered: Fall term annually.,"['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
 SEQUENCE ANALYSIS,LEC,4,MR,2:00PM,3:50PM,Keith Fraser,Jonsson Engineering Center 3207,20,8,12,BIOL,2024-08-28,2024-12-20,FALL 2024,66430,4540,01,BIOL-4540,Sequence Analysis,"This course covers the theory and practice of biological sequence analysis, including algorithms for pairwise sequence alignment, multiple sequence alignment, phylogenetic analysis, and database searching. Concepts covered include homology, sequence similarity, parsimony, mechanisms and metrics of molecular evolution, biological data bases, database search algorithms (BLAST), and statistical significance. Selected topics include hidden Markov models, bootstrap analysis and gene finding. Modern sequence analysis software will be provided. Laptop computers and programming knowledge are required. Meets jointly with BIOL 6410.","Prerequisites: MATH 1020, BIOL 4620 and CSCI 1200, or equivalents.",When Offered: Fall term annually.,"['MATH 1020', 'BIOL 4620', 'CSCI 1200']","['MATH 1020', 'BIOL 4620', 'CSCI 1200']",Science
 CYTOSKELETAL BIOLOGY,LEC,2,M,10:00AM,11:50AM,Marvin D Bentley,Russell Sage Laboratory 2707,15,6,9,BIOL,2024-08-28,2024-12-20,FALL 2024,69046,6140,01,BIOL-6140,Cytoskeletal Biology,"This course is an in-depth study of current research within the broad field of cytoskeletal biology. Students will read, interpret, and critique recent primary literature, present new findings, lead discussions, and identify rising questions in the field.",Prerequisites/Corequisites: BIOL 4260 and permission of instructor,,['BIOL 4260'],['BIOL 4260'],Science
-BIOSTATISTICS,LEC,4,TF,2:00PM,3:50PM,Jonathan T Stetler,Russell Sage Laboratory 3704,30,32,-2,BIOL,2024-08-28,2024-12-20,FALL 2024,66961,4200,01,BIOL-4200,Biostatistics,"An introduction to the concepts and techniques of modern statistics. Computer-based, in-class sessions will emphasize hands-on application of statistical techniques using data and examples drawn from the biological and medical sciences. Pre-class, online exercises will prepare students for in-depth classroom explorations. Topics covered will include sampling, regression, analysis of variance, and factor analysis, MANOVA, maximum likelihood methods, discriminant analysis, time series analysis, and forecasting. The final project requires analysis of a major research-related data set and write-up of results in the format of a scientific paper.","Prerequisites: BIOL 1010 and MATH 1010, or permission of the instructor.","When Offered: Fall, spring, and summer term annually.","['BIOL 1010', 'MATH 1010']","['BIOL 1010', 'MATH 1010']",Science
+BIOSTATISTICS,LEC,4,TF,2:00PM,3:50PM,Jonathan T Stetler,Russell Sage Laboratory 3704,30,31,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,66961,4200,01,BIOL-4200,Biostatistics,"An introduction to the concepts and techniques of modern statistics. Computer-based, in-class sessions will emphasize hands-on application of statistical techniques using data and examples drawn from the biological and medical sciences. Pre-class, online exercises will prepare students for in-depth classroom explorations. Topics covered will include sampling, regression, analysis of variance, and factor analysis, MANOVA, maximum likelihood methods, discriminant analysis, time series analysis, and forecasting. The final project requires analysis of a major research-related data set and write-up of results in the format of a scientific paper.","Prerequisites: BIOL 1010 and MATH 1010, or permission of the instructor.","When Offered: Fall, spring, and summer term annually.","['BIOL 1010', 'MATH 1010']","['BIOL 1010', 'MATH 1010']",Science
 THE GLOBAL ENVIRONMENT,LEC,4,TF,10:00AM,11:50AM,Kevin Christopher Rose,Darrin Communications Center 232,30,22,8,BIOL,2024-08-28,2024-12-20,FALL 2024,69139,4880,01,BIOL-4880,The Global Environment,"This 4-credit course will explore global environmental cycles, patterns, and changes. It will discuss elemental cycles of phosphorus, nitrogen, and carbon, and pollutants such as mercury, lead, and CFCs, and how changes in these cycles influence organisms and ecosystems. Also discussed will be large-scale biotic processes and theory about ecosystem dynamics. Major environmental issues such as acid rain, eutrophication, climate change, and land use conversation will also be discussed.",Prerequisites: BIOL 1010/BIOL 1015 and BIOL 2120/BIOL 2125,When Offered: Spring term annually.,"['BIOL 1010', 'BIOL 1015', 'BIOL 2120', 'BIOL 2125']","['BIOL 1010', 'BIOL 1015', 'BIOL 2120', 'BIOL 2125']",Science
-MACHINE LEARNING FOR ENVIRONMENTAL BIOLOGY,LEC,4,MR,10:00AM,11:50AM,Jeremy Lynch Farrell,Ricketts Building 212,20,14,6,BIOL,2024-08-28,2024-12-20,FALL 2024,68278,4220,01,BIOL-4220,Machine Learning For Environmental Biology,"This course is designed to create an applied learning environment to introduce students to large scale datasets in the environmental field and learn advanced techniques for analyzing them. Students will learn multivariate data exploration techniques, evaluate the quality of large datasets, and analyze the data using machine learning techniques. Specifically students will propose, develop, and finalize projects where they will apply machine learning approaches to datasets to understand complex environmental biology processes. Along with these topics, students will learn to critically read current scientific literature relevant to their projects.",Prerequisite: BIOL 4200 or by permission of the instructor.Attributes Data Intensive 2,When Offered: Fall term annually.,['BIOL 4200'],['BIOL 4200'],Science
-MACHINE LEARNING FOR ENVIRONMENTAL BIOLOGY,LEC,4,MR,10:00AM,11:50AM,Jeremy Lynch Farrell,Ricketts Building 212,10,2,8,BIOL,2024-08-28,2024-12-20,FALL 2024,68279,6220,01,BIOL-6220,Machine Learning For Environmental Biology,"This course is designed to create an applied learning environment to introduce students to large scale datasets in the environmental field and learn advanced techniques for analyzing them. Students will learn multivariate data exploration techniques, evaluate the quality of large datasets, and analyze the data using machine learning techniques. Specifically students will propose, develop, and finalize projects where they will apply machine learning approaches to datasets to understand complex environmental biology processes. Along with these topics, students will learn to critically read current scientific literature relevant to their projects.",Prerequisite: BIOL 4200 or by permission of the instructor.,When Offered: Fall term annually.,['BIOL 4200'],['BIOL 4200'],Science
+MACHINE LEARNING FOR ENVIRONMENTAL BIOLOGY,LEC,4,MR,10:00AM,11:50AM,Jeremy Lynch Farrell,Ricketts Building 212,20,13,7,BIOL,2024-08-28,2024-12-20,FALL 2024,68278,4220,01,BIOL-4220,Machine Learning For Environmental Biology,"This course is designed to create an applied learning environment to introduce students to large scale datasets in the environmental field and learn advanced techniques for analyzing them. Students will learn multivariate data exploration techniques, evaluate the quality of large datasets, and analyze the data using machine learning techniques. Specifically students will propose, develop, and finalize projects where they will apply machine learning approaches to datasets to understand complex environmental biology processes. Along with these topics, students will learn to critically read current scientific literature relevant to their projects.",Prerequisite: BIOL 4200 or by permission of the instructor.Attributes Data Intensive 2,When Offered: Fall term annually.,['BIOL 4200'],['BIOL 4200'],Science
+MACHINE LEARNING FOR ENVIRONMENTAL BIOLOGY,LEC,4,MR,10:00AM,11:50AM,Jeremy Lynch Farrell,Ricketts Building 212,10,5,5,BIOL,2024-08-28,2024-12-20,FALL 2024,68279,6220,01,BIOL-6220,Machine Learning For Environmental Biology,"This course is designed to create an applied learning environment to introduce students to large scale datasets in the environmental field and learn advanced techniques for analyzing them. Students will learn multivariate data exploration techniques, evaluate the quality of large datasets, and analyze the data using machine learning techniques. Specifically students will propose, develop, and finalize projects where they will apply machine learning approaches to datasets to understand complex environmental biology processes. Along with these topics, students will learn to critically read current scientific literature relevant to their projects.",Prerequisite: BIOL 4200 or by permission of the instructor.,When Offered: Fall term annually.,['BIOL 4200'],['BIOL 4200'],Science
 RESEARCH ROTATION I,LEC,4,,,,Jennifer Marie Hurley,TBA,25,5,20,BIOL,2024-08-28,2024-12-20,FALL 2024,65452,6965,01,BIOL-6965,Research Rotation I,,,,[],[],Science
-TOPICS IN CIRCADIAN BIOLOGY,LEC,2,W,9:00AM,10:50AM,Jennifer Marie Hurley,TBA,0,0,0,BIOL,2024-08-28,2024-12-20,FALL 2024,69043,4240,01,BIOL-4240,Topics In Circadian Biology,"This is an in-depth study of current papers within the broad field of Circadian Biology. Students will read and critique recent primary literature, present current research articles, and lead discussions on new findings in the field.",By permission of instructor only.,When Offered: Fall term annually.,[],[],Science
-MOLECULAR BIOLOGY II,LEC,4,MR,8:00AM,9:50AM,Keith Fraser,Jonsson Engineering Center 3207,30,15,15,BIOL,2024-08-28,2024-12-20,FALL 2024,66130,4630,01,BIOL-4630,Molecular Biology Ii,"Students will use a variety of tools (textbooks, scientific journals, and Internet resources including molecular databases and data mining tools) to increase understanding of genes, their expression, their products, and their inter-relatedness. Meets together with BIOL 6690.",Prerequisite: BIOL 4620 and BIOL 4760.Attributes Data Intensive 2,When Offered: Fall term annually.,"['BIOL 4620', 'BIOL 4760']","['BIOL 4620', 'BIOL 4760']",Science
-SENIOR RESEARCH THESIS,LEC,4,,,,Jennifer Marie Hurley,TBA,2,0,2,BIOL,2024-08-28,2024-12-20,FALL 2024,66721,4990,01,BIOL-4990,Senior Research Thesis,"Independent research, supervised by a faculty member, culminating in a written thesis and oral presentation.",Permission of instructor.,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-SENIOR RESEARCH THESIS,LEC,4,,,,Blanca L. Barquera,TBA,1,1,0,BIOL,2024-08-28,2024-12-20,FALL 2024,67742,4990,12,BIOL-4990,Senior Research Thesis,"Independent research, supervised by a faculty member, culminating in a written thesis and oral presentation.",Permission of instructor.,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+TOPICS IN CIRCADIAN BIOLOGY,LEC,2,W,9:00AM,10:50AM,Jennifer Marie Hurley,TBA,0,1,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,69043,4240,01,BIOL-4240,Topics In Circadian Biology,"This is an in-depth study of current papers within the broad field of Circadian Biology. Students will read and critique recent primary literature, present current research articles, and lead discussions on new findings in the field.",By permission of instructor only.,When Offered: Fall term annually.,[],[],Science
+MOLECULAR BIOLOGY II,LEC,4,MR,8:00AM,9:50AM,Keith Fraser,Jonsson Engineering Center 3207,30,16,14,BIOL,2024-08-28,2024-12-20,FALL 2024,66130,4630,01,BIOL-4630,Molecular Biology Ii,"Students will use a variety of tools (textbooks, scientific journals, and Internet resources including molecular databases and data mining tools) to increase understanding of genes, their expression, their products, and their inter-relatedness. Meets together with BIOL 6690.",Prerequisite: BIOL 4620 and BIOL 4760.Attributes Data Intensive 2,When Offered: Fall term annually.,"['BIOL 4620', 'BIOL 4760']","['BIOL 4620', 'BIOL 4760']",Science
 TOPICS IN CIRCADIAN BIOLOGY,LEC,2,W,9:00AM,10:50AM,Jennifer Marie Hurley,TBA,0,3,-3,BIOL,2024-08-28,2024-12-20,FALL 2024,69044,6240,01,BIOL-6240,Topics In Circadian Biology,"This is an in-depth study of current papers within the broad field of Circadian Biology. Students will read and critique recent primary literature, present current research articles, and lead discussions on new findings in the field.",By permission of instructor only.,When Offered: Fall term annually.,[],[],Science
-ADV MOLECULAR BIOLOGY,LEC,3,MR,8:00AM,9:50AM,Keith Fraser,Jonsson Engineering Center 3207,10,5,5,BIOL,2024-08-28,2024-12-20,FALL 2024,66650,6690,01,BIOL-6690,Adv Molecular Biology,"Students will use a variety of tools (textbooks, scientific journals, and Internet resources including molecular databases and data mining tools) to increase understanding of genes, their expression, their products, and their inter-relatedness. (Meets together with BIOL 4630)","Undergraduate course in molecular biology, molecular genetics, and/or molecular biochemistry.",When Offered: Fall term annually.,[],[],Science
-ADVANCED CELL BIOLOGY,LEC,4,TF,10:00AM,11:50AM,Scott Thomas Forth,Darrin Communications Center 239,12,8,4,BIOL,2024-08-28,2024-12-20,FALL 2024,66429,6260,01,BIOL-6260,Advanced Cell Biology,"This course is designed to enable students to understand how an organism functions at the cellular and molecular level, and further, how this functioning is regulated so that cells can adapt to changes in their environment. Students will learn the fundamental components of the cell (from protein to organelle), their characteristics, and how these components function in both normal and diseased cells. Students will also learn biochemical, structural, and mechanical aspects of cell functioning and regulation in normal and diseased cells. In addition, students will learn to critically read current scientific literature. By reading current literature, students will gain knowledge of the practice and presentation of science, as well as learn about new techniques and findings.","Prerequisites: BIOL 2120 equivalent. Coursework in Biochemistry and Molecular Biology will be helpful, as well.",When Offered: Fall term annually.,['BIOL 2120'],['BIOL 2120'],Science
+ADV MOLECULAR BIOLOGY,LEC,3,MR,8:00AM,9:50AM,Keith Fraser,Jonsson Engineering Center 3207,10,4,6,BIOL,2024-08-28,2024-12-20,FALL 2024,66650,6690,01,BIOL-6690,Adv Molecular Biology,"Students will use a variety of tools (textbooks, scientific journals, and Internet resources including molecular databases and data mining tools) to increase understanding of genes, their expression, their products, and their inter-relatedness. (Meets together with BIOL 4630)","Undergraduate course in molecular biology, molecular genetics, and/or molecular biochemistry.",When Offered: Fall term annually.,[],[],Science
+ADVANCED CELL BIOLOGY,LEC,4,TF,10:00AM,11:50AM,Scott Thomas Forth,Darrin Communications Center 239,12,11,1,BIOL,2024-08-28,2024-12-20,FALL 2024,66429,6260,01,BIOL-6260,Advanced Cell Biology,"This course is designed to enable students to understand how an organism functions at the cellular and molecular level, and further, how this functioning is regulated so that cells can adapt to changes in their environment. Students will learn the fundamental components of the cell (from protein to organelle), their characteristics, and how these components function in both normal and diseased cells. Students will also learn biochemical, structural, and mechanical aspects of cell functioning and regulation in normal and diseased cells. In addition, students will learn to critically read current scientific literature. By reading current literature, students will gain knowledge of the practice and presentation of science, as well as learn about new techniques and findings.","Prerequisites: BIOL 2120 equivalent. Coursework in Biochemistry and Molecular Biology will be helpful, as well.",When Offered: Fall term annually.,['BIOL 2120'],['BIOL 2120'],Science
 ADVANCED CELL BIOLOGY,LEC,4,TF,10:00AM,11:50AM,Scott Thomas Forth,Darrin Communications Center 239,18,20,-2,BIOL,2024-08-28,2024-12-20,FALL 2024,66428,4260,01,BIOL-4260,Advanced Cell Biology,"This course is designed to enable students to understand how an organism functions at the cellular and molecular level, and further, how this functioning is regulated so that cells can adapt to changes in their environment. Students will learn the fundamental components of the cell (from protein to organelle), their characteristics, and how these components function in both normal and diseased cells. Students will also learn biochemical, structural, and mechanical aspects of cell functioning and regulation in normal and diseased cells. In addition, students will learn to critically read current scientific literature. By reading current literature, students will gain knowledge of the practice and presentation of science, as well as learn about new techniques and findings.",Prerequisite: BIOL 2120 and one of the following: BIOL 4620 or BIOL 4760.,When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 4620', 'BIOL 4760']","['BIOL 2120', 'BIOL 4620', 'BIOL 4760']",Science
-HUMAN PHYSIOLOGY,LEC,4,T,12:00PM,1:50PM,Brian Hans Jensen,Walker Laboratory 5113,60,54,6,BIOL,2024-08-28,2024-12-20,FALL 2024,65060,4270,01,BIOL-4270,Human Physiology,"Fundamental physiological processes and their mechanism of action in human and higher mammalian organisms. Emphasis on the control and interaction of physiological systems. Introduction to the muscle, nervous, circulatory, renal, respiratory, digestive, reproductive, and hormonal systems. Limited to Biology, Biochemistry and Biophysics, Biological Neuroscience, and Computational Biology majors, and Biology Accelerated Medical students.",Prerequisites: BIOL 2120 or BIOL 4620; and CHEM 2250 and (PHYS 1100 or PHYS 1110 ). Not recommended for freshmen and sophomores.,When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']","['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']",Science
-HUMAN PHYSIOLOGY,LEC,4,F,12:00PM,1:50PM,Brian Hans Jensen,Troy Building 2018,60,54,6,BIOL,2024-08-28,2024-12-20,FALL 2024,65060,4270,01,BIOL-4270,Human Physiology,"Fundamental physiological processes and their mechanism of action in human and higher mammalian organisms. Emphasis on the control and interaction of physiological systems. Introduction to the muscle, nervous, circulatory, renal, respiratory, digestive, reproductive, and hormonal systems. Limited to Biology, Biochemistry and Biophysics, Biological Neuroscience, and Computational Biology majors, and Biology Accelerated Medical students.",Prerequisites: BIOL 2120 or BIOL 4620; and CHEM 2250 and (PHYS 1100 or PHYS 1110 ). Not recommended for freshmen and sophomores.,When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']","['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']",Science
+HUMAN PHYSIOLOGY,LEC,4,T,12:00PM,1:50PM,Brian Hans Jensen,Walker Laboratory 5113,60,53,7,BIOL,2024-08-28,2024-12-20,FALL 2024,65060,4270,01,BIOL-4270,Human Physiology,"Fundamental physiological processes and their mechanism of action in human and higher mammalian organisms. Emphasis on the control and interaction of physiological systems. Introduction to the muscle, nervous, circulatory, renal, respiratory, digestive, reproductive, and hormonal systems. Limited to Biology, Biochemistry and Biophysics, Biological Neuroscience, and Computational Biology majors, and Biology Accelerated Medical students.",Prerequisites: BIOL 2120 or BIOL 4620; and CHEM 2250 and (PHYS 1100 or PHYS 1110 ). Not recommended for freshmen and sophomores.,When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']","['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']",Science
+HUMAN PHYSIOLOGY,LEC,4,F,12:00PM,1:50PM,Brian Hans Jensen,Troy Building 2018,60,53,7,BIOL,2024-08-28,2024-12-20,FALL 2024,65060,4270,01,BIOL-4270,Human Physiology,"Fundamental physiological processes and their mechanism of action in human and higher mammalian organisms. Emphasis on the control and interaction of physiological systems. Introduction to the muscle, nervous, circulatory, renal, respiratory, digestive, reproductive, and hormonal systems. Limited to Biology, Biochemistry and Biophysics, Biological Neuroscience, and Computational Biology majors, and Biology Accelerated Medical students.",Prerequisites: BIOL 2120 or BIOL 4620; and CHEM 2250 and (PHYS 1100 or PHYS 1110 ). Not recommended for freshmen and sophomores.,When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']","['BIOL 2120', 'BIOL 4620', 'CHEM 2250', 'PHYS 1100', 'PHYS 1110']",Science
 MICROBIAL PATHOGENESIS,LEC,4,TF,10:00AM,11:50AM,Blanca L. Barquera,Lally Hall 02,5,2,3,BIOL,2024-08-28,2024-12-20,FALL 2024,69758,6345,01,BIOL-6345,Microbial Pathogenesis,This course is an advanced Microbiology course on the mechanisms of microbial pathogenesis. The course will examine the common features on how microbes cause disease. The course will be based on lectures and students' presentations,,When Offered: Fall annually,[],[],Science
-THE GLOBAL ENVIRONMENT,LEC,4,TF,10:00AM,11:50AM,Kevin Christopher Rose,Darrin Communications Center 232,30,4,26,BIOL,2024-08-28,2024-12-20,FALL 2024,69140,6880,01,BIOL-6880,The Global Environment,"This 4-credit course will explore global environmental cycles, patterns, and changes. It will cover elemental cycles of phosphorus, nitrogen, and carbon, and pollutants such as mercury, lead, and CFCs, and how changes in these cycles influence organisms and ecosystems. Also discussed will be large-scale biotic processes and theory about ecosystem dynamics. Major environmental issues such as acid rain, eutrophication, climate change, and land use conversation will also be discussed.",Prerequisite: BIOL 1010/BIOL 1015 and BIOL 2120/BIOL 2125 ​.,When Offered: Spring term annually.,"['BIOL 1010', 'BIOL 1015', 'BIOL 2120', 'BIOL 2125']","['BIOL 1010', 'BIOL 1015', 'BIOL 2120', 'BIOL 2125']",Science
-SEMINAR IN BIOLOGY,LEC,1,M,12:00PM,12:50PM,Scott Thomas Forth,Amos Eaton Hall 215,50,34,16,BIOL,2024-08-28,2024-12-20,FALL 2024,65320,6900,01,BIOL-6900,Seminar In Biology,Weekly discussion of selected topics in biology by graduate students and staff.,,When Offered: Fall and spring terms annually.,[],[],Science
+THE GLOBAL ENVIRONMENT,LEC,4,TF,10:00AM,11:50AM,Kevin Christopher Rose,Darrin Communications Center 232,30,3,27,BIOL,2024-08-28,2024-12-20,FALL 2024,69140,6880,01,BIOL-6880,The Global Environment,"This 4-credit course will explore global environmental cycles, patterns, and changes. It will cover elemental cycles of phosphorus, nitrogen, and carbon, and pollutants such as mercury, lead, and CFCs, and how changes in these cycles influence organisms and ecosystems. Also discussed will be large-scale biotic processes and theory about ecosystem dynamics. Major environmental issues such as acid rain, eutrophication, climate change, and land use conversation will also be discussed.",Prerequisite: BIOL 1010/BIOL 1015 and BIOL 2120/BIOL 2125 ​.,When Offered: Spring term annually.,"['BIOL 1010', 'BIOL 1015', 'BIOL 2120', 'BIOL 2125']","['BIOL 1010', 'BIOL 1015', 'BIOL 2120', 'BIOL 2125']",Science
+SEMINAR IN BIOLOGY,LEC,1,M,12:00PM,12:50PM,Scott Thomas Forth,Lally Hall 104,50,34,16,BIOL,2024-08-28,2024-12-20,FALL 2024,65320,6900,01,BIOL-6900,Seminar In Biology,Weekly discussion of selected topics in biology by graduate students and staff.,,When Offered: Fall and spring terms annually.,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Ricky A Relyea,TBA,5,0,5,BIOL,2024-08-28,2024-12-20,FALL 2024,66720,6970,01,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Michael T Klein,TBA,1,1,0,BIOL,2024-08-28,2024-12-20,FALL 2024,66774,6970,02,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Kevin Christopher Rose,TBA,5,1,4,BIOL,2024-08-28,2024-12-20,FALL 2024,69951,6970,03,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Catherine Ann Royer,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,66792,6970,05,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Lee Ligon,TBA,1,0,1,BIOL,2024-08-28,2024-12-20,FALL 2024,66858,6970,06,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Qun Wan,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,66939,6970,07,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
@@ -1644,11 +1682,12 @@ MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Blanca L. Barquera,TBA,5,0,5,BIOL,2024-0
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Chunyu Wang,TBA,1,0,1,BIOL,2024-08-28,2024-12-20,FALL 2024,67144,6970,12,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,67233,6970,13,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
 MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Christopher Bystroff,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,67741,6970,14,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
-INTRODUCTION TO BIOLOGY,LEC,3,TF,12:00PM,1:50PM,Georgi G. Shablovsky/Jeremy Lynch Farrell,Carnegie Building 113,80,80,0,BIOL,2024-08-28,2024-12-20,FALL 2024,65058,1010,01,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
-INTRODUCTION TO BIOLOGY,LEC,3,TF,10:00AM,11:50AM,Georgi G. Shablovsky/Jeremy Lynch Farrell,Carnegie Building 113,80,81,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,65059,1010,02,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
-INTRODUCTION TO BIOLOGY,LEC,3,MR,10:00AM,11:50AM,Georgi G. Shablovsky/Sandra Nierzwicki-Bauer,Amos Eaton Hall 214,80,54,26,BIOL,2024-08-28,2024-12-20,FALL 2024,65847,1010,03,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
-INTRODUCTION TO BIOLOGY,LEC,3,MR,10:00AM,11:50AM,Brian Hans Jensen,Darrin Communications Center 324,80,55,25,BIOL,2024-08-28,2024-12-10,FALL 2024,69481,1010,04,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
-INTRODUCTION TO BIOLOGY,LEC,3,MR,2:00PM,3:50PM,Brian Hans Jensen,Darrin Communications Center 330,80,74,6,BIOL,2024-08-28,2024-12-20,FALL 2024,66045,1010,05,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Benjamin Larson,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,67670,6970,15,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+INTRODUCTION TO BIOLOGY,LEC,3,TF,12:00PM,1:50PM,Jeremy Lynch Farrell/Georgi G. Shablovsky,Carnegie Building 113,80,77,3,BIOL,2024-08-28,2024-12-20,FALL 2024,65058,1010,01,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,TF,10:00AM,11:50AM,Jeremy Lynch Farrell/Georgi G. Shablovsky,Carnegie Building 113,80,80,0,BIOL,2024-08-28,2024-12-20,FALL 2024,65059,1010,02,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,MR,10:00AM,11:50AM,Sandra Nierzwicki-Bauer/Georgi G. Shablovsky,Amos Eaton Hall 214,80,64,16,BIOL,2024-08-28,2024-12-20,FALL 2024,65847,1010,03,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,MR,10:00AM,11:50AM,Brian Hans Jensen,Darrin Communications Center 324,80,46,34,BIOL,2024-08-28,2024-12-10,FALL 2024,69481,1010,04,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,MR,2:00PM,3:50PM,Brian Hans Jensen,Darrin Communications Center 330,80,75,5,BIOL,2024-08-28,2024-12-20,FALL 2024,66045,1010,05,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.Attributes Data Intensive 1,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
 MICROBIOLOGY LABORATORY,LEC,6,W,12:00PM,4:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3C30,12,12,0,BIOL,2024-08-28,2024-12-20,FALL 2024,67187,4320,01,BIOL-4320,Microbiology Laboratory,"Microbiology Laboratory will provide hands-on experience for broad training in bacteriology and mycology with emphasis on: microscopy, bacterial growth, and biochemical assays. An investigative component will involve characterization of an unknown bacterium using the analytical tools learned. In addition to laboratory experience and good technique, the course will emphasize written communication with reports in the format of scientific papers. This is a communication-intensive course.",Prerequisite: BIOL 2500.,When Offered: Fall and Summer terms annually.,['BIOL 2500'],['BIOL 2500'],Science
 MICROBIOLOGY LABORATORY,LEC,6,R,2:00PM,3:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3C30,12,12,0,BIOL,2024-08-28,2024-12-20,FALL 2024,67187,4320,01,BIOL-4320,Microbiology Laboratory,"Microbiology Laboratory will provide hands-on experience for broad training in bacteriology and mycology with emphasis on: microscopy, bacterial growth, and biochemical assays. An investigative component will involve characterization of an unknown bacterium using the analytical tools learned. In addition to laboratory experience and good technique, the course will emphasize written communication with reports in the format of scientific papers. This is a communication-intensive course.",Prerequisite: BIOL 2500.,When Offered: Fall and Summer terms annually.,['BIOL 2500'],['BIOL 2500'],Science
 MOLECULAR BIOLOGY LAB,LEC,6,W,12:00PM,4:50PM,Eric Matthew Rutledge,Jonsson Engineering Center 4309,10,11,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,65141,4720,01,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
@@ -1656,28 +1695,28 @@ MOLECULAR BIOLOGY LAB,LEC,6,F,2:00PM,3:50PM,Eric Matthew Rutledge,Jonsson Engine
 MOLECULAR BIOLOGY LAB,LEC,6,T,12:00PM,4:50PM,Eric Matthew Rutledge,Russell Sage Laboratory 4203,10,5,5,BIOL,2024-08-28,2024-12-20,FALL 2024,65846,4720,02,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
 MOLECULAR BIOLOGY LAB,LEC,6,F,2:00PM,3:50PM,Eric Matthew Rutledge,Jonsson Engineering Center 3207,10,5,5,BIOL,2024-08-28,2024-12-20,FALL 2024,65846,4720,02,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
 SEQUENCE ANALYSIS,LEC,4,MR,2:00PM,3:50PM,Keith Fraser,Jonsson Engineering Center 3207,10,7,3,BIOL,2024-08-28,2024-12-20,FALL 2024,67404,6410,01,BIOL-6410,Sequence Analysis,"This course covers the theory and practice of biological sequence analysis, including algorithms for pairwise sequence alignment, multiple sequence alignment, phylogenetic analysis, and database searching. Concepts covered include homology, sequence similarity, parsimony, mechanisms and metrics of molecular evolution, biological data bases, database search algorithms (BLAST), and statistical significance. Selected topics include hidden Markov models, bootstrap analysis, and gene finding. Modern sequence analysis software will be provided. Laptop computers are required. Knowledge of a programming language is strongly suggested. Meets jointly with BIOL 4540.","Prerequisites/Corequisites: MATH 1020, BIOL 4620, CSCI 1200 or equivalent, or permission of the instructor.",When Offered: Fall term annually.,"['MATH 1020', 'BIOL 4620', 'CSCI 1200']","['MATH 1020', 'BIOL 4620', 'CSCI 1200']",Science
-INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,T,2:00PM,4:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 5113,64,64,0,BIOL,2024-08-28,2024-12-20,FALL 2024,67088,1015,02,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
-INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,W,11:00AM,1:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,51,13,BIOL,2024-08-28,2024-12-20,FALL 2024,67089,1015,03,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
-INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,W,2:00PM,4:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,64,0,BIOL,2024-08-28,2024-12-20,FALL 2024,67090,1015,04,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
-INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,F,2:00PM,4:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,60,4,BIOL,2024-08-28,2024-12-20,FALL 2024,67207,1015,06,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
-INTRO TO CELL & MOLEC BIOLOGY,LEC,3,MR,12:00PM,1:50PM,Eric Matthew Rutledge,Russell Sage Laboratory 3101,60,62,-2,BIOL,2024-08-28,2024-12-20,FALL 2024,67251,2120,01,BIOL-2120,Intro To Cell & Molec Biology,"Structural and functional relationships of cells are discussed with regard to similarities among all living organisms. Introduction to cellular biochemistry, metabolism and energy flow, cellular and Mendelian genetics, and the chemical basis of heredity.",Prerequisites/Corequisites: Corequisite: BIOL 2125,When Offered: Spring and fall terms annually.,['BIOL 2125'],['BIOL 2125'],Science
-ANIMAL BEHAVIOR,LEC,4,TF,12:00PM,1:50PM,Ricky A Relyea,Darrin Communications Center 235,30,30,0,BIOL,2024-08-28,2024-12-20,FALL 2024,69754,4340,01,BIOL-4340,Animal Behavior,The goal of this course is to provide students with an overview of animal behavior theory and empirical investigations using an active learning approach that stresses how to develop hypotheses and experimental designs to answer biological questions.,Prerequisite: BIOL 1010,When Offered: Fall annually,['BIOL 1010'],['BIOL 1010'],Science
-ADVANCED CELL BIOLOGY LABORATORY,LEC,6,TF,12:00PM,2:50PM,Michael T Klein,Jonsson-Rowland Science Center 3W09,8,5,3,BIOL,2024-08-28,2024-12-20,FALL 2024,68067,4740,01,BIOL-4740,Advanced Cell Biology Laboratory,"Students will learn a variety of modern cell biology techniques such as cell culture, genetic analysis, immunocytochemistry, fluorescence microscopy, and live cell imaging. Using these techniques, students will investigate the function of genetically manipulated proteins in cells. In the last third of the semester, students will develop independent experimental research plans to address questions of interest to the student. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 2500.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 2500']","['BIOL 2120', 'BIOL 2125', 'BIOL 2500']",Science
-ADVANCED CELL BIOLOGY LABORATORY,LEC,6,F,3:00PM,3:50PM,Michael T Klein,Jonsson-Rowland Science Center 3W09,8,5,3,BIOL,2024-08-28,2024-12-20,FALL 2024,68067,4740,01,BIOL-4740,Advanced Cell Biology Laboratory,"Students will learn a variety of modern cell biology techniques such as cell culture, genetic analysis, immunocytochemistry, fluorescence microscopy, and live cell imaging. Using these techniques, students will investigate the function of genetically manipulated proteins in cells. In the last third of the semester, students will develop independent experimental research plans to address questions of interest to the student. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 2500.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 2500']","['BIOL 2120', 'BIOL 2125', 'BIOL 2500']",Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,T,2:00PM,4:50PM,Seemanti Ramanath/Georgi G. Shablovsky,Walker Laboratory 6113,64,66,-2,BIOL,2024-08-28,2024-12-20,FALL 2024,67088,1015,02,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,W,11:00AM,1:50PM,Seemanti Ramanath/Georgi G. Shablovsky,Walker Laboratory 6113,64,52,12,BIOL,2024-08-28,2024-12-20,FALL 2024,67089,1015,03,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,W,2:00PM,4:50PM,Seemanti Ramanath/Georgi G. Shablovsky,Walker Laboratory 6113,64,63,1,BIOL,2024-08-28,2024-12-20,FALL 2024,67090,1015,04,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,F,2:00PM,4:50PM,Seemanti Ramanath/Georgi G. Shablovsky,Walker Laboratory 6113,64,55,9,BIOL,2024-08-28,2024-12-20,FALL 2024,67207,1015,06,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.Attributes Data Intensive 1,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRO TO CELL & MOLEC BIOLOGY,LEC,3,MR,12:00PM,1:50PM,Eric Matthew Rutledge,Russell Sage Laboratory 3101,60,61,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,67251,2120,01,BIOL-2120,Intro To Cell & Molec Biology,"Structural and functional relationships of cells are discussed with regard to similarities among all living organisms. Introduction to cellular biochemistry, metabolism and energy flow, cellular and Mendelian genetics, and the chemical basis of heredity.",Prerequisites/Corequisites: Corequisite: BIOL 2125,When Offered: Spring and fall terms annually.,['BIOL 2125'],['BIOL 2125'],Science
+ANIMAL BEHAVIOR,LEC,4,TF,12:00PM,1:50PM,Ricky A Relyea,Darrin Communications Center 235,30,29,1,BIOL,2024-08-28,2024-12-20,FALL 2024,69754,4340,01,BIOL-4340,Animal Behavior,The goal of this course is to provide students with an overview of animal behavior theory and empirical investigations using an active learning approach that stresses how to develop hypotheses and experimental designs to answer biological questions.,Prerequisite: BIOL 1010,When Offered: Fall annually,['BIOL 1010'],['BIOL 1010'],Science
+ADVANCED CELL BIOLOGY LABORATORY,LEC,6,TF,12:00PM,2:50PM,Michael T Klein,Jonsson-Rowland Science Center 3W09,8,6,2,BIOL,2024-08-28,2024-12-20,FALL 2024,68067,4740,01,BIOL-4740,Advanced Cell Biology Laboratory,"Students will learn a variety of modern cell biology techniques such as cell culture, genetic analysis, immunocytochemistry, fluorescence microscopy, and live cell imaging. Using these techniques, students will investigate the function of genetically manipulated proteins in cells. In the last third of the semester, students will develop independent experimental research plans to address questions of interest to the student. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 2500.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 2500']","['BIOL 2120', 'BIOL 2125', 'BIOL 2500']",Science
+ADVANCED CELL BIOLOGY LABORATORY,LEC,6,F,3:00PM,3:50PM,Michael T Klein,Jonsson-Rowland Science Center 3W09,8,6,2,BIOL,2024-08-28,2024-12-20,FALL 2024,68067,4740,01,BIOL-4740,Advanced Cell Biology Laboratory,"Students will learn a variety of modern cell biology techniques such as cell culture, genetic analysis, immunocytochemistry, fluorescence microscopy, and live cell imaging. Using these techniques, students will investigate the function of genetically manipulated proteins in cells. In the last third of the semester, students will develop independent experimental research plans to address questions of interest to the student. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 2500.",When Offered: Fall and Summer terms annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 2500']","['BIOL 2120', 'BIOL 2125', 'BIOL 2500']",Science
 RESEARCH ROTATION II,LEC,2,,,,Jennifer Marie Hurley,TBA,12,5,7,BIOL,2024-08-28,2024-12-20,FALL 2024,68857,6920,01,BIOL-6920,Research Rotation Ii,"The student will perform hands-on research in the lab of a Biology faculty member to learn basic research methods and techniques, accomplish a small research project and determine whether the lab is a good fit for thesis research.",Restricted to first year Biology graduate students.,When Offered: Spring term annually.,[],[],Science
-INTRO BIOL COMPUTATIONAL LAB,LEC,1,W,11:00AM,1:50PM,Jonathan T Stetler,Darrin Communications Center 324,64,47,17,BIOL,2024-08-28,2024-12-20,FALL 2024,69137,1016,01,BIOL-1016,Intro Biol Computational Lab,"The goal of this laboratory course is to learn about biology through computational data analysis. Students will be introduced to a wide variety of real-world biological data sets. Students will learn how to manage, visualize, analyze, and interpret biological data. This class culminates in a collaborative research project. Students enrolled in a major other than biology and students with an interest in computational biology are particularly encouraged to register for this course",Prerequisites/Corequisites: Corequisite: BIOL 1010.,When Offered: Fall term annually.,['BIOL 1010'],['BIOL 1010'],Science
-INTRO BIOL COMPUTATIONAL LAB,LEC,1,W,2:00PM,4:50PM,Jonathan T Stetler,Darrin Communications Center 324,64,62,2,BIOL,2024-08-28,2024-12-20,FALL 2024,69138,1016,02,BIOL-1016,Intro Biol Computational Lab,"The goal of this laboratory course is to learn about biology through computational data analysis. Students will be introduced to a wide variety of real-world biological data sets. Students will learn how to manage, visualize, analyze, and interpret biological data. This class culminates in a collaborative research project. Students enrolled in a major other than biology and students with an interest in computational biology are particularly encouraged to register for this course",Prerequisites/Corequisites: Corequisite: BIOL 1010.,When Offered: Fall term annually.,['BIOL 1010'],['BIOL 1010'],Science
-INTRO CELL & MOLEC BIOL LAB,LEC,1,M,2:00PM,4:50PM,Michael T Klein/Keylon Levere Cheeseman,Jonsson-Rowland Science Center 3W18,22,20,2,BIOL,2024-08-28,2024-12-20,FALL 2024,68865,2125,01,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisites/Corequisites: Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.",['BIOL 2120'],['BIOL 2120'],Science
-INTRO CELL & MOLEC BIOL LAB,LEC,1,T,1:00PM,3:50PM,Michael T Klein/Keith Fraser,Jonsson-Rowland Science Center 3W18,22,22,0,BIOL,2024-08-28,2024-12-20,FALL 2024,68866,2125,02,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisites/Corequisites: Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.",['BIOL 2120'],['BIOL 2120'],Science
-INTRO CELL & MOLEC BIOL LAB,LEC,1,W,9:00AM,11:50AM,Michael T Klein/Keylon Levere Cheeseman,Jonsson-Rowland Science Center 3W18,22,22,0,BIOL,2024-08-28,2024-12-20,FALL 2024,68867,2125,03,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisites/Corequisites: Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.",['BIOL 2120'],['BIOL 2120'],Science
-FROM NEURON TO BEHAVIOR,LEC,4,MR,6:00PM,7:50PM,Robert Wallace Flint,Low Center for Industrial Inn. 4050,60,57,3,BIOL,2024-08-28,2024-12-20,FALL 2024,68767,4100,01,BIOL-4100,From Neuron To Behavior,"A detailed survey of important topics in the neurosciences. Some of the topics to be covered in this class are: basic mechanisms of neural signaling (neurophysiology, synaptic transmission, and molecular signaling); understanding of sensation/movement and in particular how it relates to neuroanatomy; neurodevelopment and how the mature brain can change (plasticity); complex brainfunctions and neurological disease. Taught together with BIOL 6100.","Prerequisite: BIOL 1010, BIOL 2120, or permission of the instructor.",When Offered: Fall term annually.,"['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
-MICROBIAL PATHOGENESIS,LEC,4,TF,10:00AM,11:50AM,Blanca L. Barquera,Lally Hall 02,20,1,19,BIOL,2024-08-28,2024-12-20,FALL 2024,69757,4345,01,BIOL-4345,Microbial Pathogenesis,This course is an advanced Microbiology course on the mechanisms of microbial pathogenesis. The course will examine the common features on how microbes cause disease. The course will be based on lectures and students' presentations.,Prerequisites: BIOL 4310 and permission of the instructor,When Offered: Fall annually,['BIOL 4310'],['BIOL 4310'],Science
-MOLECULAR BIOCHEMISTRY I,LEC,4,MR,10:00AM,11:50AM,George I. Makhatadze,Darrin Communications Center 330,100,29,71,BIOL,2024-08-28,2024-12-20,FALL 2024,65061,4760,01,BIOL-4760,Molecular Biochemistry I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites: CHEM 2250 and; BIOL 1010 or BIOL 2120,When Offered: Fall and summer terms annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
+INTRO BIOL COMPUTATIONAL LAB,LEC,1,W,11:00AM,1:50PM,Jonathan T Stetler,Darrin Communications Center 324,64,48,16,BIOL,2024-08-28,2024-12-20,FALL 2024,69137,1016,01,BIOL-1016,Intro Biol Computational Lab,"The goal of this laboratory course is to learn about biology through computational data analysis. Students will be introduced to a wide variety of real-world biological data sets. Students will learn how to manage, visualize, analyze, and interpret biological data. This class culminates in a collaborative research project. Students enrolled in a major other than biology and students with an interest in computational biology are particularly encouraged to register for this course",Prerequisites/Corequisites: Corequisite: BIOL 1010.,When Offered: Fall term annually.,['BIOL 1010'],['BIOL 1010'],Science
+INTRO BIOL COMPUTATIONAL LAB,LEC,1,W,2:00PM,4:50PM,Jonathan T Stetler,Darrin Communications Center 324,64,63,1,BIOL,2024-08-28,2024-12-20,FALL 2024,69138,1016,02,BIOL-1016,Intro Biol Computational Lab,"The goal of this laboratory course is to learn about biology through computational data analysis. Students will be introduced to a wide variety of real-world biological data sets. Students will learn how to manage, visualize, analyze, and interpret biological data. This class culminates in a collaborative research project. Students enrolled in a major other than biology and students with an interest in computational biology are particularly encouraged to register for this course",Prerequisites/Corequisites: Corequisite: BIOL 1010.,When Offered: Fall term annually.,['BIOL 1010'],['BIOL 1010'],Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,M,2:00PM,4:50PM,Michael T Klein/Keylon Levere Cheeseman,Jonsson-Rowland Science Center 3W18,20,19,1,BIOL,2024-08-28,2024-12-20,FALL 2024,68865,2125,01,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisites/Corequisites: Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.",['BIOL 2120'],['BIOL 2120'],Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,T,1:00PM,3:50PM,Michael T Klein/Keith Fraser,Jonsson-Rowland Science Center 3W18,20,21,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,68866,2125,02,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisites/Corequisites: Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.",['BIOL 2120'],['BIOL 2120'],Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,W,9:00AM,11:50AM,Michael T Klein/Keylon Levere Cheeseman,Jonsson-Rowland Science Center 3W18,20,21,-1,BIOL,2024-08-28,2024-12-20,FALL 2024,68867,2125,03,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisites/Corequisites: Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.",['BIOL 2120'],['BIOL 2120'],Science
+FROM NEURON TO BEHAVIOR,LEC,4,MR,6:00PM,7:50PM,Robert Wallace Flint,Low Center for Industrial Inn. 4050,60,55,5,BIOL,2024-08-28,2024-12-20,FALL 2024,68767,4100,01,BIOL-4100,From Neuron To Behavior,"A detailed survey of important topics in the neurosciences. Some of the topics to be covered in this class are: basic mechanisms of neural signaling (neurophysiology, synaptic transmission, and molecular signaling); understanding of sensation/movement and in particular how it relates to neuroanatomy; neurodevelopment and how the mature brain can change (plasticity); complex brainfunctions and neurological disease. Taught together with BIOL 6100.","Prerequisite: BIOL 1010, BIOL 2120, or permission of the instructor.",When Offered: Fall term annually.,"['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+MICROBIAL PATHOGENESIS,LEC,4,TF,10:00AM,11:50AM,Blanca L. Barquera,Lally Hall 02,20,3,17,BIOL,2024-08-28,2024-12-20,FALL 2024,69757,4345,01,BIOL-4345,Microbial Pathogenesis,This course is an advanced Microbiology course on the mechanisms of microbial pathogenesis. The course will examine the common features on how microbes cause disease. The course will be based on lectures and students' presentations.,Prerequisites: BIOL 4310 and permission of the instructor,When Offered: Fall annually,['BIOL 4310'],['BIOL 4310'],Science
+MOLECULAR BIOCHEMISTRY I,LEC,4,MR,10:00AM,11:50AM,George I. Makhatadze,Darrin Communications Center 330,100,27,73,BIOL,2024-08-28,2024-12-20,FALL 2024,65061,4760,01,BIOL-4760,Molecular Biochemistry I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites: CHEM 2250 and; BIOL 1010 or BIOL 2120,When Offered: Fall and summer terms annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
 MASTER'S THESIS,LEC,1-9,,,,Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,66761,6990,01,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-9,,,,Karyn Lynne Rogers,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,67472,6990,20,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-INTRODUCTION TO GEOBIOLOGY,LEC,4,TF,10:00AM,11:50AM,Karyn Lynne Rogers,Russell Sage Laboratory 4510,20,11,9,BIOL,2024-08-28,2024-12-20,FALL 2024,68570,2160,01,BIOL-2160,Introduction To Geobiology,"This course focuses on the co-evolution of life with Earth's systems and targets students in earth science, biology, chemistry, and physics. Topics include the emergence and early evolution of life on Earth, the environmental limits of life, microbial and metabolic evolution; the role of life in moderating global elemental cycles; earliest records of life; evolution of photosynthesis and the Great Oxidation Event; fossilization and evolution of complex life; mass radiations, mass extinctions, and global change.","Prerequisites/Corequisites: ERTH 1100 recommended, not required.",When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
+INTRODUCTION TO GEOBIOLOGY,LEC,4,TF,10:00AM,11:50AM,Karyn Lynne Rogers,Russell Sage Laboratory 4510,20,10,10,BIOL,2024-08-28,2024-12-20,FALL 2024,68570,2160,01,BIOL-2160,Introduction To Geobiology,"This course focuses on the co-evolution of life with Earth's systems and targets students in earth science, biology, chemistry, and physics. Topics include the emergence and early evolution of life on Earth, the environmental limits of life, microbial and metabolic evolution; the role of life in moderating global elemental cycles; earliest records of life; evolution of photosynthesis and the Great Oxidation Event; fossilization and evolution of complex life; mass radiations, mass extinctions, and global change.","Prerequisites/Corequisites: ERTH 1100 recommended, not required.",When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
 INVESTIGATIVE MEDICINE I,LEC,1,,,,Susan P. Gilbert,Off-Campus ,25,15,10,BIOL,2024-08-28,2024-12-20,FALL 2024,67736,4110,01,BIOL-4110,Investigative Medicine I,"Students will be exposed to real time investigative biomedical research projects that are currently in development, taught the principles of research project development and exposed to clinical experiences at a level typically found in college graduates/post graduates who are entering medical school.",Intended only for 3rd Year RPI students who are in the combined B.S./M.D. Physician Scientist Program with Albany Medical College.,When Offered: Fall term annually.,[],[],Science
-ADV TOPICS: ECOLOGY & ENV BIOL,LEC,2,R,10:00AM,11:50AM,Kevin Christopher Rose,Russell Sage Laboratory 2704,15,4,11,BIOL,2024-08-28,2024-12-20,FALL 2024,69756,6500,01,BIOL-6500,Adv TOPICS: Ecology & Env Biol,"Students in this course will complete an in-depth study of current peer reviewed literature and topics in the field of ecology and environmental biology. Students will read and critique peer-reviewed papers and present and lead discussions on peer-reviewed articles. Topics covered will include populations and biological communities, biodiversity, ecosystem structures and habitats, climate change, and ecosystem attributes.",,When Offered: Fall annually,[],[],Science
+ADV TOPICS: ECOLOGY & ENV BIOL,LEC,2,R,10:00AM,11:50AM,Kevin Christopher Rose,Ricketts Building 208,15,4,11,BIOL,2024-08-28,2024-12-20,FALL 2024,69756,6500,01,BIOL-6500,Adv TOPICS: Ecology & Env Biol,"Students in this course will complete an in-depth study of current peer reviewed literature and topics in the field of ecology and environmental biology. Students will read and critique peer-reviewed papers and present and lead discussions on peer-reviewed articles. Topics covered will include populations and biological communities, biodiversity, ecosystem structures and habitats, climate change, and ecosystem attributes.",,When Offered: Fall annually,[],[],Science
 DISSERTATION,LEC,1-20,,,,Christopher Bystroff,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,66183,9990,01,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-20,,,,Richard Alan Gross,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,68082,9990,03,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-20,,,,Karyn Lynne Rogers,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,FALL 2024,65313,9990,05,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -1699,57 +1738,57 @@ DISSERTATION,LEC,1-20,,,,Ricky A Relyea,TBA,10,0,10,BIOL,2024-08-28,2024-12-20,F
 DISSERTATION,LEC,1-20,,,,Marvin D Bentley,TBA,5,2,3,BIOL,2024-08-28,2024-12-20,FALL 2024,67907,9990,25,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,12,8,CHEM,2024-08-28,2024-12-20,FALL 2024,69271,2230,01,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,T,8:00AM,10:50AM,Margarita L Kirova-Snover,Walker Laboratory 3214,20,12,8,CHEM,2024-08-28,2024-12-20,FALL 2024,69271,2230,01,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,19,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65469,2230,02,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,T,1:00PM,3:50PM,Margarita L Kirova-Snover/Geetu Sharma,Walker Laboratory 3214,20,19,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65469,2230,02,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,20,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65470,2230,03,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,W,8:00AM,10:50AM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,20,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65470,2230,03,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,15,5,CHEM,2024-08-28,2024-12-20,FALL 2024,65469,2230,02,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,T,1:00PM,3:50PM,Margarita L Kirova-Snover/Geetu Sharma,Walker Laboratory 3214,20,15,5,CHEM,2024-08-28,2024-12-20,FALL 2024,65469,2230,02,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,19,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65470,2230,03,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,W,8:00AM,10:50AM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,19,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65470,2230,03,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,20,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65471,2230,04,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,W,12:00PM,2:50PM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,20,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65471,2230,04,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,11,9,CHEM,2024-08-28,2024-12-20,FALL 2024,68899,2230,05,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,R,8:00AM,10:50AM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,11,9,CHEM,2024-08-28,2024-12-20,FALL 2024,68899,2230,05,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,14,6,CHEM,2024-08-28,2024-12-20,FALL 2024,66432,2230,06,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-ORGANIC CHEMISTRY LAB I,LEC,1,F,8:00AM,10:50AM,Margarita L Kirova-Snover,Russell Sage Laboratory 3704,20,14,6,CHEM,2024-08-28,2024-12-20,FALL 2024,66432,2230,06,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,10,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68899,2230,05,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,R,8:00AM,10:50AM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,10,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68899,2230,05,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,13,7,CHEM,2024-08-28,2024-12-20,FALL 2024,66432,2230,06,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+ORGANIC CHEMISTRY LAB I,LEC,1,F,8:00AM,10:50AM,Margarita L Kirova-Snover,Walker Laboratory 3214,20,13,7,CHEM,2024-08-28,2024-12-20,FALL 2024,66432,2230,06,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,15,5,CHEM,2024-08-28,2024-12-20,FALL 2024,66433,2230,07,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,F,1:00PM,3:50PM,Margarita L Kirova-Snover/Geetu Sharma,Walker Laboratory 3214,20,15,5,CHEM,2024-08-28,2024-12-20,FALL 2024,66433,2230,07,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,M,5:00PM,5:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3510,20,12,8,CHEM,2024-08-28,2024-12-20,FALL 2024,69002,2230,08,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
 ORGANIC CHEMISTRY LAB I,LEC,1,R,6:00PM,8:50PM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,12,8,CHEM,2024-08-28,2024-12-20,FALL 2024,69002,2230,08,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
-PROTEIN STRUCT & DEEP LEARNING,LEC,1,W,2:00PM,3:30PM,Gaetano T. Montelione,Russell Sage Laboratory 2112,20,4,16,CHEM,2024-08-28,2024-12-20,FALL 2024,69322,4965,01,CHEM-4965,Protein Struct & Deep Learning,,,,[],[],Science
-INTRODUCTION TO RESEARCH,LEC,1-3,W,12:00PM,1:50PM,Jacob Thomas Shelley,Jonsson-Rowland Science Center 1W01,12,6,6,CHEM,2024-08-28,2024-12-20,FALL 2024,67258,6950,01,CHEM-6950,Introduction To Research,"A course for first year chemistry graduate students that involves rotations through three research groups to become familiar with research in the department. Students will participate in various research-related activities, including group meetings, reading papers, exploring potential thesis projects, and shadowing or assisting graduate students working in the lab. The main goal of the course is to assist graduate students in their selection of a research adviser. Entering PhD students should register for 2 credit hours in Fall and 1 credit hour in Spring. Entering MS students can register for a total of 2 credits in their first semester only. Not available to Co-terminal MS students.",,When Offered: Fall and Spring annually,[],[],Science
-ORGANIC CHEMISTRY I,LEC,3,MR,12:00PM,1:20PM,Margarita L Kirova-Snover,Darrin Communications Center 318,230,183,47,CHEM,2024-08-28,2024-12-20,FALL 2024,65307,2250,01,CHEM-2250,Organic Chemistry I,"Structure and chemical behavior of organic molecules with particular emphasis on reaction mechanisms as pathways for understanding their reactions. Stereochemistry, synthesis, and spectroscopic methods for the identification of organic functional groups are among the topics included.","Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120, or equivalent.",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
-ORGANIC CHEMISTRY I,LEC,3,W,4:00PM,5:50PM,Margarita L Kirova-Snover,Darrin Communications Center 318,230,183,47,CHEM,2024-08-28,2024-12-20,FALL 2024,65307,2250,01,CHEM-2250,Organic Chemistry I,"Structure and chemical behavior of organic molecules with particular emphasis on reaction mechanisms as pathways for understanding their reactions. Stereochemistry, synthesis, and spectroscopic methods for the identification of organic functional groups are among the topics included.","Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120, or equivalent.",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
-MACROSCOPIC PHYSICAL CHEMISTRY,LEC,3,TF,2:00PM,3:50PM,Gerald M Korenowski/Amgalanbaatar Baldansuren,Low Center for Industrial Inn. 3130,20,11,9,CHEM,2024-08-28,2024-11-13,FALL 2024,65467,4410,01,CHEM-4410,Macroscopic Physical Chemistry,"A course dealing with physicochemical properties of substances on a macroscopic scale. Chemical thermodynamics, electrochemistry, electric and magnetic phenomena, transport properties, and surface and colloid chemistry.",Prerequisite: MATH 2400.,When Offered: Fall and summer terms annually.,['MATH 2400'],['MATH 2400'],Science
+PROTEIN STRUCT & DEEP LEARNING,LEC,1,W,2:00PM,3:30PM,Gaetano T. Montelione,Russell Sage Laboratory 2112,20,5,15,CHEM,2024-08-28,2024-12-20,FALL 2024,69322,4965,01,CHEM-4965,Protein Struct & Deep Learning,,,,[],[],Science
+INTRODUCTION TO RESEARCH,LEC,1-3,W,12:00PM,1:50PM,Jacob Thomas Shelley,Jonsson-Rowland Science Center 1W01,12,5,7,CHEM,2024-08-28,2024-12-20,FALL 2024,67258,6950,01,CHEM-6950,Introduction To Research,"A course for first year chemistry graduate students that involves rotations through three research groups to become familiar with research in the department. Students will participate in various research-related activities, including group meetings, reading papers, exploring potential thesis projects, and shadowing or assisting graduate students working in the lab. The main goal of the course is to assist graduate students in their selection of a research adviser. Entering PhD students should register for 2 credit hours in Fall and 1 credit hour in Spring. Entering MS students can register for a total of 2 credits in their first semester only. Not available to Co-terminal MS students.",,When Offered: Fall and Spring annually,[],[],Science
+ORGANIC CHEMISTRY I,LEC,3,MR,12:00PM,1:20PM,Margarita L Kirova-Snover/Chulsung Bae,Darrin Communications Center 318,230,175,55,CHEM,2024-08-28,2024-12-20,FALL 2024,65307,2250,01,CHEM-2250,Organic Chemistry I,"Structure and chemical behavior of organic molecules with particular emphasis on reaction mechanisms as pathways for understanding their reactions. Stereochemistry, synthesis, and spectroscopic methods for the identification of organic functional groups are among the topics included.","Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120, or equivalent.",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+ORGANIC CHEMISTRY I,LEC,3,W,4:00PM,5:50PM,Chulsung Bae/Margarita L Kirova-Snover,Darrin Communications Center 318,230,175,55,CHEM,2024-08-28,2024-12-20,FALL 2024,65307,2250,01,CHEM-2250,Organic Chemistry I,"Structure and chemical behavior of organic molecules with particular emphasis on reaction mechanisms as pathways for understanding their reactions. Stereochemistry, synthesis, and spectroscopic methods for the identification of organic functional groups are among the topics included.","Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120, or equivalent.",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MACROSCOPIC PHYSICAL CHEMISTRY,LEC,3,TF,2:00PM,3:50PM,Gerald M Korenowski/Amgalanbaatar Baldansuren,Low Center for Industrial Inn. 3130,20,10,10,CHEM,2024-08-28,2024-11-13,FALL 2024,65467,4410,01,CHEM-4410,Macroscopic Physical Chemistry,"A course dealing with physicochemical properties of substances on a macroscopic scale. Chemical thermodynamics, electrochemistry, electric and magnetic phenomena, transport properties, and surface and colloid chemistry.",Prerequisite: MATH 2400.,When Offered: Fall and summer terms annually.,['MATH 2400'],['MATH 2400'],Science
 MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,Chaitanya Kishore Ullal/John R. LaGraff,Walker Laboratory 6113,5,5,0,CHEM,2024-08-28,2024-12-20,FALL 2024,67822,1600,01,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
 MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,Chaitanya Kishore Ullal,TBA,5,5,0,CHEM,2024-08-28,2024-12-20,FALL 2024,67822,1600,01,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,CHEM,2024-08-28,2024-12-20,FALL 2024,67821,1600,02,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,5,5,0,CHEM,2024-08-28,2024-12-20,FALL 2024,67821,1600,02,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,4,1,CHEM,2024-08-28,2024-12-20,FALL 2024,67821,1600,02,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,5,4,1,CHEM,2024-08-28,2024-12-20,FALL 2024,67821,1600,02,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
 MICROSCOPIC PHYSICAL CHEMISTRY,LEC,3,MWR,8:00AM,8:50AM,Gerald M Korenowski/Amgalanbaatar Baldansuren,Walker Laboratory 6113,50,44,6,CHEM,2024-08-28,2024-12-20,FALL 2024,68265,4420,01,CHEM-4420,Microscopic Physical Chemistry,"A course dealing primarily with physicochemical properties of substances on a molecular basis. Chemical kinetics, quantum chemistry, spectroscopy, and statistical mechanics.",Prerequisite: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Science
 MICROSCOPIC PHYSICAL CHEMISTRY,LEC,3,W,9:00AM,9:50AM,Amgalanbaatar Baldansuren/Gerald M Korenowski,Walker Laboratory 6113,50,44,6,CHEM,2024-08-28,2024-12-20,FALL 2024,68265,4420,01,CHEM-4420,Microscopic Physical Chemistry,"A course dealing primarily with physicochemical properties of substances on a molecular basis. Chemical kinetics, quantum chemistry, spectroscopy, and statistical mechanics.",Prerequisite: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Science
-PROFESSIONAL DEVELOPMENT SEMINAR,LEC,1,W,12:00PM,12:50PM,Wilfredo Colon,Russell Sage Laboratory 4112,30,15,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65321,4900,01,CHEM-4900,Professional Development Seminar,Weekly seminars on topics of concern to students who are about to embark on their professional careers in chemistry. Topics will include employment and career opportunities; graduate school; ethical requirements and expectations in the profession; patent considerations; new directions in research and other topical matters. Restricted to senior chemistry majors.,,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY FOR LIFE,LEC,1,M,9:00AM,9:50AM,Wilfredo Colon,Troy Building 2015,30,17,13,CHEM,2024-08-28,2024-12-20,FALL 2024,69360,1900,01,CHEM-1900,Chemistry For Life,"This course is intended to provide information about the chemistry major, including the role of chemistry in society, career opportunities, faculty research interests and opportunities for undergraduate research, as well as curriculum options, the Summer Arch experience, and extracurricular professional development opportunities. The course is graded S/U.",,,[],[],Science
-INORGANIC CHEMISTRY II,LEC,3,MR,2:00PM,3:20PM,Peter John Bonitatibus,Low Center for Industrial Inn. 3112,16,9,7,CHEM,2024-08-28,2024-12-20,FALL 2024,67633,4010,01,CHEM-4010,Inorganic Chemistry Ii,"A course dealing with more advanced topics of inorganic chemistry, including molecular symmetry, application of symmetry concepts to molecular orbital descriptions of polyatomic molecules, solid state and non-stoichiometric compounds, coordination chemistry, spectral and magnetic properties, organometallic chemistry, and bioinorganic chemistry.",Prerequisite: CHEM 2030; it is recommended that CHEM 4410 be taken concurrently.,When Offered: Fall and summer terms annually,"['CHEM 2030', 'CHEM 4410']","['CHEM 2030', 'CHEM 4410']",Science
-PHYSICAL CHEM FOR LIFE SCIENCE,LEC,4,TF,2:00PM,3:50PM,Gerald M Korenowski/Amgalanbaatar Baldansuren/Wilfredo Colon,Low Center for Industrial Inn. 3130,20,9,11,CHEM,2024-08-28,2024-12-20,FALL 2024,68018,4440,01,CHEM-4440,Physical Chem For Life Science,"Topics in physical chemistry that are important for understanding processes in biological systems. Included are: thermodynamics as applied to phase and chemical equilibria in chemical and biochemical systems; passive transport models for diffusion and electrical conductivity in electrolyte solutions; kinetic models for simple and complex chemical reactions, including enzyme mechanisms; quantum mechanical models used in spectroscopy.",Prerequisites: CHEM 1200 or CHEM 1220 and MATH 1010.,When Offered: Fall and summer terms annually.,"['CHEM 1200', 'CHEM 1220', 'MATH 1010']","['CHEM 1200', 'CHEM 1220', 'MATH 1010']",Science
-LDRSHP IN CHEM: MENTORING 1,LEC,2,,,,Alexander C. Ma,TBA,20,0,20,CHEM,2024-08-28,2024-12-20,FALL 2024,69861,4910,01,CHEM-4910,Ldrshp In CHEM: Mentoring 1,"As a Freshman Chemistry Mentor, the student is assigned to meet and provide leadership for two groups of students every week. The mentoring sessions will address topics such as problem-solving skills for chemistry, coping skills, time-management skills, etc. As an experienced mentor, the student is expected to provide academic and program support for new mentors. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.",Prerequisites/Corequisites: Prequisite: CHEM 2910 and permission of instructor.,When Offered: Fall annually,['CHEM 2910'],['CHEM 2910'],Science
-MASS SPECTROMETRY,LEC,3,TF,8:00AM,9:20AM,Jacob Thomas Shelley,Troy Building 2015,20,7,13,CHEM,2024-08-28,2024-12-20,FALL 2024,69776,6130,01,CHEM-6130,Mass Spectrometry,"Survey of modern techniques in and associated with mass spectrometry, including historical perspectives, strengths/weaknesses, detection/quantification of analytes, ionization source/mass analyzer design, and construction of associated technologies including vacuum systems, ion detection, and ion optics. Ion formation processes will also be discussed.",,When Offered: Fall term upon sufficient demand.,[],[],Science
-DISSERTATION,LEC,1-15,,,,Wilfredo Colon,TBA,10,2,8,CHEM,2024-08-28,2024-12-20,FALL 2024,65155,9990,01,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+PROFESSIONAL DEVELOPMENT SEMINAR,LEC,1,W,12:00PM,12:50PM,Wilfredo Colon,Russell Sage Laboratory 4112,30,16,14,CHEM,2024-08-28,2024-12-20,FALL 2024,65321,4900,01,CHEM-4900,Professional Development Seminar,Weekly seminars on topics of concern to students who are about to embark on their professional careers in chemistry. Topics will include employment and career opportunities; graduate school; ethical requirements and expectations in the profession; patent considerations; new directions in research and other topical matters. Restricted to senior chemistry majors.,,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY FOR LIFE,LEC,1,M,9:00AM,9:50AM,Wilfredo Colon,Troy Building 2015,30,18,12,CHEM,2024-08-28,2024-12-20,FALL 2024,69360,1900,01,CHEM-1900,Chemistry For Life,"This course is intended to provide information about the chemistry major, including the role of chemistry in society, career opportunities, faculty research interests and opportunities for undergraduate research, as well as curriculum options, the Summer Arch experience, and extracurricular professional development opportunities. The course is graded S/U.",,,[],[],Science
+INORGANIC CHEMISTRY II,LEC,3,MR,2:00PM,3:20PM,Peter John Bonitatibus,Russell Sage Laboratory 4510,16,9,7,CHEM,2024-08-28,2024-12-20,FALL 2024,67633,4010,01,CHEM-4010,Inorganic Chemistry Ii,"A course dealing with more advanced topics of inorganic chemistry, including molecular symmetry, application of symmetry concepts to molecular orbital descriptions of polyatomic molecules, solid state and non-stoichiometric compounds, coordination chemistry, spectral and magnetic properties, organometallic chemistry, and bioinorganic chemistry.",Prerequisite: CHEM 2030; it is recommended that CHEM 4410 be taken concurrently.,When Offered: Fall and summer terms annually,"['CHEM 2030', 'CHEM 4410']","['CHEM 2030', 'CHEM 4410']",Science
+PHYSICAL CHEM FOR LIFE SCIENCE,LEC,4,TF,2:00PM,3:50PM,Gerald M Korenowski/Amgalanbaatar Baldansuren/Wilfredo Colon,Low Center for Industrial Inn. 3130,20,10,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68018,4440,01,CHEM-4440,Physical Chem For Life Science,"Topics in physical chemistry that are important for understanding processes in biological systems. Included are: thermodynamics as applied to phase and chemical equilibria in chemical and biochemical systems; passive transport models for diffusion and electrical conductivity in electrolyte solutions; kinetic models for simple and complex chemical reactions, including enzyme mechanisms; quantum mechanical models used in spectroscopy.",Prerequisites: CHEM 1200 or CHEM 1220 and MATH 1010.,When Offered: Fall and summer terms annually.,"['CHEM 1200', 'CHEM 1220', 'MATH 1010']","['CHEM 1200', 'CHEM 1220', 'MATH 1010']",Science
+LDRSHP IN CHEM: MENTORING 1,LEC,2,,,,Alexander C. Ma,TBA,20,22,-2,CHEM,2024-08-28,2024-12-20,FALL 2024,69861,4910,01,CHEM-4910,Ldrshp In CHEM: Mentoring 1,"As a Freshman Chemistry Mentor, the student is assigned to meet and provide leadership for two groups of students every week. The mentoring sessions will address topics such as problem-solving skills for chemistry, coping skills, time-management skills, etc. As an experienced mentor, the student is expected to provide academic and program support for new mentors. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.",Prerequisites/Corequisites: Prequisite: CHEM 2910 and permission of instructor.,When Offered: Fall annually,['CHEM 2910'],['CHEM 2910'],Science
+MASS SPECTROMETRY,LEC,3,TF,8:00AM,9:20AM,Jacob Thomas Shelley,Materials Research Center 136,20,8,12,CHEM,2024-08-28,2024-12-20,FALL 2024,69776,6130,01,CHEM-6130,Mass Spectrometry,"Survey of modern techniques in and associated with mass spectrometry, including historical perspectives, strengths/weaknesses, detection/quantification of analytes, ionization source/mass analyzer design, and construction of associated technologies including vacuum systems, ion detection, and ion optics. Ion formation processes will also be discussed.",,When Offered: Fall term upon sufficient demand.,[],[],Science
+DISSERTATION,LEC,1-15,,,,Wilfredo Colon,TBA,10,4,6,CHEM,2024-08-28,2024-12-20,FALL 2024,65155,9990,01,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Christopher Lawrence Cioffi,TBA,10,2,8,CHEM,2024-08-28,2024-12-20,FALL 2024,66423,9990,02,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,K. V. Lakshmi,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,65172,9990,03,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Kristin Nicole Johnson,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,69435,9990,04,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Curtis Breneman,TBA,10,0,10,CHEM,2024-08-28,2024-12-20,FALL 2024,65193,9990,05,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Gaetano T. Montelione,TBA,10,2,8,CHEM,2024-08-28,2024-12-20,FALL 2024,65202,9990,06,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Chunyu Wang,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,69083,9990,07,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Jacob Thomas Shelley,TBA,20,9,11,CHEM,2024-08-28,2024-12-20,FALL 2024,67723,9990,08,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jacob Thomas Shelley,TBA,20,7,13,CHEM,2024-08-28,2024-12-20,FALL 2024,67723,9990,08,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Peter Henry Dinolfo,TBA,10,2,8,CHEM,2024-08-28,2024-12-20,FALL 2024,66500,9990,09,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,George I. Makhatadze,TBA,10,0,10,CHEM,2024-08-28,2024-12-20,FALL 2024,66815,9990,12,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Blanca L. Barquera,TBA,10,0,10,CHEM,2024-08-28,2024-12-20,FALL 2024,66685,9990,13,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Peter John Bonitatibus,TBA,10,3,7,CHEM,2024-08-28,2024-12-20,FALL 2024,65256,9990,14,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Chulsung Bae,TBA,10,3,7,CHEM,2024-08-28,2024-12-20,FALL 2024,67052,9990,17,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Richard Alan Gross,TBA,10,5,5,CHEM,2024-08-28,2024-12-20,FALL 2024,65404,9990,18,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Richard Alan Gross,TBA,10,4,6,CHEM,2024-08-28,2024-12-20,FALL 2024,65404,9990,18,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Catherine Ann Royer,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,67423,9990,26,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,MR,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,12,10,2,CHEM,2024-08-28,2024-12-20,FALL 2024,65468,4020,01,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
-EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,W,10:00AM,10:50AM,Elizabeth Anne Sprague,Russell Sage Laboratory 4112,12,10,2,CHEM,2024-08-28,2024-12-20,FALL 2024,65468,4020,01,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
-EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,TF,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,12,2,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68962,4020,02,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
-EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,W,10:00AM,10:50AM,Elizabeth Anne Sprague,Russell Sage Laboratory 4112,12,2,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68962,4020,02,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
-LDRSHP IN CHEM: MENTORING 2,LEC,2,,,,Alexander C. Ma,TBA,10,5,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69862,4920,01,CHEM-4920,Ldrshp In CHEM: Mentoring 2,"As a senior chemistry mentor, the student will meet and provide leadership for a group of mentors every week. The supervisory sessions will address topics such as facilitation skills, problem-solving skills, coping skills, time-management skills, etc... As a senior chemistry mentor, the student is expected to train and supervise new and returning mentors, as well as helping with other administrative tasks. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.",Prerequisite:CHEM 4910 and permission of instructor.,When Offered: Fall annually,['CHEM 4910'],['CHEM 4910'],Science
+EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,MR,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,12,9,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65468,4020,01,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
+EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,W,10:00AM,10:50AM,Elizabeth Anne Sprague,Russell Sage Laboratory 4112,12,9,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65468,4020,01,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
+EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,TF,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,12,4,8,CHEM,2024-08-28,2024-12-20,FALL 2024,68962,4020,02,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
+EXPERIMENTAL CHMISTRY III:INORGANIC AND PHYSICAL METHODS,LEC,3,W,10:00AM,10:50AM,Elizabeth Anne Sprague,Russell Sage Laboratory 4112,12,4,8,CHEM,2024-08-28,2024-12-20,FALL 2024,68962,4020,02,CHEM-4020,Experimental Chmistry III:INORGANIC And Physical Methods,"Laboratory exploration including synthesis and characterization of several types of inorganic compounds, with emphasis on the use of physical methods in inorganic chemistry. Communication of results in written and oral form is an integral part of the course. This is a communication-intensive course.",Prerequisite: CHEM 2120; Corequisites: CHEM 4010 and CHEM 4410.,When Offered: Fall term annually.,['CHEM 2120'],['CHEM 2120'],Science
+LDRSHP IN CHEM: MENTORING 2,LEC,2,,,,Alexander C. Ma,TBA,10,6,4,CHEM,2024-08-28,2024-12-20,FALL 2024,69862,4920,01,CHEM-4920,Ldrshp In CHEM: Mentoring 2,"As a senior chemistry mentor, the student will meet and provide leadership for a group of mentors every week. The supervisory sessions will address topics such as facilitation skills, problem-solving skills, coping skills, time-management skills, etc... As a senior chemistry mentor, the student is expected to train and supervise new and returning mentors, as well as helping with other administrative tasks. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.",Prerequisite:CHEM 4910 and permission of instructor.,When Offered: Fall annually,['CHEM 4910'],['CHEM 4910'],Science
 EXPR CHEM III ABRIDG: PHYS MTH,LEC,2,MR,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,12,2,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68825,4030,01,CHEM-4030,Expr Chem Iii ABRIDG: Phys Mth,Laboratory exploration of physical methods used to characterize the structure and properties of compounds. Involves the experiments in CHEM 4020 that do not depend on the theoretical material of CHEM 4010.,Prerequisite - CHEM 2120; Pre or Corequisite - CHEM 4410,When Offered: Fall term annually,"['CHEM 2120', 'CHEM 4410']","['CHEM 2120', 'CHEM 4410']",Science
 EXPR CHEM III ABRIDG: PHYS MTH,LEC,2,W,10:00AM,10:50AM,Elizabeth Anne Sprague,Russell Sage Laboratory 4112,12,2,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68825,4030,01,CHEM-4030,Expr Chem Iii ABRIDG: Phys Mth,Laboratory exploration of physical methods used to characterize the structure and properties of compounds. Involves the experiments in CHEM 4020 that do not depend on the theoretical material of CHEM 4010.,Prerequisite - CHEM 2120; Pre or Corequisite - CHEM 4410,When Offered: Fall term annually,"['CHEM 2120', 'CHEM 4410']","['CHEM 2120', 'CHEM 4410']",Science
 EXPR CHEM III ABRIDG: PHYS MTH,LEC,2,TF,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,12,1,11,CHEM,2024-08-28,2024-12-20,FALL 2024,68963,4030,02,CHEM-4030,Expr Chem Iii ABRIDG: Phys Mth,Laboratory exploration of physical methods used to characterize the structure and properties of compounds. Involves the experiments in CHEM 4020 that do not depend on the theoretical material of CHEM 4010.,Prerequisite - CHEM 2120; Pre or Corequisite - CHEM 4410,When Offered: Fall term annually,"['CHEM 2120', 'CHEM 4410']","['CHEM 2120', 'CHEM 4410']",Science
@@ -1758,211 +1797,213 @@ MODERN TECHNIQUES IN CHEMISTRY,LEC,4,MR,8:00AM,10:50AM,Simon Nicholas Platts,Wal
 MODERN TECHNIQUES IN CHEMISTRY,LEC,4,MR,4:00PM,5:20PM,Simon Nicholas Platts,Pittsburgh Building 5114,16,13,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65287,4530,01,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
 MODERN TECHNIQUES IN CHEMISTRY,LEC,4,MR,4:00PM,5:20PM,Simon Nicholas Platts,Pittsburgh Building 5114,16,16,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65479,4530,02,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
 MODERN TECHNIQUES IN CHEMISTRY,LEC,4,TF,8:00AM,10:50AM,Simon Nicholas Platts,Walker Laboratory 3109,16,16,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65479,4530,02,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
-CHEMISTRY TEACHING PRACTICUM,LEC,1,,,,Alexander C. Ma/Kathleen Lillian Morrissey,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69863,4930,01,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
+CHEMISTRY TEACHING PRACTICUM,LEC,1,,,,Alexander C. Ma/Kathleen Lillian Morrissey,TBA,5,9,-4,CHEM,2024-08-28,2024-12-20,FALL 2024,69863,4930,01,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
 CHEMISTRY TEACHING PRACTICUM,LEC,2,,,,Alexander C. Ma/Kathleen Lillian Morrissey,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69864,4930,02,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
 CHEMISTRY TEACHING PRACTICUM,LEC,1,,,,Elizabeth Anne Sprague,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69865,4930,03,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
 CHEMISTRY TEACHING PRACTICUM,LEC,2,,,,Elizabeth Anne Sprague,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69866,4930,04,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
-CHEMISTRY TEACHING PRACTICUM,LEC,1,,,,Margarita L Kirova-Snover,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69872,4930,05,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
-CHEMISTRY TEACHING PRACTICUM,LEC,2,,,,Margarita L Kirova-Snover,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69873,4930,06,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
+CHEMISTRY TEACHING PRACTICUM,LEC,1,,,,Margarita L Kirova-Snover,TBA,5,10,-5,CHEM,2024-08-28,2024-12-20,FALL 2024,69872,4930,05,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
+CHEMISTRY TEACHING PRACTICUM,LEC,2,,,,Margarita L Kirova-Snover,TBA,5,5,0,CHEM,2024-08-28,2024-12-20,FALL 2024,69873,4930,06,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
 CHEMISTRY TEACHING PRACTICUM,LEC,1,,,,Filbert Totsingan,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69874,4930,07,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
 CHEMISTRY TEACHING PRACTICUM,LEC,2,,,,Filbert Totsingan,TBA,5,0,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69875,4930,08,CHEM-4930,Chemistry Teaching Practicum,The course will address topics such as teaching techniques and problem solving techniques for related chemistry courses. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,Permission of instructor.,When Offered: Fall and Spring terms annually,[],[],Science
 ORGANIC SYNTHESIS & STEREOCHMS,LEC,3,MR,12:00PM,1:20PM,Filbert Totsingan,Lally Hall 02,15,3,12,CHEM,2024-08-28,2024-12-20,FALL 2024,69432,6964,01,CHEM-6964,Organic Synthesis & Stereochms,,,,[],[],Science
 PROTEIN STRUCT & DEEP LEARNING,LEC,1,W,2:00PM,3:30PM,Gaetano T. Montelione,Russell Sage Laboratory 2112,20,3,17,CHEM,2024-08-28,2024-12-20,FALL 2024,69323,6965,01,CHEM-6965,Protein Struct & Deep Learning,,,,[],[],Science
-INSTRUMENTAL METHODS OF ANALYSIS,LEC,3,TF,2:00PM,3:20PM,Jacob Thomas Shelley,Darrin Communications Center 232,20,13,7,CHEM,2024-08-28,2024-12-20,FALL 2024,68571,4110,01,CHEM-4110,Instrumental Methods Of Analysis,"This course will introduce advanced instrumental physicochemical methods of chemical analysis as well as instrument design and data capture/processing. Topics covered include atomic and molecular spectroscopy, chromatography, electroanalytical chemistry and measurement basics. This course is a prerequisite or corequisite for CHEM 4120/ CHEM 4130.",Prerequisites: CHEM 2110 and CHEM 2120 or permission of the instructor.Attributes Data Intensive 2,When Offered: Fall term annually.,"['CHEM 2110', 'CHEM 2120']","['CHEM 2110', 'CHEM 2120']",Science
-MENTOR FIRST-YEAR CHEM STDNTS,LEC,2,,,,Alexander C. Ma,TBA,40,1,39,CHEM,2024-08-28,2024-12-20,FALL 2024,69860,2910,01,CHEM-2910,Mentor FIRST-YEAR Chem Stdnts,"As a Freshmen Chemistry Mentor in the I-PERSIST program, the student is assigned to meet and provide leadership and support for two groups of students every week. The mentoring sessions will address topics such as problem-solving skills for chemistry, coping skills, time-management skills, etc. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement. Students are selected for participation as mentors by Student Life staff and Chemistry faculty.","Prerequisites: CHEM 1100, CHEM 1110, or CHEM 1120; Mentor Training Program, and permission of instructor.",When Offered: Fall annually,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
-CULMINATING RESEARCH EXP,LEC,1,,,,Gerald M Korenowski,TBA,30,8,22,CHEM,2024-08-28,2024-12-20,FALL 2024,69768,4950,01,CHEM-4950,Culminating Research Exp,"Culmination of an independent research project under the guidance of a faculty member or external research project or internship. As a confirmation of their ability to integrate their knowledge of chemistry to deal with a research problem, students will present an oral presentation on their independent work and a research-style paper.","Prerequisites - a minimum of 3 credits combined of CHEM 2930, CHEM 2940, CHEM 2950, or CHEM 4970, or a SURP/URP or internship position.",,"['CHEM 2930', 'CHEM 2940', 'CHEM 2950', 'CHEM 4970']","['CHEM 2930', 'CHEM 2940', 'CHEM 2950', 'CHEM 4970']",Science
+INSTRUMENTAL METHODS OF ANALYSIS,LEC,3,TF,2:00PM,3:20PM,Jacob Thomas Shelley,Darrin Communications Center 232,20,15,5,CHEM,2024-08-28,2024-12-20,FALL 2024,68571,4110,01,CHEM-4110,Instrumental Methods Of Analysis,"This course will introduce advanced instrumental physicochemical methods of chemical analysis as well as instrument design and data capture/processing. Topics covered include atomic and molecular spectroscopy, chromatography, electroanalytical chemistry and measurement basics. This course is a prerequisite or corequisite for CHEM 4120/ CHEM 4130.",Prerequisites: CHEM 2110 and CHEM 2120 or permission of the instructor.Attributes Data Intensive 2,When Offered: Fall term annually.,"['CHEM 2110', 'CHEM 2120']","['CHEM 2110', 'CHEM 2120']",Science
+MENTOR FIRST-YEAR CHEM STDNTS,LEC,2,,,,Alexander C. Ma,TBA,40,26,14,CHEM,2024-08-28,2024-12-20,FALL 2024,69860,2910,01,CHEM-2910,Mentor FIRST-YEAR Chem Stdnts,"As a Freshmen Chemistry Mentor in the I-PERSIST program, the student is assigned to meet and provide leadership and support for two groups of students every week. The mentoring sessions will address topics such as problem-solving skills for chemistry, coping skills, time-management skills, etc. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement. Students are selected for participation as mentors by Student Life staff and Chemistry faculty.","Prerequisites: CHEM 1100, CHEM 1110, or CHEM 1120; Mentor Training Program, and permission of instructor.",When Offered: Fall annually,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CULMINATING RESEARCH EXP,LEC,1,,,,Gerald M Korenowski,TBA,30,13,17,CHEM,2024-08-28,2024-12-20,FALL 2024,69768,4950,01,CHEM-4950,Culminating Research Exp,"Culmination of an independent research project under the guidance of a faculty member or external research project or internship. As a confirmation of their ability to integrate their knowledge of chemistry to deal with a research problem, students will present an oral presentation on their independent work and a research-style paper.","Prerequisites - a minimum of 3 credits combined of CHEM 2930, CHEM 2940, CHEM 2950, or CHEM 4970, or a SURP/URP or internship position.",,"['CHEM 2930', 'CHEM 2940', 'CHEM 2950', 'CHEM 4970']","['CHEM 2930', 'CHEM 2940', 'CHEM 2950', 'CHEM 4970']",Science
 CHEMICAL BIOLOGY,LEC,3,MR,4:00PM,5:20PM,K. V. Lakshmi,Jonsson Engineering Center 3207,20,6,14,CHEM,2024-08-28,2024-12-20,FALL 2024,67638,6710,01,CHEM-6710,Chemical Biology,This course introduces the fundamentals of protein structure and function with an emphasis on chemical concepts as applied to biological problems. It provides an introduction to enzymatic reaction mechanisms and includes interactive hands-on computer-aided visualization exercises. The goal is to equip students with an understanding and appreciation for the diversity and versatility of protein function. This course is intended for graduate or upper-level undergraduate students in the School of Science and Engineering.,,When Offered: Fall term annually.,[],[],Science
-MASS SPECTROMETRY,LEC,3,TF,8:00AM,9:20AM,Jacob Thomas Shelley,Troy Building 2015,20,1,19,CHEM,2024-08-28,2024-12-20,FALL 2024,69775,4130,01,CHEM-4130,Mass Spectrometry,"Survey of modern techniques in and associated with mass spectrometry, including historical perspectives, strengths/weaknesses, detection/quantification of analytes, ionization source/mass analyzer design, and construction of associated technologies including vacuum systems, ion detection, and ion optics. Ion formation processes will also be discussed.",Prerequisites: PHYS 1200 and MATH 1020,When Offered: Fall term upon sufficient demand.,"['PHYS 1200', 'MATH 1020']","['PHYS 1200', 'MATH 1020']",Science
-CHEMICAL BIOLOGY,LEC,3,MR,4:00PM,5:20PM,K. V. Lakshmi,Jonsson Engineering Center 3207,20,7,13,CHEM,2024-08-28,2024-12-20,FALL 2024,68652,4710,01,CHEM-4710,Chemical Biology,This course introduces the fundamentals of protein structure and function with an emphasis on chemical concepts as applied to biological problems. It provides an introduction to enzymatic reaction mechanisms and includes interactive hands-on computer-aided visualization exercises. The goal is to equip students with an understanding and appreciation for the diversity and versatility of protein function. This course is intended for upper-level undergraduate students in the School of Science and Engineering.,,When Offered: Fall term annually.,[],[],Science
-MEDICINAL CHEMISTRY,LEC,3,TF,12:00PM,1:20PM,Christopher Lawrence Cioffi,Jonsson-Rowland Science Center 1W01,20,3,17,CHEM,2024-08-28,2024-12-20,FALL 2024,69591,6300,01,CHEM-6300,Medicinal Chemistry,"This course explores the fundamental principles that define the relationship between chemical structure and the biological action of drug molecules. A major focus of the course is the application of these chemical principles to molecular-targeted drug discovery, molecular mechanisms of pharmacological activity, and the biopharmaceutical properties of drugs. The relationships between drug structure, therapeutic properties, and physicochemical characteristics will be discussed. Structure activity relationships (SAR), structure-property relationships (SPR) and ADME (absorption, distribution, metabolism, and excretion) will be explored and presented through case studies. The roles of computational chemistry, molecular modeling, and biophysical methods in the understanding of the relationship between structure and biological activity will also be studied. Although an emphasis will be placed on orally bioavailable small molecules, alternative drug modalities will also be discussed.",,When Offered: Fall annually.,[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,R,8:00AM,10:50AM,Kathleen Lillian Morrissey/Steven A. Tysoe,Walker Laboratory 5113,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,R,11:00AM,11:50AM,TBA,Russell Sage Laboratory 3101,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,R,10:00AM,10:50AM,TBA,Russell Sage Laboratory 3101,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,R,11:00AM,1:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,R,2:00PM,4:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,R,5:00PM,5:50PM,TBA,Walker Laboratory 6113,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,F,8:00AM,10:50AM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,F,11:00AM,11:50AM,TBA,Walker Laboratory 6113,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,8:00AM,9:20AM,Michael Edward Van Valkenburg/Alexander C. Ma,Darrin Communications Center 308,60,39,21,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,39,21,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,F,10:00AM,10:50AM,TBA,Walker Laboratory 6113,60,39,21,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,F,11:00AM,1:50PM,Kathleen Lillian Morrissey/Michael Edward Van Valkenburg,Walker Laboratory 5113,60,39,21,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,8:00AM,9:20AM,Michael Edward Van Valkenburg/Alexander C. Ma,Darrin Communications Center 308,60,43,17,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,43,17,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,F,1:00PM,1:50PM,TBA,Russell Sage Laboratory 5101,60,43,17,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,F,2:00PM,4:50PM,Kathleen Lillian Morrissey/Steven A. Tysoe,Walker Laboratory 5113,60,43,17,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,M,8:00AM,10:50AM,Kathleen Lillian Morrissey/Steven A. Tysoe,Walker Laboratory 5113,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,M,11:00AM,11:50AM,TBA,Troy Building 2018,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,M,10:00AM,10:50AM,TBA,Troy Building 2018,60,33,27,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,M,11:00AM,1:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,33,27,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,TF,8:00AM,9:20AM,Michael Edward Van Valkenburg/Alexander C. Ma,Darrin Communications Center 308,60,33,27,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,33,27,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
-CHEMISTRY I,LEC,4,TF,10:00AM,11:20AM,Alexander C. Ma,Darrin Communications Center 318,30,32,-2,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,30,32,-2,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,9:00AM,11:50AM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,30,32,-2,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,12:00PM,12:50PM,TBA,Amos Eaton Hall 215,30,32,-2,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,TF,10:00AM,11:20AM,Alexander C. Ma,Darrin Communications Center 318,60,54,6,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,54,6,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,12:00PM,2:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,54,6,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,3:00PM,3:50PM,TBA,Low Center for Industrial Inn. 3112,60,54,6,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,TF,10:00AM,11:20AM,Alexander C. Ma,Darrin Communications Center 318,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,2:00PM,2:50PM,TBA,Low Center for Industrial Inn. 3112,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-CHEMISTRY I,LEC,4,W,3:00PM,5:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,59,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
-EQUILIBRIUM CHEMISTRY AND QUANTITATIVE ANALYSIS,LEC,3,TWF,10:00AM,10:50AM,Kristin Nicole Johnson,Russell Sage Laboratory 5101,25,17,8,CHEM,2024-08-28,2024-12-20,FALL 2024,65466,2110,01,CHEM-2110,Equilibrium Chemistry And Quantitative Analysis,"This course covers principles of equilibrium chemistry including acid-base and redox equilibria, ideal and nonideal treatments of equilibrium, complex simultaneous equilibria, and equilibrium as it relates to titrations and precipitation reactions in quantitative analysis. It also deals with basic electrochemistry and electro-analytical and spectroscopic methods of quantitative analysis and gravimetric methods. Students cannot get credit for both this course and CHEM 4530.",Prerequisite: CHEM 1200 or CHEM 1210 or CHEM 1220.,When Offered: Fall term annually.,"['CHEM 1200', 'CHEM 1210', 'CHEM 1220']","['CHEM 1200', 'CHEM 1210', 'CHEM 1220']",Science
-MEDICINAL CHEMISTRY,LEC,3,TF,12:00PM,1:20PM,Christopher Lawrence Cioffi,Jonsson-Rowland Science Center 1W01,14,10,4,CHEM,2024-08-28,2024-12-20,FALL 2024,69590,4300,01,CHEM-4300,Medicinal Chemistry,"This course explores the fundamental principles that define the relationship between chemical structure and the biological action of drug molecules. A major focus of the course is the application of these chemical principles to molecular-targeted drug discovery, molecular mechanisms of pharmacological activity, and the biopharmaceutical properties of drugs. The relationships between drug structure, therapeutic properties, and physicochemical characteristics will be discussed. Structure activity relationships (SAR), structure-property relationships (SPR) and ADME (absorption, distribution, metabolism, and excretion) will be explored and presented through case studies. The roles of computational chemistry, molecular modeling, and biophysical methods in the understanding of the relationship between structure and biological activity will also be studied. Although an emphasis will be placed on orally bioavailable small molecules, alternative drug modalities will also be discussed.",Prerequisite: CHEM 2260 or permission of instructor.,When Offered: Fall annually.,['CHEM 2260'],['CHEM 2260'],Science
-MOLECULAR BIOCHEM I,LEC,4,MR,10:00AM,11:50AM,George I. Makhatadze,Darrin Communications Center 330,100,11,89,CHEM,2024-08-28,2024-12-20,FALL 2024,65072,4760,01,CHEM-4760,Molecular Biochem I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites/Corequisites: CHEM 2250 and BIOL 1010 or BIOL 2120 or equivalents.,When Offered: Fall term annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
+MASS SPECTROMETRY,LEC,3,TF,8:00AM,9:20AM,Jacob Thomas Shelley,Materials Research Center 136,20,2,18,CHEM,2024-08-28,2024-12-20,FALL 2024,69775,4130,01,CHEM-4130,Mass Spectrometry,"Survey of modern techniques in and associated with mass spectrometry, including historical perspectives, strengths/weaknesses, detection/quantification of analytes, ionization source/mass analyzer design, and construction of associated technologies including vacuum systems, ion detection, and ion optics. Ion formation processes will also be discussed.",Prerequisites: PHYS 1200 and MATH 1020,When Offered: Fall term upon sufficient demand.,"['PHYS 1200', 'MATH 1020']","['PHYS 1200', 'MATH 1020']",Science
+CHEMICAL BIOLOGY,LEC,3,MR,4:00PM,5:20PM,K. V. Lakshmi,Jonsson Engineering Center 3207,20,5,15,CHEM,2024-08-28,2024-12-20,FALL 2024,68652,4710,01,CHEM-4710,Chemical Biology,This course introduces the fundamentals of protein structure and function with an emphasis on chemical concepts as applied to biological problems. It provides an introduction to enzymatic reaction mechanisms and includes interactive hands-on computer-aided visualization exercises. The goal is to equip students with an understanding and appreciation for the diversity and versatility of protein function. This course is intended for upper-level undergraduate students in the School of Science and Engineering.,,When Offered: Fall term annually.,[],[],Science
+MEDICINAL CHEMISTRY,LEC,3,TF,12:00PM,1:20PM,Christopher Lawrence Cioffi,Jonsson-Rowland Science Center 1W01,20,2,18,CHEM,2024-08-28,2024-12-20,FALL 2024,69591,6300,01,CHEM-6300,Medicinal Chemistry,"This course explores the fundamental principles that define the relationship between chemical structure and the biological action of drug molecules. A major focus of the course is the application of these chemical principles to molecular-targeted drug discovery, molecular mechanisms of pharmacological activity, and the biopharmaceutical properties of drugs. The relationships between drug structure, therapeutic properties, and physicochemical characteristics will be discussed. Structure activity relationships (SAR), structure-property relationships (SPR) and ADME (absorption, distribution, metabolism, and excretion) will be explored and presented through case studies. The roles of computational chemistry, molecular modeling, and biophysical methods in the understanding of the relationship between structure and biological activity will also be studied. Although an emphasis will be placed on orally bioavailable small molecules, alternative drug modalities will also be discussed.",,When Offered: Fall annually.,[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,R,8:00AM,10:50AM,Kathleen Lillian Morrissey/Steven A. Tysoe,Walker Laboratory 5113,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,R,11:00AM,11:50AM,TBA,Russell Sage Laboratory 3101,60,57,3,CHEM,2024-08-28,2024-12-20,FALL 2024,66776,1100,04,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,R,10:00AM,10:50AM,TBA,Russell Sage Laboratory 3101,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,R,11:00AM,1:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,65473,1100,05,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,58,2,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,58,2,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,R,2:00PM,4:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,58,2,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,R,5:00PM,5:50PM,TBA,Walker Laboratory 6113,60,58,2,CHEM,2024-08-28,2024-12-20,FALL 2024,65478,1100,06,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,F,8:00AM,10:50AM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,F,11:00AM,11:50AM,TBA,Walker Laboratory 6113,60,60,0,CHEM,2024-08-28,2024-12-20,FALL 2024,65474,1100,07,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,8:00AM,9:20AM,Michael Edward Van Valkenburg/Alexander C. Ma,Darrin Communications Center 318,60,40,20,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,40,20,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,F,10:00AM,10:50AM,TBA,Walker Laboratory 6113,60,40,20,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,F,11:00AM,1:50PM,Kathleen Lillian Morrissey/Michael Edward Van Valkenburg,Walker Laboratory 5113,60,40,20,CHEM,2024-08-28,2024-12-20,FALL 2024,65475,1100,08,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,8:00AM,9:20AM,Michael Edward Van Valkenburg/Alexander C. Ma,Darrin Communications Center 318,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,F,1:00PM,1:50PM,TBA,Russell Sage Laboratory 5101,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,F,2:00PM,4:50PM,Kathleen Lillian Morrissey/Steven A. Tysoe,Walker Laboratory 5113,60,45,15,CHEM,2024-08-28,2024-12-20,FALL 2024,65476,1100,09,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,M,8:00AM,10:50AM,Kathleen Lillian Morrissey/Steven A. Tysoe,Walker Laboratory 5113,60,47,13,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,M,11:00AM,11:50AM,TBA,Troy Building 2018,60,47,13,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,12:00PM,1:20PM,Steven A. Tysoe/Alexander C. Ma,Darrin Communications Center 308,60,47,13,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,47,13,CHEM,2024-08-28,2024-12-20,FALL 2024,65477,1100,10,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,M,10:00AM,10:50AM,TBA,Troy Building 2018,60,32,28,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,M,11:00AM,1:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,32,28,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,TF,8:00AM,9:20AM,Michael Edward Van Valkenburg/Alexander C. Ma,Darrin Communications Center 318,60,32,28,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+PRINCIPLES OF CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,32,28,CHEM,2024-08-28,2024-12-20,FALL 2024,65845,1100,11,CHEM-1100,Principles Of Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.  Students cannot receive credit for this course and CHEM 1110 or CHEM 1120.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,TF,10:00AM,11:20AM,Alexander C. Ma,Darrin Communications Center 318,30,29,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,30,29,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,9:00AM,11:50AM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,30,29,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,12:00PM,12:50PM,TBA,Amos Eaton Hall 215,30,29,1,CHEM,2024-08-28,2024-12-20,FALL 2024,66301,1110,01,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,TF,10:00AM,11:20AM,Alexander C. Ma,Darrin Communications Center 318,60,51,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,51,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,12:00PM,2:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,51,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,3:00PM,3:50PM,TBA,Low Center for Industrial Inn. 3112,60,51,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66302,1110,02,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,TF,10:00AM,11:20AM,Alexander C. Ma,Darrin Communications Center 318,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,8:00AM,8:50AM,TBA,TBA,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,2:00PM,2:50PM,TBA,Low Center for Industrial Inn. 3112,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+CHEMISTRY I,LEC,4,W,3:00PM,5:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,56,4,CHEM,2024-08-28,2024-12-20,FALL 2024,66303,1110,03,CHEM-1110,Chemistry I,"Covers the same lecture material as CHEM 1100. Topics including Molecular Orbital (MO) theory, band theory, organic reactions, and balancing redox reactions will also be covered. Laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry. Students cannot receive credit for this course and CHEM 1100 or CHEM 1120.",,When Offered: Fall term annually.,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-12,,,,Richard Alan Gross,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66934,6970,01,CHEM-6970,Professional Project,"Active participation in a semester-long research project, under the supervision of a faculty adviser, leading to a master's project report. This research project serves as the culminating experience for the master's project track. The research project must result in documentation established by the department, but is not submitted to the Office of Graduate Education and is not archived in the library.",,,[],[],Science
+EQUILIBRIUM CHEMISTRY AND QUANTITATIVE ANALYSIS,LEC,3,TWF,10:00AM,10:50AM,Kristin Nicole Johnson,Russell Sage Laboratory 5101,25,18,7,CHEM,2024-08-28,2024-12-20,FALL 2024,65466,2110,01,CHEM-2110,Equilibrium Chemistry And Quantitative Analysis,"This course covers principles of equilibrium chemistry including acid-base and redox equilibria, ideal and nonideal treatments of equilibrium, complex simultaneous equilibria, and equilibrium as it relates to titrations and precipitation reactions in quantitative analysis. It also deals with basic electrochemistry and electro-analytical and spectroscopic methods of quantitative analysis and gravimetric methods. Students cannot get credit for both this course and CHEM 4530.",Prerequisite: CHEM 1200 or CHEM 1210 or CHEM 1220.,When Offered: Fall term annually.,"['CHEM 1200', 'CHEM 1210', 'CHEM 1220']","['CHEM 1200', 'CHEM 1210', 'CHEM 1220']",Science
+MEDICINAL CHEMISTRY,LEC,3,TF,12:00PM,1:20PM,Christopher Lawrence Cioffi,Jonsson-Rowland Science Center 1W01,14,9,5,CHEM,2024-08-28,2024-12-20,FALL 2024,69590,4300,01,CHEM-4300,Medicinal Chemistry,"This course explores the fundamental principles that define the relationship between chemical structure and the biological action of drug molecules. A major focus of the course is the application of these chemical principles to molecular-targeted drug discovery, molecular mechanisms of pharmacological activity, and the biopharmaceutical properties of drugs. The relationships between drug structure, therapeutic properties, and physicochemical characteristics will be discussed. Structure activity relationships (SAR), structure-property relationships (SPR) and ADME (absorption, distribution, metabolism, and excretion) will be explored and presented through case studies. The roles of computational chemistry, molecular modeling, and biophysical methods in the understanding of the relationship between structure and biological activity will also be studied. Although an emphasis will be placed on orally bioavailable small molecules, alternative drug modalities will also be discussed.",Prerequisite: CHEM 2260 or permission of instructor.,When Offered: Fall annually.,['CHEM 2260'],['CHEM 2260'],Science
+MOLECULAR BIOCHEM I,LEC,4,MR,10:00AM,11:50AM,George I. Makhatadze,Darrin Communications Center 330,100,10,90,CHEM,2024-08-28,2024-12-20,FALL 2024,65072,4760,01,CHEM-4760,Molecular Biochem I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites/Corequisites: CHEM 2250 and BIOL 1010 or BIOL 2120 or equivalents.,When Offered: Fall term annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
 CHEMISTRY SEMINAR,LEC,1,T,4:00PM,5:30PM,Wilfredo Colon,Low Center for Industrial Inn. 4040,30,20,10,CHEM,2024-08-28,2024-12-20,FALL 2024,65241,6900,01,CHEM-6900,Chemistry Seminar,,,,[],[],Science
-MASTER'S THESIS,LEC,1-12,,,,K. V. Lakshmi,TBA,10,0,10,CHEM,2024-08-28,2024-12-20,FALL 2024,68099,6990,01,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,K. V. Lakshmi,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,68099,6990,01,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-12,,,,Jacob Thomas Shelley,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66644,6990,02,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Gaetano T. Montelione,TBA,10,1,9,CHEM,2024-08-28,2024-12-20,FALL 2024,66659,6990,03,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-12,,,,Wilfredo Colon,TBA,10,0,10,CHEM,2024-08-28,2024-12-20,FALL 2024,66846,6990,04,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-12,,,,Richard Alan Gross,TBA,10,0,10,CHEM,2024-08-28,2024-12-20,FALL 2024,67557,6990,07,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 CHEMISTRY I HONORS,LEC,4,TF,10:00AM,11:20AM,Gerald M Korenowski/Alexander C. Ma,Darrin Communications Center 235,30,15,15,CHEM,2024-08-28,2024-12-20,FALL 2024,69394,1120,01,CHEM-1120,Chemistry I Honors,"Covers the same lecture material as CHEM 1110. In addition, students will be performing each experiment individually to better prepare them for the upper-level laboratory courses in chemistry.  Students cannot receive credit for this course and CHEM 1100 or CHEM 1110. Restricted to Chemistry majors.",,,[],[],Science
 CHEMISTRY I HONORS,LEC,4,W,8:00AM,8:50AM,TBA,TBA,30,15,15,CHEM,2024-08-28,2024-12-20,FALL 2024,69394,1120,01,CHEM-1120,Chemistry I Honors,"Covers the same lecture material as CHEM 1110. In addition, students will be performing each experiment individually to better prepare them for the upper-level laboratory courses in chemistry.  Students cannot receive credit for this course and CHEM 1100 or CHEM 1110. Restricted to Chemistry majors.",,,[],[],Science
 CHEMISTRY I HONORS,LEC,4,W,9:00AM,11:50AM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,30,15,15,CHEM,2024-08-28,2024-12-20,FALL 2024,69394,1120,01,CHEM-1120,Chemistry I Honors,"Covers the same lecture material as CHEM 1110. In addition, students will be performing each experiment individually to better prepare them for the upper-level laboratory courses in chemistry.  Students cannot receive credit for this course and CHEM 1100 or CHEM 1110. Restricted to Chemistry majors.",,,[],[],Science
 CHEMISTRY I HONORS,LEC,4,R,9:00AM,9:50AM,TBA,Amos Eaton Hall 215,30,15,15,CHEM,2024-08-28,2024-12-20,FALL 2024,69394,1120,01,CHEM-1120,Chemistry I Honors,"Covers the same lecture material as CHEM 1110. In addition, students will be performing each experiment individually to better prepare them for the upper-level laboratory courses in chemistry.  Students cannot receive credit for this course and CHEM 1100 or CHEM 1110. Restricted to Chemistry majors.",,,[],[],Science
-EXPERIMENTAL CHEMISTRY I:ANALYTICAL TECHNIQUES,LEC,2,MR,2:00PM,5:50PM,Elizabeth Anne Sprague,Walker Laboratory 3214,18,18,0,CHEM,2024-08-28,2024-12-20,FALL 2024,68826,2120,01,CHEM-2120,Experimental Chemistry I:ANALYTICAL Techniques,A laboratory course dealing with wet and instrumental techniques of chemical analysis.,Prerequisites/Corequisites: Corequisite: CHEM 2110.,When Offered: Fall term annually.,['CHEM 2110'],['CHEM 2110'],Science
-EXPERIMENTAL CHEMISTRY I:ANALYTICAL TECHNIQUES,LEC,2,W,2:00PM,2:50PM,Elizabeth Anne Sprague,Low Center for Industrial Inn. 3130,18,18,0,CHEM,2024-08-28,2024-12-20,FALL 2024,68826,2120,01,CHEM-2120,Experimental Chemistry I:ANALYTICAL Techniques,A laboratory course dealing with wet and instrumental techniques of chemical analysis.,Prerequisites/Corequisites: Corequisite: CHEM 2110.,When Offered: Fall term annually.,['CHEM 2110'],['CHEM 2110'],Science
+EXPERIMENTAL CHEMISTRY I:ANALYTICAL TECHNIQUES,LEC,2,MR,2:00PM,5:50PM,Elizabeth Anne Sprague,Walker Laboratory 3214,18,19,-1,CHEM,2024-08-28,2024-12-20,FALL 2024,68826,2120,01,CHEM-2120,Experimental Chemistry I:ANALYTICAL Techniques,A laboratory course dealing with wet and instrumental techniques of chemical analysis.,Prerequisites/Corequisites: Corequisite: CHEM 2110.,When Offered: Fall term annually.,['CHEM 2110'],['CHEM 2110'],Science
+EXPERIMENTAL CHEMISTRY I:ANALYTICAL TECHNIQUES,LEC,2,W,2:00PM,2:50PM,Elizabeth Anne Sprague,Low Center for Industrial Inn. 3130,18,19,-1,CHEM,2024-08-28,2024-12-20,FALL 2024,68826,2120,01,CHEM-2120,Experimental Chemistry I:ANALYTICAL Techniques,A laboratory course dealing with wet and instrumental techniques of chemical analysis.,Prerequisites/Corequisites: Corequisite: CHEM 2110.,When Offered: Fall term annually.,['CHEM 2110'],['CHEM 2110'],Science
 ORGANIC CHEMISTRY 3,LEC,3,MR,12:00PM,1:20PM,Filbert Totsingan,Lally Hall 02,15,0,15,CHEM,2024-08-28,2024-12-20,FALL 2024,68961,4964,01,CHEM-4964,Organic Chemistry 3,,,,[],[],Science
-CHEMISTRY TEACHING SEMINAR,LEC,1,W,9:00AM,9:50AM,Kathleen Lillian Morrissey,Walker Laboratory 3221,15,5,10,CHEM,2024-08-28,2024-12-20,FALL 2024,65073,6910,01,CHEM-6910,Chemistry Teaching Seminar,"Discussions and seminars on how to deal with the various aspects of teaching and related problems encountered by teaching assistants in chemistry. Seminar topics will include: cognitive theories of learning; several models of teaching; educational psychology; attitude and motivational factors; communication and presentation skills; leadership; time management; how to write an exam; grading problems; ethics; group problem solving skills; and cultural diversity. Seminars will be led by a senior, experienced teaching assistant along with participating faculty.",,When Offered: Fall term annually.,[],[],Science
-WEB SYSTEMS DEVELOPMENT,LEC,4,TF,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 102,5,5,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69559,2110,01,CSCI-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisites - ITWS 1100 Corequisite CSCI 1200,When Offered: Fall annually,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Science
-WEB SYSTEMS DEVELOPMENT,LEC,4,TF,2:00PM,3:50PM,Brian Robert Callahan,Lally Hall 102,5,5,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69560,2110,02,CSCI-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisites - ITWS 1100 Corequisite CSCI 1200,When Offered: Fall annually,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Science
-INTRO TO COMPETITIVE PROG,LEC,4,MR,4:00PM,5:50PM,Konstantin Kuzmin,Jonsson Engineering Center 4309,20,18,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69683,2960,01,CSCI-2960,Intro To Competitive Prog,,,,[],[],Science
-MACHINE LEARNING & OPTIMIZTN,LEC,4,MR,2:00PM,3:50PM,Alex Algernon Theodore Gittens,Lally Hall 104,40,21,19,CSCI,2024-08-28,2024-12-20,FALL 2024,69892,4140,01,CSCI-4140,Machine Learning & Optimiztn,"The first portion of this course introduces the optimization background necessary to understand the algorithms that dominate the landscape of machine learning. The second portion introduces effective architectures used in modern machine learning. Students revisit classical models and learn state-of-the-art models, always in service of gaining algorithmic insight that is broadly useful beyond specific models.","Prerequisite: CSCI 2300; and CSCI 2210 or MATH 4100, or permission of instructor.",When Offered: Spring annually,"['CSCI 2300', 'CSCI 2210', 'MATH 4100']","['CSCI 2300', 'CSCI 2210', 'MATH 4100']",Science
-DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,10,12,-2,CSCI,2024-08-28,2024-12-20,FALL 2024,67209,4350,01,CSCI-4350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites/Corequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Science
+CHEMISTRY TEACHING SEMINAR,LEC,1,W,2:00PM,2:50PM,Kathleen Lillian Morrissey,Walker Laboratory 3221,15,4,11,CHEM,2024-08-28,2024-12-20,FALL 2024,65073,6910,01,CHEM-6910,Chemistry Teaching Seminar,"Discussions and seminars on how to deal with the various aspects of teaching and related problems encountered by teaching assistants in chemistry. Seminar topics will include: cognitive theories of learning; several models of teaching; educational psychology; attitude and motivational factors; communication and presentation skills; leadership; time management; how to write an exam; grading problems; ethics; group problem solving skills; and cultural diversity. Seminars will be led by a senior, experienced teaching assistant along with participating faculty.",,When Offered: Fall term annually.,[],[],Science
+WEB SYSTEMS DEVELOPMENT,LEC,4,TF,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 102,5,3,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69559,2110,01,CSCI-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisites - ITWS 1100 Corequisite CSCI 1200,When Offered: Fall annually,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Science
+WEB SYSTEMS DEVELOPMENT,LEC,4,TF,2:00PM,3:50PM,Brian Robert Callahan,Lally Hall 102,5,4,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69560,2110,02,CSCI-2110,Web Systems Development,"This course involves a study of the methods used to extract and deliver dynamic information on the World Wide Web. The course uses a hands-on approach in which students actively develop Web-based software systems. Additional topics include installation, configuration, and management of Web servers. Students are required to have access to a PC on which they can install software such as a Web server and various programming environments.",Prerequisites - ITWS 1100 Corequisite CSCI 1200,When Offered: Fall annually,"['ITWS 1100', 'CSCI 1200']","['ITWS 1100', 'CSCI 1200']",Science
+INTRO TO COMPETITIVE PROG,LEC,4,MR,4:00PM,5:50PM,Konstantin Kuzmin,Jonsson Engineering Center 4309,20,11,9,CSCI,2024-08-28,2024-12-20,FALL 2024,69683,2960,01,CSCI-2960,Intro To Competitive Prog,,,,[],[],Science
+MACHINE LEARNING & OPTIMIZTN,LEC,4,MR,2:00PM,3:50PM,Alex Algernon Theodore Gittens,Lally Hall 104,40,15,25,CSCI,2024-08-28,2024-12-20,FALL 2024,69892,4140,01,CSCI-4140,Machine Learning & Optimiztn,"The first portion of this course introduces the optimization background necessary to understand the algorithms that dominate the landscape of machine learning. The second portion introduces effective architectures used in modern machine learning. Students revisit classical models and learn state-of-the-art models, always in service of gaining algorithmic insight that is broadly useful beyond specific models.","Prerequisite: CSCI 2300; and CSCI 2210 or MATH 4100, or permission of instructor.",When Offered: Spring annually,"['CSCI 2300', 'CSCI 2210', 'MATH 4100']","['CSCI 2300', 'CSCI 2210', 'MATH 4100']",Science
+DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,10,14,-4,CSCI,2024-08-28,2024-12-20,FALL 2024,67209,4350,01,CSCI-4350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites/Corequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Science
 DECISION MAKING UNDER UNCERTAI,LEC,3,TF,10:00AM,11:20AM,Esen Yel,Jonsson Engineering Center 6309,15,8,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67676,6968,01,CSCI-6968,Decision Making Under Uncertai,"This course introduces methods for automating the process of decision-making. Starting with the concept of probabilistic reasoning, this course will provide a foundation for a sequential decision-making framework, which can be applied in various domains including autonomous driving, exploration, and robotics. The focus will specifically be on decision making problems under state uncertainty and finally multi-agent systems. Topics include Bayesian networks, Markov decision process, partially observable Markov decision processes, multi-agent reasoning.","Prerequisites: Knowledge of basic probability and fluency in a programming language (e.g., Python, MATLAB or Julia) is recommended for this course.",,[],[],Science
-DATA AND SOCIETY,LEC,4,MR,10:00AM,11:50AM,Neha Keshan,Amos Eaton Hall 215,50,50,0,CSCI,2024-08-28,2024-12-20,FALL 2024,68655,4370,01,CSCI-4370,Data And Society,"Data and Society provides a broad overview of how society is leveraging and responding to the social, organizational, policy, and technical opportunities and challenges of a data-driven world. Course themes focus on various aspects of the data ecosystem, data and innovation, and data and the broader community. Assignments build writing, presentation, and critical thinking, and assessment skills, all of which are important for professional success. This is a communication-intensive course.",Prerequisite: CSCI 2300 or CSCI 2600,When Offered: Spring term annually.,"['CSCI 2300', 'CSCI 2600']","['CSCI 2300', 'CSCI 2600']",Science
+DATA AND SOCIETY,LEC,4,MR,10:00AM,11:50AM,Neha Keshan,Amos Eaton Hall 215,50,48,2,CSCI,2024-08-28,2024-12-20,FALL 2024,68655,4370,01,CSCI-4370,Data And Society,"Data and Society provides a broad overview of how society is leveraging and responding to the social, organizational, policy, and technical opportunities and challenges of a data-driven world. Course themes focus on various aspects of the data ecosystem, data and innovation, and data and the broader community. Assignments build writing, presentation, and critical thinking, and assessment skills, all of which are important for professional success. This is a communication-intensive course.",Prerequisite: CSCI 2300 or CSCI 2600,When Offered: Spring term annually.,"['CSCI 2300', 'CSCI 2600']","['CSCI 2300', 'CSCI 2600']",Science
 DATA AND SOCIETY,LEC,4,MR,10:00AM,11:50AM,Neha Keshan,Amos Eaton Hall 215,50,0,50,CSCI,2024-08-28,2024-12-20,FALL 2024,68691,6370,01,CSCI-6370,Data And Society,"Data and Society provides a broad overview of how society is leveraging and responding to the social, organizational, policy, and technical opportunities and challenges of a data-driven world. Course themes focus on various aspects of the data ecosystem, data and innovation, and data and the broader community. Assignments build writing, presentation, and critical thinking and assessment skills, all of which are important for professional success. This is a communication-intensive course.",Prerequisites/Corequisites: CSCI 4350/ CSCI 6350 or ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Spring term annually.,"['CSCI 4350', 'CSCI 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ITWS 4350', 'ITWS 6350']",Science
-GRADUATE SKILLS,LEC,1,W,9:00AM,9:50AM,Alex Algernon Theodore Gittens/Tracy A. Hoffman,Russell Sage Laboratory 3101,60,45,15,CSCI,2024-08-28,2024-12-20,FALL 2024,68844,6969,01,CSCI-6969,Graduate Skills,,,,[],[],Science
+GRADUATE SKILLS,LEC,1,W,9:00AM,9:50AM,Alex Algernon Theodore Gittens/Tracy A. Hoffman,Russell Sage Laboratory 3101,60,53,7,CSCI,2024-08-28,2024-12-20,FALL 2024,68844,6969,01,CSCI-6969,Graduate Skills,,,,[],[],Science
 GRADUATE SKILLS,LEC,0,W,9:00AM,9:50AM,Alex Algernon Theodore Gittens/Tracy A. Hoffman,Russell Sage Laboratory 3101,40,0,40,CSCI,2024-08-28,2024-12-20,FALL 2024,68870,6969,02,CSCI-6969,Graduate Skills,,,,[],[],Science
 REINFORCEMENT LEARNING,LEC,4,TF,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3101,50,24,26,CSCI,2024-08-28,2024-12-20,FALL 2024,69893,4160,01,CSCI-4160,Reinforcement Learning,"This is an introductory course on the theory and practice of reinforcement learning (RL). We will derive the full RL framework, starting from Markov chains and Markov reward processes and building up to Markov decision processes. We will then cover classic RL approaches such as dynamic programming, Monte Carlo methods and Q-learning. Furthermore, we will cover more advanced topics such as deep learning, deep RL, as well as policy-gradient and actor-critic methods. Course activities include programming assignments as well as written homework testing students' understanding of the material.","Prerequisite: CSCI 2300; and CSCI 2210 or MATH 4100, or permission of instructor.",When Offered: Fall annually,"['CSCI 2300', 'CSCI 2210', 'MATH 4100']","['CSCI 2300', 'CSCI 2210', 'MATH 4100']",Science
-DATABASE SYSTEMS,LEC,4,TF,8:00AM,9:50AM,Konstantin Kuzmin,Darrin Communications Center 330,100,119,-19,CSCI,2024-08-28,2024-12-20,FALL 2024,65330,4380,01,CSCI-4380,Database Systems,"Discussion of the state of practice in modern database systems, with an emphasis on relational systems. Topics include database design, database system architecture, SQL, normalization techniques, storage structures, query processing, concurrency control, recovery, security, and new directions such as object-oriented and distributed database systems. Students gain hands-on experience with commercial database systems and interface building tools. Programming projects are required.",Prerequisite: CSCI 2300.,When Offered: Fall and spring terms annually.,['CSCI 2300'],['CSCI 2300'],Science
-COMPUTING & QUANTUM COMPUTING,LEC,4,MR,10:00AM,11:50AM,Malik Magdon-Ismail,Russell Sage Laboratory 5101,60,39,21,CSCI,2024-08-28,2024-12-20,FALL 2024,65859,4964,01,CSCI-4964,Computing & Quantum Computing,"A course on the theory and some of the main algorithms in computing. The course starts with Turing Machines and Boolean circuits, and ends with Quantum Computing and the efficiency advantages it offers over classical computing. Students must have a strong background in discrete mathematics, probability and linear algebra, but no background in quantum mechanics or physics is needed.","Prerequisites: CSCI 2200, CSCI 2300, and MATH 2010; strong background in linear algebra and probability also required",,"['CSCI 2200', 'CSCI 2300', 'MATH 2010']",[],Science
+DATABASE SYSTEMS,LEC,4,TF,8:00AM,9:50AM,Konstantin Kuzmin,Darrin Communications Center 330,100,125,-25,CSCI,2024-08-28,2024-12-20,FALL 2024,65330,4380,01,CSCI-4380,Database Systems,"Discussion of the state of practice in modern database systems, with an emphasis on relational systems. Topics include database design, database system architecture, SQL, normalization techniques, storage structures, query processing, concurrency control, recovery, security, and new directions such as object-oriented and distributed database systems. Students gain hands-on experience with commercial database systems and interface building tools. Programming projects are required.",Prerequisite: CSCI 2300.,When Offered: Fall and spring terms annually.,['CSCI 2300'],['CSCI 2300'],Science
+COMPUTING & QUANTUM COMPUTING,LEC,4,MR,10:00AM,11:50AM,Malik Magdon-Ismail,Russell Sage Laboratory 5101,60,29,31,CSCI,2024-08-28,2024-12-20,FALL 2024,65859,4964,01,CSCI-4964,Computing & Quantum Computing,"A course on the theory and some of the main algorithms in computing. The course starts with Turing Machines and Boolean circuits, and ends with Quantum Computing and the efficiency advantages it offers over classical computing. Students must have a strong background in discrete mathematics, probability and linear algebra, but no background in quantum mechanics or physics is needed.","Prerequisites: CSCI 2200, CSCI 2300, and MATH 2010; strong background in linear algebra and probability also required",,"['CSCI 2200', 'CSCI 2300', 'MATH 2010']",[],Science
 DATA MINING,LEC,4,MR,10:00AM,11:50AM,Mohammed J. Zaki,Troy Building 2012,50,7,43,CSCI,2024-08-28,2024-12-20,FALL 2024,68064,6390,01,CSCI-6390,Data Mining,"This course will provide an introductory survey of the main topics in data mining and knowledge discovery in databases (KDD), including: classification, clustering, association rules, sequence mining, similarity search, deviation detection, and so on. Emphasis will be on the algorithmic and system issues in KDD, as well as on applications such as Web mining, multimedia mining, bioinformatics, geographical information systems, etc.",Prerequisites: CSCI 2300.,When Offered: Fall term annually.,['CSCI 2300'],['CSCI 2300'],Science
 SENSE MAKING AND COMPUTATION,LEC,4,MR,4:00PM,5:50PM,Sibel Adali,Darrin Communications Center 239,10,4,6,CSCI,2024-08-28,2024-12-20,FALL 2024,69784,6970,01,CSCI-6970,Sense Making And Computation,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
 FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,63,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67077,2200,01,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
 FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,63,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67077,2200,01,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
 FOUNDATIONS OF COMPUTER SCI,LEC,4,W,10:00AM,11:50AM,TBA,Ricketts Building 211,64,63,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67077,2200,01,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,64,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67221,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,64,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67221,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,12:00PM,1:50PM,TBA,Ricketts Building 211,64,64,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67221,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,64,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67413,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,64,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67413,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,2:00PM,3:50PM,TBA,Ricketts Building 211,64,64,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67413,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,60,4,CSCI,2024-08-28,2024-12-20,FALL 2024,67861,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,60,4,CSCI,2024-08-28,2024-12-20,FALL 2024,67861,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,4:00PM,5:50PM,TBA,Ricketts Building 211,64,60,4,CSCI,2024-08-28,2024-12-20,FALL 2024,67861,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,58,6,CSCI,2024-08-28,2024-12-20,FALL 2024,69113,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,58,6,CSCI,2024-08-28,2024-12-20,FALL 2024,69113,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-FOUNDATIONS OF COMPUTER SCI,LEC,4,W,6:00PM,7:50PM,TBA,Ricketts Building 211,64,58,6,CSCI,2024-08-28,2024-12-20,FALL 2024,69113,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
-DATA MINING,LEC,4,MR,10:00AM,11:50AM,Mohammed J. Zaki,Troy Building 2012,70,63,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67216,4390,01,CSCI-4390,Data Mining,"This course will provide an introductory survey of the main topics in data mining and knowledge discovery in databases (KDD), including: classification, clustering, association rules, sequence mining, similarity search, deviation detection, and so on. Emphasis will be on the algorithmic and system issues in KDD, as well as on applications such as Web mining, multimedia mining, bioinformatics, geographical information systems, etc.",Prerequisites: CSCI 2300.,When Offered: Fall term annually.,['CSCI 2300'],['CSCI 2300'],Science
-AI FOR CONSERVATION,LEC,4,MR,12:00PM,1:50PM,Charles V Stewart,Jonsson Engineering Center 4309,25,24,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69127,4965,01,CSCI-4965,Ai For Conservation,"This course will study the application of artificial intelligence techniques to problems in environmental conservation. A variety of data modalities will be considered, including image and video, acoustic, satellite, etc. The entire sequence of activities will be discussed – problem formulation, data collection and curation, algorithm training and testing, and system deployment. Along the way, FAIR and CARE principles for AI and data will be discussed, and other societal impacts will be addressed. Conservation applications will also be used to examine the state-of-the-art in AI. Students enrolled in the course are expected to have a working knowledge of AI/ML techniques that includes having trained PyTorch (preferrable) or TensorFlow (optional) models. Review materials will be provided. Requirements include active class participation, short homework assignments, leading paper discussions, and a semester-long technical project.",Prerequisites: CSCI 2300 and MATH 2010,,"['CSCI 2300', 'MATH 2010']",[],Science
-MACHINE LEARNING FROM DATA,LEC,4,MR,2:00PM,3:50PM,Malik Magdon-Ismail,Russell Sage Laboratory 3510,64,20,44,CSCI,2024-08-28,2024-12-20,FALL 2024,69561,6100,01,CSCI-6100,Machine Learning From Data,"Introduction to the theory, algorithms, and applications of machine learning (supervised, reinforcement, and unsupervised) from data: What is learning? Is learning feasible? How can it be done? How can it be done well? The course offers a mix of theory, technique, and application with additional selected topics chosen from Pattern Recognition, Decision Trees, Neural Networks, RBF's, Bayesian Learning, PAC Learning, Support Vector Machines, Gaussian processes, and Hidden Markov Models.","Prerequisites: CSCI 2300; an advanced 4000-level algorithms-based CSCI or MATH course; familiarity with probability, linear algebra, and calculus.",When Offered: Fall term annually.,['CSCI 2300'],['CSCI 2300'],Science
-DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,2,3,CSCI,2024-08-28,2024-12-20,FALL 2024,68969,4600,01,CSCI-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",Prerequisite: CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Fall and Spring term annually,"['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
-DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,4,1,CSCI,2024-08-28,2024-12-20,FALL 2024,68970,4600,02,CSCI-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",Prerequisite: CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Fall and Spring term annually,"['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
-PROGRAMMING IN HASKELL,LEC,4,TF,12:00PM,1:50PM,Ana L. Milanova,Carnegie Building 106,40,19,21,CSCI,2024-08-28,2024-12-20,FALL 2024,69129,4966,01,CSCI-4966,Programming In Haskell,"Haskell is a functional programming language increasingly used in industry; many Haskell features and ideas have been adopted by mainstream languages such as Python. The class will cover basic lambda calculus (the theoretical foundation of functional programing languages) and explore features such as lazy evaluation and infinite structures, higher-order functions, static types, and error reporting. It will cover more advanced Haskell features as well monads (including lists and IO), type classes, polymorphism, Hindley-Milner type inference and other. Grading will be based on class participation, in-class open-note quizzes, small biweekly programming assignments, and a larger final programming assignment.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
-LARGE SCALE PROGRAM & TESTING,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt,Lally Hall 102,60,7,53,CSCI,2024-08-28,2024-12-20,FALL 2024,69679,6460,01,CSCI-6460,Large Scale Program & Testing,"This course focuses on software development techniques in support of large-scale software projects and maintenance. Specific topics include various programming paradigms and techniques, approaches to testing and automation, debugging, refactoring, and inheriting code. Individual and team assignments are required, including programming assignments. Project topics include text processing, building a search engine, and the like.",Prerequisites: CSCI 2600 or equivalent experience.,When Offered: Fall term annually.,['CSCI 2600'],['CSCI 2600'],Science
-QUANTUM PROGRAMMING & APPS,LEC,4,MR,10:00AM,11:50AM,Zhiding Liang,Lally Hall 02,15,9,6,CSCI,2024-08-28,2024-12-20,FALL 2024,68696,6973,01,CSCI-6973,Quantum Programming & Apps,"The course will delve into advanced topics in quantum computing and their applications, focusing on current research and cutting-edge developments. The seminar course will consist of both lectures and discussion sessions, where students will engage with contemporary research papers and have the opportunity to present on a research topic of their choice or their own findings. Throughout the course, students will explore various aspects of quantum machine learning, quantum chemistry, quantum finance, and other applications, understanding their theoretical foundations and practical implications. The course will also provide students with the chance to enhance their research and presentation skills.",Prerequisites: CSCI 2200 and (CSCI 2500 or ECSE 2660),,"['CSCI 2200', 'CSCI 2500', 'ECSE 2660']",[],Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,63,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67221,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,63,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67221,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,12:00PM,1:50PM,TBA,Ricketts Building 211,64,63,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67221,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,65,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67413,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,65,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67413,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,2:00PM,3:50PM,TBA,Ricketts Building 211,64,65,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67413,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,65,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67861,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,65,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67861,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,4:00PM,5:50PM,TBA,Ricketts Building 211,64,65,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67861,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Daniel John DiTursi/Shianne M. Hulbert,Darrin Communications Center 308,64,51,13,CSCI,2024-08-28,2024-12-20,FALL 2024,69113,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,64,51,13,CSCI,2024-08-28,2024-12-20,FALL 2024,69113,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,6:00PM,7:50PM,TBA,Ricketts Building 211,64,51,13,CSCI,2024-08-28,2024-12-20,FALL 2024,69113,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+DATA MINING,LEC,4,MR,10:00AM,11:50AM,Mohammed J. Zaki,Troy Building 2012,70,56,14,CSCI,2024-08-28,2024-12-20,FALL 2024,67216,4390,01,CSCI-4390,Data Mining,"This course will provide an introductory survey of the main topics in data mining and knowledge discovery in databases (KDD), including: classification, clustering, association rules, sequence mining, similarity search, deviation detection, and so on. Emphasis will be on the algorithmic and system issues in KDD, as well as on applications such as Web mining, multimedia mining, bioinformatics, geographical information systems, etc.",Prerequisites: CSCI 2300.,When Offered: Fall term annually.,['CSCI 2300'],['CSCI 2300'],Science
+AI FOR CONSERVATION,LEC,4,MR,12:00PM,1:50PM,Charles V Stewart,Jonsson Engineering Center 4309,25,18,7,CSCI,2024-08-28,2024-12-20,FALL 2024,69127,4965,01,CSCI-4965,Ai For Conservation,"This course will study the application of artificial intelligence techniques to problems in environmental conservation. A variety of data modalities will be considered, including image and video, acoustic, satellite, etc. The entire sequence of activities will be discussed – problem formulation, data collection and curation, algorithm training and testing, and system deployment. Along the way, FAIR and CARE principles for AI and data will be discussed, and other societal impacts will be addressed. Conservation applications will also be used to examine the state-of-the-art in AI. Students enrolled in the course are expected to have a working knowledge of AI/ML techniques that includes having trained PyTorch (preferrable) or TensorFlow (optional) models. Review materials will be provided. Requirements include active class participation, short homework assignments, leading paper discussions, and a semester-long technical project.",Prerequisites: CSCI 2300 and MATH 2010,,"['CSCI 2300', 'MATH 2010']",[],Science
+MACHINE LEARNING FROM DATA,LEC,4,MR,2:00PM,3:50PM,Malik Magdon-Ismail,Russell Sage Laboratory 3510,64,21,43,CSCI,2024-08-28,2024-12-20,FALL 2024,69561,6100,01,CSCI-6100,Machine Learning From Data,"Introduction to the theory, algorithms, and applications of machine learning (supervised, reinforcement, and unsupervised) from data: What is learning? Is learning feasible? How can it be done? How can it be done well? The course offers a mix of theory, technique, and application with additional selected topics chosen from Pattern Recognition, Decision Trees, Neural Networks, RBF's, Bayesian Learning, PAC Learning, Support Vector Machines, Gaussian processes, and Hidden Markov Models.","Prerequisites: CSCI 2300; an advanced 4000-level algorithms-based CSCI or MATH course; familiarity with probability, linear algebra, and calculus.",When Offered: Fall term annually.,['CSCI 2300'],['CSCI 2300'],Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,3,2,CSCI,2024-08-28,2024-12-20,FALL 2024,68969,4600,01,CSCI-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",Prerequisite: CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Fall and Spring term annually,"['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Troy Building 2018,5,5,0,CSCI,2024-08-28,2024-12-20,FALL 2024,68970,4600,02,CSCI-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",Prerequisite: CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Fall and Spring term annually,"['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
+PROGRAMMING IN HASKELL,LEC,4,TF,12:00PM,1:50PM,Ana L. Milanova,Carnegie Building 106,40,23,17,CSCI,2024-08-28,2024-12-20,FALL 2024,69129,4966,01,CSCI-4966,Programming In Haskell,"Haskell is a functional programming language increasingly used in industry; many Haskell features and ideas have been adopted by mainstream languages such as Python. The class will cover basic lambda calculus (the theoretical foundation of functional programing languages) and explore features such as lazy evaluation and infinite structures, higher-order functions, static types, and error reporting. It will cover more advanced Haskell features as well monads (including lists and IO), type classes, polymorphism, Hindley-Milner type inference and other. Grading will be based on class participation, in-class open-note quizzes, small biweekly programming assignments, and a larger final programming assignment.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+LARGE SCALE PROGRAM & TESTING,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt,Lally Hall 102,60,8,52,CSCI,2024-08-28,2024-12-20,FALL 2024,69679,6460,01,CSCI-6460,Large Scale Program & Testing,"This course focuses on software development techniques in support of large-scale software projects and maintenance. Specific topics include various programming paradigms and techniques, approaches to testing and automation, debugging, refactoring, and inheriting code. Individual and team assignments are required, including programming assignments. Project topics include text processing, building a search engine, and the like.",Prerequisites: CSCI 2600 or equivalent experience.,When Offered: Fall term annually.,['CSCI 2600'],['CSCI 2600'],Science
+QUANTUM PROGRAMMING & APPS,LEC,4,MR,10:00AM,11:50AM,Zhiding Liang,Lally Hall 02,15,10,5,CSCI,2024-08-28,2024-12-20,FALL 2024,68696,6973,01,CSCI-6973,Quantum Programming & Apps,"The course will delve into advanced topics in quantum computing and their applications, focusing on current research and cutting-edge developments. The seminar course will consist of both lectures and discussion sessions, where students will engage with contemporary research papers and have the opportunity to present on a research topic of their choice or their own findings. Throughout the course, students will explore various aspects of quantum machine learning, quantum chemistry, quantum finance, and other applications, understanding their theoretical foundations and practical implications. The course will also provide students with the chance to enhance their research and presentation skills.",Prerequisites: CSCI 2200 and (CSCI 2500 or ECSE 2660),,"['CSCI 2200', 'CSCI 2500', 'ECSE 2660']",[],Science
 DISSERTATION,LEC,1-15,,,,Mohammed J. Zaki,TBA,10,7,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65163,9990,01,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Radoslav Svetlozarov Ivanov,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67120,9990,02,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Yao Ma,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,66026,9990,03,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Charles V Stewart,TBA,10,4,6,CSCI,2024-08-28,2024-12-20,FALL 2024,65198,9990,04,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Yao Ma,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,66026,9990,03,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Charles V Stewart,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,65198,9990,04,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,James A. Hendler,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,66133,9990,05,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Alex Algernon Theodore Gittens,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,65199,9990,06,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Barbara Cutler,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66147,9990,07,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Selmer Bringsjord,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,65238,9990,08,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Selmer Bringsjord,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,65238,9990,08,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Christopher D. Carothers,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,66166,9990,09,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,George M. Slota,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,68079,9990,10,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,George M. Slota,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,68079,9990,10,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Mark S Shephard,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65898,9990,11,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Christopher Bystroff,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66184,9990,12,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Elliot I. Anshelevich,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,66196,9990,13,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Sibel Adali,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,65377,9990,14,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Sibel Adali,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,65377,9990,14,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Mohammad Mohammadi Amiri,TBA,0,0,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66272,9990,15,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Boleslaw Szymanski,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,65383,9990,16,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Zhiding Liang,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,67934,9990,17,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Zhiding Liang,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,67934,9990,17,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Ana L. Milanova,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,65835,9990,18,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Bulent Yener,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,65385,9990,20,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Jianxi Gao,TBA,10,4,6,CSCI,2024-08-28,2024-12-20,FALL 2024,68097,9990,21,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Mohammad Mohammadi Amiri,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69895,9990,22,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jianxi Gao,TBA,10,5,5,CSCI,2024-08-28,2024-12-20,FALL 2024,68097,9990,21,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Mohammad Mohammadi Amiri,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,69895,9990,22,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Tianfan Fu,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,67229,9990,23,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Mei Si,TBA,5,0,5,CSCI,2024-08-28,2024-12-20,FALL 2024,67911,9990,24,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Ron Sun,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66349,9990,25,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Deborah L. McGuinness,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,66355,9990,26,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,W. Randolph Franklin,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65924,9990,28,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Malik Magdon-Ismail,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65419,9990,29,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Stacy Elizabeth Patterson,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,67282,9990,30,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Stacy Elizabeth Patterson,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,67282,9990,30,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,66458,9990,31,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Carlos A Varela,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65420,9990,32,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Lirong Xia,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,67284,9990,33,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Sergei Nirenburg,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,67286,9990,34,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Tomasz Strzalkowski,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,66030,9990,37,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Oshani W. Seneviratne,TBA,10,4,6,CSCI,2024-08-28,2024-12-20,FALL 2024,69076,9990,38,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-NETWORK PROGRAMMING,LEC,4,TF,12:00PM,1:50PM,Lei Yu,Russell Sage Laboratory 4101,70,70,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69126,4220,01,CSCI-4220,Network Programming,"Programming with an overview of the principles of computer networks, including a detailed look at the OSI reference model and various popular network protocol suites. Concentration on Unix interprocess communication (IPC), network programming using TCP and UDP, as well as client-side and mobile programming. Programming projects are required.",Prerequisites: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
-PROGRAMMING LANGUAGES,LEC,4,TF,10:00AM,11:50AM,Carlos A Varela/Meredith Elizabeth Widman,Darrin Communications Center 308,460,439,21,CSCI,2024-08-28,2024-12-20,FALL 2024,65472,4430,01,CSCI-4430,Programming Languages,"This course is a study of the important concepts found in current programming languages. Topics include language processing (lexical analysis, parsing, type-checking, interpretation and compilation, run-time environment), the role of abstraction (data abstraction and control abstraction), programming paradigms (procedural, functional, object-oriented, logic-oriented, generic), and formal language definition.",Prerequisite: CSCI 2300 and CSCI 2600.,When Offered: Fall term annually.,"['CSCI 2300', 'CSCI 2600']","['CSCI 2300', 'CSCI 2600']",Science
-RCOS == 1 CREDIT,LEC,1,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,32,30,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69688,4968,01,CSCI-4968,Rcos == 1 Credit,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
-RCOS == 2 CREDITS,LEC,2,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,20,17,3,CSCI,2024-08-28,2024-12-20,FALL 2024,69689,4968,02,CSCI-4968,Rcos == 2 Credits,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
-RCOS == 3 CREDITS,LEC,3,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,200,6,194,CSCI,2024-08-28,2024-12-20,FALL 2024,69690,4968,03,CSCI-4968,Rcos == 3 Credits,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
-RCOS == 4 CREDITS,LEC,4,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,400,251,149,CSCI,2024-08-28,2024-12-20,FALL 2024,69691,4968,04,CSCI-4968,Rcos == 4 Credits,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
-INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65032,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,10:00AM,11:50AM,TBA,Troy Building 2018,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65032,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65032,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65033,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,12:00PM,1:50PM,TBA,Troy Building 2018,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65033,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65033,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+NETWORK PROGRAMMING,LEC,4,TF,12:00PM,1:50PM,Lei Yu,Russell Sage Laboratory 4101,70,72,-2,CSCI,2024-08-28,2024-12-20,FALL 2024,69126,4220,01,CSCI-4220,Network Programming,"Programming with an overview of the principles of computer networks, including a detailed look at the OSI reference model and various popular network protocol suites. Concentration on Unix interprocess communication (IPC), network programming using TCP and UDP, as well as client-side and mobile programming. Programming projects are required.",Prerequisites: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
+PROGRAMMING LANGUAGES,LEC,4,TF,10:00AM,11:50AM,Carlos A Varela/Meredith Elizabeth Widman,Darrin Communications Center 308,460,440,20,CSCI,2024-08-28,2024-12-20,FALL 2024,65472,4430,01,CSCI-4430,Programming Languages,"This course is a study of the important concepts found in current programming languages. Topics include language processing (lexical analysis, parsing, type-checking, interpretation and compilation, run-time environment), the role of abstraction (data abstraction and control abstraction), programming paradigms (procedural, functional, object-oriented, logic-oriented, generic), and formal language definition.",Prerequisite: CSCI 2300 and CSCI 2600.,When Offered: Fall term annually.,"['CSCI 2300', 'CSCI 2600']","['CSCI 2300', 'CSCI 2600']",Science
+RCOS == 1 CREDIT,LEC,1,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,32,24,8,CSCI,2024-08-28,2024-12-20,FALL 2024,69688,4968,01,CSCI-4968,Rcos == 1 Credit,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+RCOS == 2 CREDITS,LEC,2,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,20,22,-2,CSCI,2024-08-28,2024-12-20,FALL 2024,69689,4968,02,CSCI-4968,Rcos == 2 Credits,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+RCOS == 3 CREDITS,LEC,3,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,200,10,190,CSCI,2024-08-28,2024-12-20,FALL 2024,69690,4968,03,CSCI-4968,Rcos == 3 Credits,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+RCOS == 4 CREDITS,LEC,4,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt/Konstantin Kuzmin/John Sturman/Masoud Zarifneshat,Darrin Communications Center 308,400,275,125,CSCI,2024-08-28,2024-12-20,FALL 2024,69691,4968,04,CSCI-4968,Rcos == 4 Credits,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,35,-5,CSCI,2024-08-28,2024-12-20,FALL 2024,65032,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,10:00AM,11:50AM,TBA,Troy Building 2018,30,35,-5,CSCI,2024-08-28,2024-12-20,FALL 2024,65032,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,35,-5,CSCI,2024-08-28,2024-12-20,FALL 2024,65032,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65033,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,12:00PM,1:50PM,TBA,Troy Building 2018,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65033,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65033,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65306,2300,03,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 INTRODUCTION TO ALGORITHMS,LEC,4,W,2:00PM,3:50PM,TBA,Troy Building 2018,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65306,2300,03,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65306,2300,03,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65294,2300,04,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 INTRODUCTION TO ALGORITHMS,LEC,4,W,10:00AM,11:50AM,TBA,Troy Building 2012,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65294,2300,04,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65294,2300,04,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66145,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,12:00PM,1:50PM,TBA,Troy Building 2012,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66145,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66145,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65254,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,2:00PM,3:50PM,TBA,Troy Building 2012,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65254,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
-INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65254,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,32,-2,CSCI,2024-08-28,2024-12-20,FALL 2024,66145,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,12:00PM,1:50PM,TBA,Troy Building 2012,30,32,-2,CSCI,2024-08-28,2024-12-20,FALL 2024,66145,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,32,-2,CSCI,2024-08-28,2024-12-20,FALL 2024,66145,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Darrin Communications Center 318,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65254,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,2:00PM,3:50PM,TBA,Troy Building 2012,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65254,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65254,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: Requires a C- or higher in CSCI 1200. CSCI 2200, and introduction to Calculus (MATH 1010 or MATH 1020, MATH 1500, or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1020', 'MATH 1500', 'MATH 2010']",Science
 SOFTWARE DESIGN & DOCUMENTATIO,LEC,4,TF,12:00PM,1:50PM,John Sturman,Pittsburgh Building 4114,60,60,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65069,4440,01,CSCI-4440,Software Design & Documentatio,"Software system design methodology emphasizing use of object oriented modeling of application domains and of software systems and emphasizing the roles of written and oral communication in software engineering. Project management and software testing. Individual and team projects include specification, software architecture, user interfaces, and documentation of the phases of a project. This is a communication-intensive course.",Prerequisite: CSCI 2300.,When Offered: Fall and spring terms annually.,['CSCI 2300'],['CSCI 2300'],Science
 SOFTWARE DESIGN & DOCUMENTATIO,LEC,4,TF,2:00PM,3:50PM,John Sturman,Pittsburgh Building 4114,60,60,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65147,4440,02,CSCI-4440,Software Design & Documentatio,"Software system design methodology emphasizing use of object oriented modeling of application domains and of software systems and emphasizing the roles of written and oral communication in software engineering. Project management and software testing. Individual and team projects include specification, software architecture, user interfaces, and documentation of the phases of a project. This is a communication-intensive course.",Prerequisite: CSCI 2300.,When Offered: Fall and spring terms annually.,['CSCI 2300'],['CSCI 2300'],Science
-NUMERICAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Mark H Holmes,Russell Sage Laboratory 3510,70,19,51,CSCI,2024-08-28,2024-12-20,FALL 2024,65152,4800,01,CSCI-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis is placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
-AI FOR SCIENCE,LEC,4,MR,10:00AM,11:50AM,Tianfan Fu,Russell Sage Laboratory 3713,40,10,30,CSCI,2024-08-28,2024-12-20,FALL 2024,68983,6960,01,CSCI-6960,Ai For Science,TBA,Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
-DEEP LEARNING ON GRAPHS,LEC,4,MR,4:00PM,5:50PM,Yao Ma,Ricketts Building 208,20,18,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69337,6975,01,CSCI-6975,Deep Learning On Graphs,"Deep Learning on Graphs is a course to explore state-of-the-art techniques in graph representation learning, with a particular emphasis on the emerging potential of Graph Neural Networks (GNNs). Graphs are widely used to represent data across various domains, including social science, linguistics, chemistry, biology, and physics, and GNNs have proven to be highly effective in facilitating computational tasks on these graphs. This course will cover topics such as network embedding, GNNs, properties of GNNs, and diverse applications of GNNs. In addition to lectures, students will be expected to read and discuss relevant literature, deliver presentations, and participate in research projects related to the subject matter.",Prerequisites: CSCI 4150 AND (CSCI 4390 OR CSCI 6390),,"['CSCI 4150', 'CSCI 4390', 'CSCI 6390']",[],Science
-FRONTIERS OF NETWORK SCIENCE,LEC,4,TF,10:00AM,11:50AM,Boleslaw Szymanski,Amos Eaton Hall 216,40,16,24,CSCI,2024-08-28,2024-12-20,FALL 2024,67645,4250,01,CSCI-4250,Frontiers Of Network Science,"This course will offer an introduction to network science and a review of current research in this area. Classes will interchangeably present chapters from the textbook and related current research. The emphasis will be on the mathematical background of network science: graphs and networks; random networks and various types of scale-free networks; network properties such as assortativity, mobility, robustness, social networks, and communities; and dynamics of spreading in networks.","Prerequisites: CSCI 2300; a 4000-level algorithms-based CSCI course (e.g., CSCI 4020, CSCI 4260, CSCI 4800 ) or MATH course (e.g., MATH 4100, MATH 4150, MATH 4800 ); familiarity with probability, linear algebra, and calculus; or permission of the instructor.",When Offered: Fall term odd-numbered years.,"['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4800']","['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4800']",Science
-SENSE MAKING AND COMPUTATION,LEC,4,MR,4:00PM,5:50PM,Sibel Adali,Darrin Communications Center 239,20,11,9,CSCI,2024-08-28,2024-12-20,FALL 2024,69136,4970,01,CSCI-4970,Sense Making And Computation,"In this course, we will concentrate on processes for information creation and consumption. We will investigate concepts related to correctness of information, making sense of information in the presence of uncertainty and psychology of information processing from an interdisciplinary perspective. We will study computational tools and methods to aim production and dissemination of information including text generation tools. We will also study computational tools to aid processing of information including fact-checking, credibility assessment and labelling of information and sources. The course will concentrate on critical analysis of these tools including user studies in their effectiveness, their potential misuse and the limits of capabilities.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
-DISTRIBUTED ALGORITHMS AND SYSTEMS,LEC,4,MR,12:00PM,1:50PM,Stacy Elizabeth Patterson,Russell Sage Laboratory 5101,70,30,40,CSCI,2024-08-28,2024-12-20,FALL 2024,69677,6510,01,CSCI-6510,Distributed Algorithms And Systems,"This course explores the principles of distributed systems, emphasizing fundamental issues underlying the design of such systems: communication, coordination, synchronization, and fault-tolerance. Key algorithms and theoretical results will be studied and students will explore how these foundations play out in modern systems and applications.",Prerequisite: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
-MACHINE LEARNING SEMINAR,LEC,4,TF,2:00PM,3:50PM,Mohammad Mohammadi Amiri,Voorhees Computing Center SO,15,9,6,CSCI,2024-08-28,2024-12-20,FALL 2024,69681,6961,01,CSCI-6961,Machine Learning Seminar,"The course will explore advanced topics in machine learning, including current research and emerging techniques. The seminar will consist of both lectures and discussion sessions, where students will have the opportunity to explore current research papers and present on a research topic of their choice or their own findings. The seminar will also provide students with the opportunity to develop their research and presentation skills. By the end of the seminar, students will have gained a deeper understanding of advanced topics in machine learning and developed the skills necessary to contribute to ongoing research in the field.","Prerequisites: CSCI 4100 or CSCI 6100 or permission of instructor; familiarity with probability, linear algebra, and calculus",,"['CSCI 4100', 'CSCI 6100']",[],Science
-COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65034,2500,01,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65034,2500,01,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,W,10:00AM,11:50AM,TBA,Jonsson Engineering Center 5119,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65034,2500,01,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67414,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67414,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 5119,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67414,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+NUMERICAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Mark H Holmes,Russell Sage Laboratory 3510,70,27,43,CSCI,2024-08-28,2024-12-20,FALL 2024,65152,4800,01,CSCI-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis is placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+AI FOR SCIENCE,LEC,4,MR,10:00AM,11:50AM,Tianfan Fu,Russell Sage Laboratory 3713,40,12,28,CSCI,2024-08-28,2024-12-20,FALL 2024,68983,6960,01,CSCI-6960,Ai For Science,TBA,Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+DEEP LEARNING ON GRAPHS,LEC,4,MR,4:00PM,5:50PM,Yao Ma,Ricketts Building 208,20,15,5,CSCI,2024-08-28,2024-12-20,FALL 2024,69337,6975,01,CSCI-6975,Deep Learning On Graphs,"Deep Learning on Graphs is a course to explore state-of-the-art techniques in graph representation learning, with a particular emphasis on the emerging potential of Graph Neural Networks (GNNs). Graphs are widely used to represent data across various domains, including social science, linguistics, chemistry, biology, and physics, and GNNs have proven to be highly effective in facilitating computational tasks on these graphs. This course will cover topics such as network embedding, GNNs, properties of GNNs, and diverse applications of GNNs. In addition to lectures, students will be expected to read and discuss relevant literature, deliver presentations, and participate in research projects related to the subject matter.",Prerequisites: CSCI 4150 AND (CSCI 4390 OR CSCI 6390),,"['CSCI 4150', 'CSCI 4390', 'CSCI 6390']",[],Science
+FRONTIERS OF NETWORK SCIENCE,LEC,4,TF,10:00AM,11:50AM,Boleslaw Szymanski,Amos Eaton Hall 216,40,15,25,CSCI,2024-08-28,2024-12-20,FALL 2024,67645,4250,01,CSCI-4250,Frontiers Of Network Science,"This course will offer an introduction to network science and a review of current research in this area. Classes will interchangeably present chapters from the textbook and related current research. The emphasis will be on the mathematical background of network science: graphs and networks; random networks and various types of scale-free networks; network properties such as assortativity, mobility, robustness, social networks, and communities; and dynamics of spreading in networks.","Prerequisites: CSCI 2300; a 4000-level algorithms-based CSCI course (e.g., CSCI 4020, CSCI 4260, CSCI 4800 ) or MATH course (e.g., MATH 4100, MATH 4150, MATH 4800 ); familiarity with probability, linear algebra, and calculus; or permission of the instructor.",When Offered: Fall term odd-numbered years.,"['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4800']","['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4800']",Science
+SENSE MAKING AND COMPUTATION,LEC,4,MR,4:00PM,5:50PM,Sibel Adali,Darrin Communications Center 239,20,10,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69136,4970,01,CSCI-4970,Sense Making And Computation,"In this course, we will concentrate on processes for information creation and consumption. We will investigate concepts related to correctness of information, making sense of information in the presence of uncertainty and psychology of information processing from an interdisciplinary perspective. We will study computational tools and methods to aim production and dissemination of information including text generation tools. We will also study computational tools to aid processing of information including fact-checking, credibility assessment and labelling of information and sources. The course will concentrate on critical analysis of these tools including user studies in their effectiveness, their potential misuse and the limits of capabilities.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+DISTRIBUTED ALGORITHMS AND SYSTEMS,LEC,4,MR,12:00PM,1:50PM,Stacy Elizabeth Patterson,Russell Sage Laboratory 5101,70,23,47,CSCI,2024-08-28,2024-12-20,FALL 2024,69677,6510,01,CSCI-6510,Distributed Algorithms And Systems,"This course explores the principles of distributed systems, emphasizing fundamental issues underlying the design of such systems: communication, coordination, synchronization, and fault-tolerance. Key algorithms and theoretical results will be studied and students will explore how these foundations play out in modern systems and applications.",Prerequisite: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
+MACHINE LEARNING SEMINAR,LEC,4,TF,2:00PM,3:50PM,Mohammad Mohammadi Amiri,Voorhees Computing Center SO,15,13,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69681,6961,01,CSCI-6961,Machine Learning Seminar,"The course will explore advanced topics in machine learning, including current research and emerging techniques. The seminar will consist of both lectures and discussion sessions, where students will have the opportunity to explore current research papers and present on a research topic of their choice or their own findings. The seminar will also provide students with the opportunity to develop their research and presentation skills. By the end of the seminar, students will have gained a deeper understanding of advanced topics in machine learning and developed the skills necessary to contribute to ongoing research in the field.","Prerequisites: CSCI 4100 or CSCI 6100 or permission of instructor; familiarity with probability, linear algebra, and calculus",,"['CSCI 4100', 'CSCI 6100']",[],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,65034,2500,01,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,65034,2500,01,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,10:00AM,11:50AM,TBA,Jonsson Engineering Center 5119,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,65034,2500,01,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67414,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67414,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 5119,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67414,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
 COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67415,2500,03,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
 COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67415,2500,03,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
 COMPUTER ORGANIZATION,LEC,4,W,2:00PM,3:50PM,TBA,Jonsson Engineering Center 5119,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67415,2500,03,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,38,6,CSCI,2024-08-28,2024-12-20,FALL 2024,68641,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,38,6,CSCI,2024-08-28,2024-12-20,FALL 2024,68641,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3101,44,38,6,CSCI,2024-08-28,2024-12-20,FALL 2024,68641,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,43,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69411,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,43,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69411,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,W,12:00PM,1:50PM,TBA,Russell Sage Laboratory 3101,44,43,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69411,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69412,2500,06,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69412,2500,06,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-COMPUTER ORGANIZATION,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3101,44,44,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69412,2500,06,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
-LARGE SCALE PROGRAM & TESTING,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt,Lally Hall 102,60,44,16,CSCI,2024-08-28,2024-12-20,FALL 2024,69678,4460,01,CSCI-4460,Large Scale Program & Testing,"This course focuses on software development techniques in support of large-scale software projects and maintenance. Specific topics include various programming paradigms and techniques, approaches to testing and automation, debugging, refactoring, and inheriting code. Individual and team assignments are required, including programming assignments. Project topics include text processing, building a search engine, and the like. This is a communication-intensive course.",Prerequisites: CSCI 2600.,When Offered: Fall term annually.,['CSCI 2600'],['CSCI 2600'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,39,5,CSCI,2024-08-28,2024-12-20,FALL 2024,68641,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,39,5,CSCI,2024-08-28,2024-12-20,FALL 2024,68641,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3101,44,39,5,CSCI,2024-08-28,2024-12-20,FALL 2024,68641,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69411,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69411,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,12:00PM,1:50PM,TBA,Russell Sage Laboratory 3101,44,42,2,CSCI,2024-08-28,2024-12-20,FALL 2024,69411,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat/Shianne M. Hulbert,Russell Sage Laboratory 3303,44,43,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69412,2500,06,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,T,6:00PM,7:50PM,TBA,TBA,44,43,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69412,2500,06,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3101,44,43,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69412,2500,06,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+LARGE SCALE PROGRAM & TESTING,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt,Lally Hall 102,60,46,14,CSCI,2024-08-28,2024-12-20,FALL 2024,69678,4460,01,CSCI-4460,Large Scale Program & Testing,"This course focuses on software development techniques in support of large-scale software projects and maintenance. Specific topics include various programming paradigms and techniques, approaches to testing and automation, debugging, refactoring, and inheriting code. Individual and team assignments are required, including programming assignments. Project topics include text processing, building a search engine, and the like. This is a communication-intensive course.",Prerequisites: CSCI 2600.,When Offered: Fall term annually.,['CSCI 2600'],['CSCI 2600'],Science
 MODERN BINARY EXPLOITATION,LEC,4,MR,10:00AM,11:50AM,Brian Robert Callahan,West Hall AUD,100,79,21,CSCI,2024-08-28,2024-12-20,FALL 2024,69462,4850,01,CSCI-4850,Modern Binary Exploitation,"Modern Binary Exploitation will focus on teaching practical offensive security skills in binary exploitation and reverse engineering. Through a combination of interactive lectures and hands on labs, the course will offer students an opportunity to explore some of the most technically involved and fascinating subjects in the rapidly evolving field of security. It will cover protections found on modern systems and the techniques used to defeat them.",Prerequisites: CSCI 2500 or ECSE 2660,When Offered: Fall term annually,"['CSCI 2500', 'ECSE 2660']","['CSCI 2500', 'ECSE 2660']",Science
-FRONTIERS OF NETWORK SCIENCE,LEC,4,TF,10:00AM,11:50AM,Boleslaw Szymanski,Amos Eaton Hall 216,40,6,34,CSCI,2024-08-28,2024-12-20,FALL 2024,67646,6250,01,CSCI-6250,Frontiers Of Network Science,"This course will offer an introduction to network science and a review of current research in this area. Classes will interchangeably present chapters from the textbook and related current research. The emphasis will be on the mathematical background of network science: graphs and networks; random networks and various types of scale-free networks; network properties such as assortativity, mobility, robustness, social networks, and communities; and dynamics of spreading in networks.","Prerequisites: CSCI 2300; a 4000-level algorithms-based CSCI course (e.g., CSCI 4020, CSCI 4260, CSCI 4800 ) or MATH course (e.g., MATH 4100, MATH 4150, MATH 4200, MATH 4800 ) course; familiarity with probability, linear algebra, and calculus; or permission of the instructor.",When Offered: Fall term odd-numbered years.,"['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4200', 'MATH 4800']","['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4200', 'MATH 4800']",Science
+FRONTIERS OF NETWORK SCIENCE,LEC,4,TF,10:00AM,11:50AM,Boleslaw Szymanski,Amos Eaton Hall 216,40,8,32,CSCI,2024-08-28,2024-12-20,FALL 2024,67646,6250,01,CSCI-6250,Frontiers Of Network Science,"This course will offer an introduction to network science and a review of current research in this area. Classes will interchangeably present chapters from the textbook and related current research. The emphasis will be on the mathematical background of network science: graphs and networks; random networks and various types of scale-free networks; network properties such as assortativity, mobility, robustness, social networks, and communities; and dynamics of spreading in networks.","Prerequisites: CSCI 2300; a 4000-level algorithms-based CSCI course (e.g., CSCI 4020, CSCI 4260, CSCI 4800 ) or MATH course (e.g., MATH 4100, MATH 4150, MATH 4200, MATH 4800 ) course; familiarity with probability, linear algebra, and calculus; or permission of the instructor.",When Offered: Fall term odd-numbered years.,"['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4200', 'MATH 4800']","['CSCI 2300', 'CSCI 4020', 'CSCI 4260', 'CSCI 4800', 'MATH 4100', 'MATH 4150', 'MATH 4200', 'MATH 4800']",Science
 ML AND OPTIMIZATION,LEC,4,MR,2:00PM,3:50PM,Alex Algernon Theodore Gittens,Lally Hall 104,40,19,21,CSCI,2024-08-28,2024-12-20,FALL 2024,67902,6962,01,CSCI-6962,Ml And Optimization,This course is a second course in machine learning that provides an in-depth introduction to the optimization algorithms and neural network architectures used in modern large-scale machine learning and optimization.,Prerequisites: CSCI 2300 and MATH 2010,,"['CSCI 2300', 'MATH 2010']",[],Science
-MASTER'S PROJECT,LEC,1-9,,,,Wesley D Turner,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,67492,6980,01,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Wesley D Turner,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,67492,6980,01,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,David Eric Goldschmidt,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65955,6980,02,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Bulent Yener,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67509,6980,03,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Lirong Xia,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,67703,6980,04,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
@@ -1986,15 +2027,16 @@ MASTER'S PROJECT,LEC,1-9,,,,Konstantin Kuzmin,TBA,10,0,10,CSCI,2024-08-28,2024-1
 MASTER'S PROJECT,LEC,1-9,,,,Mark S Shephard,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69041,6980,22,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Kristin P Bennett,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69074,6980,23,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Sergei Nirenburg,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69310,6980,24,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
-MASTER'S PROJECT,LEC,1-9,,,,Oshani W. Seneviratne,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,69321,6980,25,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Oshani W. Seneviratne,TBA,10,5,5,CSCI,2024-08-28,2024-12-20,FALL 2024,69321,6980,25,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Ron Sun,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69350,6980,26,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Uzma Mushtaque,TBA,10,3,7,CSCI,2024-08-28,2024-12-20,FALL 2024,69415,6980,27,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Jianxi Gao,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,69437,6980,28,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Barbara Cutler,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69769,6980,29,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
-MASTER'S PROJECT,LEC,1-9,,,,Lei Yu,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,69781,6980,30,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Lei Yu,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,69781,6980,30,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Mohammad Mohammadi Amiri,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,69896,6980,31,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
-INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,150,20,130,CSCI,2024-08-28,2024-12-20,FALL 2024,69791,4972,01,CSCI-4972,Intro LOGIC-BASED Ai,,,,[],[],Science
-REINFORCEMENT LEARNING,LEC,4,TF,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3101,50,23,27,CSCI,2024-08-28,2024-12-20,FALL 2024,68751,6963,01,CSCI-6963,Reinforcement Learning,"This is an introductory course on the theory and practice of reinforcement learning (RL). We will start by discussing the RL/control problem as it applies to autonomous systems. We will cover Markov decision processes, policy/value iteration, policy gradient methods, actor-critic, deep RL, as well as on-policy and off-policy learning. We will also discuss some supervised learning settings such as linear regression and deep learning, especially as they pertain to deep RL. Students taking this course will get exposure to image classification and several reinforcement learning benchmarks, such as mountain car and the inverted pendulum.","Prerequisites: CSCI 2300; an advanced 4000-level algorithms-based CSCI or MATH course; familiarity with probability, linear algebra, and calculus",,['CSCI 2300'],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Xiaoyang Liu,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69971,6980,32,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+INTRO LOGIC-BASED AI,LEC,4,MR,4:00PM,5:50PM,Selmer Bringsjord,Darrin Communications Center 330,150,32,118,CSCI,2024-08-28,2024-12-20,FALL 2024,69791,4972,01,CSCI-4972,Intro LOGIC-BASED Ai,,,,[],[],Science
+REINFORCEMENT LEARNING,LEC,4,TF,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3101,50,22,28,CSCI,2024-08-28,2024-12-20,FALL 2024,68751,6963,01,CSCI-6963,Reinforcement Learning,"This is an introductory course on the theory and practice of reinforcement learning (RL). We will start by discussing the RL/control problem as it applies to autonomous systems. We will cover Markov decision processes, policy/value iteration, policy gradient methods, actor-critic, deep RL, as well as on-policy and off-policy learning. We will also discuss some supervised learning settings such as linear regression and deep learning, especially as they pertain to deep RL. Students taking this course will get exposure to image classification and several reinforcement learning benchmarks, such as mountain car and the inverted pendulum.","Prerequisites: CSCI 2300; an advanced 4000-level algorithms-based CSCI or MATH course; familiarity with probability, linear algebra, and calculus",,['CSCI 2300'],[],Science
 MASTERS THESIS,LEC,1-16,,,,Elliot I. Anshelevich,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66140,6990,01,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Charles V Stewart,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66307,6990,02,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Mei Si,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66353,6990,03,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -2008,10 +2050,11 @@ MASTERS THESIS,LEC,1-16,,,,Ana L. Milanova,TBA,10,1,9,CSCI,2024-08-28,2024-12-20
 MASTERS THESIS,LEC,1-16,,,,Barbara Cutler,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,66469,6990,11,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,W. Randolph Franklin,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66480,6990,12,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Mohammed J. Zaki,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66519,6990,13,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-MASTERS THESIS,LEC,1-16,,,,Carlos A Varela,TBA,10,2,8,CSCI,2024-08-28,2024-12-20,FALL 2024,66520,6990,14,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Carlos A Varela,TBA,10,1,9,CSCI,2024-08-28,2024-12-20,FALL 2024,66520,6990,14,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Sibel Adali,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66705,6990,15,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Boleslaw Szymanski,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65411,6990,16,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Mark S Shephard,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65416,6990,17,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Uzma Mushtaque,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66697,6990,18,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Christopher Bystroff,TBA,5,0,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66750,6990,19,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Alex Algernon Theodore Gittens,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,66787,6990,20,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Christopher D. Carothers,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65417,6990,27,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -2021,143 +2064,143 @@ MASTERS THESIS,LEC,1-16,,,,Lirong Xia,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FAL
 MASTERS THESIS,LEC,1-16,,,,Sergei Nirenburg,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,67285,6990,34,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,Bulent Yener,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,65887,6990,35,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTERS THESIS,LEC,1-16,,,,George M. Slota,TBA,10,0,10,CSCI,2024-08-28,2024-12-20,FALL 2024,68078,6990,36,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65024,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,T,10:00AM,11:50AM,TBA,Pittsburgh Building 5114,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65024,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65024,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65324,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,T,10:00AM,11:50AM,TBA,Troy Building 2015,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65324,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65324,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65325,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4040,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65325,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65325,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66949,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4034,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66949,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66949,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,27,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65024,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,10:00AM,11:50AM,TBA,Pittsburgh Building 5114,30,27,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65024,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,27,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65024,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,27,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65324,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,10:00AM,11:50AM,TBA,Troy Building 2015,30,27,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65324,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,27,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65324,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65325,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4040,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65325,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,65325,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,66949,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4034,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,66949,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,66949,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,25,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66950,1100,05,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4034,30,25,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66950,1100,05,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,25,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66950,1100,05,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,66169,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4040,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,66169,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,66169,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,17,13,CSCI,2024-08-28,2024-12-20,FALL 2024,65025,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 3045,30,17,13,CSCI,2024-08-28,2024-12-20,FALL 2024,65025,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,17,13,CSCI,2024-08-28,2024-12-20,FALL 2024,65025,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,66682,1100,08,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 4034,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,66682,1100,08,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,66682,1100,08,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,5,25,CSCI,2024-08-28,2024-12-20,FALL 2024,66175,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 4040,30,5,25,CSCI,2024-08-28,2024-12-20,FALL 2024,66175,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,5,25,CSCI,2024-08-28,2024-12-20,FALL 2024,66175,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,8,22,CSCI,2024-08-28,2024-12-20,FALL 2024,65026,1100,10,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4040,30,8,22,CSCI,2024-08-28,2024-12-20,FALL 2024,65026,1100,10,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,8,22,CSCI,2024-08-28,2024-12-20,FALL 2024,65026,1100,10,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,67639,1100,11,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 3112,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,67639,1100,11,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,67639,1100,11,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,67115,1100,12,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 3045,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,67115,1100,12,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,67115,1100,12,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,6,24,CSCI,2024-08-28,2024-12-20,FALL 2024,66169,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4040,30,6,24,CSCI,2024-08-28,2024-12-20,FALL 2024,66169,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,6,24,CSCI,2024-08-28,2024-12-20,FALL 2024,66169,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,14,16,CSCI,2024-08-28,2024-12-20,FALL 2024,65025,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 3045,30,14,16,CSCI,2024-08-28,2024-12-20,FALL 2024,65025,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,14,16,CSCI,2024-08-28,2024-12-20,FALL 2024,65025,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,66682,1100,08,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 4034,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,66682,1100,08,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,10,20,CSCI,2024-08-28,2024-12-20,FALL 2024,66682,1100,08,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,4,26,CSCI,2024-08-28,2024-12-20,FALL 2024,66175,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 4040,30,4,26,CSCI,2024-08-28,2024-12-20,FALL 2024,66175,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,4,26,CSCI,2024-08-28,2024-12-20,FALL 2024,66175,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,65026,1100,10,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4040,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,65026,1100,10,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,65026,1100,10,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,11,19,CSCI,2024-08-28,2024-12-20,FALL 2024,67639,1100,11,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 3112,30,11,19,CSCI,2024-08-28,2024-12-20,FALL 2024,67639,1100,11,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,11,19,CSCI,2024-08-28,2024-12-20,FALL 2024,67639,1100,11,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,67115,1100,12,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 3045,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,67115,1100,12,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,9,21,CSCI,2024-08-28,2024-12-20,FALL 2024,67115,1100,12,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,MR,2:00PM,3:20PM,Neha Keshan/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,14,16,CSCI,2024-08-28,2024-12-20,FALL 2024,68117,1100,13,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,T,2:00PM,3:50PM,TBA,Troy Building 2015,30,14,16,CSCI,2024-08-28,2024-12-20,FALL 2024,68117,1100,13,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,14,16,CSCI,2024-08-28,2024-12-20,FALL 2024,68117,1100,13,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67640,1100,14,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 4040,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67640,1100,14,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67640,1100,14,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,65028,1100,15,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4034,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,65028,1100,15,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,65028,1100,15,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67452,1100,16,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4034,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67452,1100,16,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67452,1100,16,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66340,1100,17,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 4034,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66340,1100,17,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,66340,1100,17,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,24,6,CSCI,2024-08-28,2024-12-20,FALL 2024,67641,1100,18,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,6:00PM,7:50PM,TBA,Jonsson Engineering Center 3207,30,24,6,CSCI,2024-08-28,2024-12-20,FALL 2024,67641,1100,18,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,24,6,CSCI,2024-08-28,2024-12-20,FALL 2024,67641,1100,18,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67724,1100,19,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4040,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67724,1100,19,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67724,1100,19,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67640,1100,14,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 4040,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67640,1100,14,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67640,1100,14,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65028,1100,15,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4034,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65028,1100,15,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65028,1100,15,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67452,1100,16,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4034,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67452,1100,16,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67452,1100,16,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,66340,1100,17,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 4034,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,66340,1100,17,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,66340,1100,17,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67641,1100,18,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,6:00PM,7:50PM,TBA,Jonsson Engineering Center 3207,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67641,1100,18,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67641,1100,18,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67724,1100,19,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4040,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67724,1100,19,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67724,1100,19,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67725,1100,20,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,T,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4040,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67725,1100,20,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67725,1100,20,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67726,1100,21,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 3130,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67726,1100,21,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,28,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67726,1100,21,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67726,1100,21,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 3130,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67726,1100,21,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,29,1,CSCI,2024-08-28,2024-12-20,FALL 2024,67726,1100,21,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,Uzma Mushtaque/Mark Richard Gilder/Shianne M. Hulbert,Darrin Communications Center 308,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67727,1100,22,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,T,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 4040,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67727,1100,22,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,30,30,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67727,1100,22,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
-INTRODUCTION TO RCOS,LEC,4,TF,4:00PM,5:50PM,Wesley D Turner,Darrin Communications Center 308,96,95,1,CSCI,2024-08-28,2024-12-20,FALL 2024,69686,2700,01,CSCI-2700,Introduction To Rcos,"The Rensselaer Center for Open Source (RCOS) is an eclectic group of undergraduate students working on team-based open source projects, including both software and open hardware projects. This introductory course provides the fundamental skills required to work as a team on an open source project; such skills include version control via Git, team communication techniques, and how to develop, test, and commit changes to an existing Git repository.",Prerequisites/Corequisites: CSCI 1200,"When Offered: Fall, spring, and summer terms annually.",['CSCI 1200'],['CSCI 1200'],Science
-MACHINE LEARNING FROM DATA,LEC,4,MR,2:00PM,3:50PM,Malik Magdon-Ismail,Russell Sage Laboratory 3510,180,160,20,CSCI,2024-08-28,2024-12-20,FALL 2024,69122,4100,01,CSCI-4100,Machine Learning From Data,"Introduction to the theory, algorithms, and applications of machine learning (supervised, reinforcement, and unsupervised) from data: What is learning? Is learning feasible? How can we do it? How can we do it well? The course offers a mix of theory, technique, and application with additional selected topics chosen from Pattern Recognition, Decision Trees, Neural Networks, RBF's, Bayesian Learning, PAC Learning, Support Vector Machines, Gaussian processes, and Hidden Markov Models.",Prerequisites: CSCI 2210 and CSCI 2300; or permission of instructor.,When Offered: Fall term annually.,"['CSCI 2210', 'CSCI 2300']","['CSCI 2210', 'CSCI 2300']",Science
-ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,18,47,CSCI,2024-08-28,2024-12-20,FALL 2024,66341,4480,01,CSCI-4480,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",Prerequisite: MATH 2010 and MATH 2400 and knowledge of MATLAB and Python.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
-QUANTUM PROGRAMMING & APPS,LEC,4,MR,10:00AM,11:50AM,Zhiding Liang,Lally Hall 02,10,5,5,CSCI,2024-08-28,2024-12-20,FALL 2024,68692,4973,01,CSCI-4973,Quantum Programming & Apps,"The course will delve into advanced topics in quantum computing and their applications, focusing on current research and cutting-edge developments. The seminar course will consist of both lectures and discussion sessions, where students will engage with contemporary research papers and have the opportunity to present on a research topic of their choice or their own findings. Throughout the course, students will explore various aspects of quantum machine learning, quantum chemistry, quantum finance, and other applications, understanding their theoretical foundations and practical implications. The course will also provide students with the chance to enhance their research and presentation skills.",Prerequisites: CSCI 2200 and (CSCI 2500 or ECSE 2660),,"['CSCI 2200', 'CSCI 2500', 'ECSE 2660']",[],Science
-COMPUTING & QUANTUM COMPUTING,LEC,4,MR,10:00AM,11:50AM,Malik Magdon-Ismail,Russell Sage Laboratory 5101,60,20,40,CSCI,2024-08-28,2024-12-20,FALL 2024,67249,6964,01,CSCI-6964,Computing & Quantum Computing,"A course on the theory and some of the main algorithms in computing. The course starts with Turing Machines and Boolean circuits, and ends with Quantum Computing and the efficiency advantages it offers over classical computing. Students must have a strong background in discrete mathematics, probability and linear algebra, but no background in quantum mechanics or physics is needed.","Prerequisites: CSCI 2200, CSCI 2300, and MATH 2010; strong background in linear algebra and probability also required",,"['CSCI 2200', 'CSCI 2300', 'MATH 2010']",[],Science
+INTRODUCTION TO RCOS,LEC,4,TF,4:00PM,5:50PM,Wesley D Turner,Darrin Communications Center 308,96,86,10,CSCI,2024-08-28,2024-12-20,FALL 2024,69686,2700,01,CSCI-2700,Introduction To Rcos,"The Rensselaer Center for Open Source (RCOS) is an eclectic group of undergraduate students working on team-based open source projects, including both software and open hardware projects. This introductory course provides the fundamental skills required to work as a team on an open source project; such skills include version control via Git, team communication techniques, and how to develop, test, and commit changes to an existing Git repository.",Prerequisites/Corequisites: CSCI 1200,"When Offered: Fall, spring, and summer terms annually.",['CSCI 1200'],['CSCI 1200'],Science
+MACHINE LEARNING FROM DATA,LEC,4,MR,2:00PM,3:50PM,Malik Magdon-Ismail,Russell Sage Laboratory 3510,180,156,24,CSCI,2024-08-28,2024-12-20,FALL 2024,69122,4100,01,CSCI-4100,Machine Learning From Data,"Introduction to the theory, algorithms, and applications of machine learning (supervised, reinforcement, and unsupervised) from data: What is learning? Is learning feasible? How can we do it? How can we do it well? The course offers a mix of theory, technique, and application with additional selected topics chosen from Pattern Recognition, Decision Trees, Neural Networks, RBF's, Bayesian Learning, PAC Learning, Support Vector Machines, Gaussian processes, and Hidden Markov Models.",Prerequisites: CSCI 2210 and CSCI 2300; or permission of instructor.,When Offered: Fall term annually.,"['CSCI 2210', 'CSCI 2300']","['CSCI 2210', 'CSCI 2300']",Science
+ROBOTICS I,LEC,3,MR,12:30PM,1:50PM,Kimberly Irene Oakes,Ricketts Building 203,65,14,51,CSCI,2024-08-28,2024-12-20,FALL 2024,66341,4480,01,CSCI-4480,Robotics I,"A survey of the fundamental issues necessary for the design, analysis, control, and implementation of robotic systems. The mathematical description of robot manipulators in terms of kinematics and dynamics. Hardware components of a typical robot arm. Path following, control, and sensing. Examples of several currently available manipulators.",Prerequisite: MATH 2010 and MATH 2400 and knowledge of MATLAB and Python.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+QUANTUM PROGRAMMING & APPS,LEC,4,MR,10:00AM,11:50AM,Zhiding Liang,Lally Hall 02,10,8,2,CSCI,2024-08-28,2024-12-20,FALL 2024,68692,4973,01,CSCI-4973,Quantum Programming & Apps,"The course will delve into advanced topics in quantum computing and their applications, focusing on current research and cutting-edge developments. The seminar course will consist of both lectures and discussion sessions, where students will engage with contemporary research papers and have the opportunity to present on a research topic of their choice or their own findings. Throughout the course, students will explore various aspects of quantum machine learning, quantum chemistry, quantum finance, and other applications, understanding their theoretical foundations and practical implications. The course will also provide students with the chance to enhance their research and presentation skills.",Prerequisites: CSCI 2200 and (CSCI 2500 or ECSE 2660),,"['CSCI 2200', 'CSCI 2500', 'ECSE 2660']",[],Science
+COMPUTING & QUANTUM COMPUTING,LEC,4,MR,10:00AM,11:50AM,Malik Magdon-Ismail,Russell Sage Laboratory 5101,60,15,45,CSCI,2024-08-28,2024-12-20,FALL 2024,67249,6964,01,CSCI-6964,Computing & Quantum Computing,"A course on the theory and some of the main algorithms in computing. The course starts with Turing Machines and Boolean circuits, and ends with Quantum Computing and the efficiency advantages it offers over classical computing. Students must have a strong background in discrete mathematics, probability and linear algebra, but no background in quantum mechanics or physics is needed.","Prerequisites: CSCI 2200, CSCI 2300, and MATH 2010; strong background in linear algebra and probability also required",,"['CSCI 2200', 'CSCI 2300', 'MATH 2010']",[],Science
 AI FOR CONSERVATION,LEC,4,MR,12:00PM,1:50PM,Charles V Stewart,Jonsson Engineering Center 4309,20,11,9,CSCI,2024-08-28,2024-12-20,FALL 2024,69128,6965,01,CSCI-6965,Ai For Conservation,"This course will study the application of artificial intelligence techniques to problems in environmental conservation. A variety of data modalities will be considered, including image and video, acoustic, satellite, etc. The entire sequence of activities will be discussed – problem formulation, data collection and curation, algorithm training and testing, and system deployment. Along the way, FAIR and CARE principles for AI and data will be discussed, and other societal impacts will be addressed. Conservation applications will also be used to examine the state-of-the-art in AI. Students enrolled in the course are expected to have a working knowledge of AI/ML techniques that includes having trained PyTorch (preferrable) or TensorFlow (optional) models. Review materials will be provided. Requirements include active class participation, short homework assignments, leading paper discussions, and a semester-long technical project.",Prerequisites: CSCI 2300 and MATH 2010,,"['CSCI 2300', 'MATH 2010']",[],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65029,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Lally Hall 102,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65029,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65029,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67272,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Lally Hall 104,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67272,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67272,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65030,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,12:00PM,1:50PM,TBA,Lally Hall 102,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65030,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,27,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65030,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,23,4,CSCI,2024-08-28,2024-12-20,FALL 2024,65029,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Lally Hall 102,27,23,4,CSCI,2024-08-28,2024-12-20,FALL 2024,65029,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,23,4,CSCI,2024-08-28,2024-12-20,FALL 2024,65029,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,25,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67272,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Lally Hall 104,27,25,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67272,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,25,2,CSCI,2024-08-28,2024-12-20,FALL 2024,67272,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,24,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65030,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,12:00PM,1:50PM,TBA,Lally Hall 102,27,24,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65030,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,24,3,CSCI,2024-08-28,2024-12-20,FALL 2024,65030,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
 DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,20,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67076,1200,04,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
 DATA STRUCTURES,LEC,4,W,12:00PM,1:50PM,TBA,Lally Hall 104,27,20,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67076,1200,04,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
 DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,20,7,CSCI,2024-08-28,2024-12-20,FALL 2024,67076,1200,04,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,22,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66170,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Lally Hall 102,27,22,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66170,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,22,5,CSCI,2024-08-28,2024-12-20,FALL 2024,66170,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,16,11,CSCI,2024-08-28,2024-12-20,FALL 2024,65031,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Lally Hall 104,27,16,11,CSCI,2024-08-28,2024-12-20,FALL 2024,65031,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,16,11,CSCI,2024-08-28,2024-12-20,FALL 2024,65031,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,14,13,CSCI,2024-08-28,2024-12-20,FALL 2024,65305,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Lally Hall 102,27,14,13,CSCI,2024-08-28,2024-12-20,FALL 2024,65305,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,14,13,CSCI,2024-08-28,2024-12-20,FALL 2024,65305,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,9,18,CSCI,2024-08-28,2024-12-20,FALL 2024,67451,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Lally Hall 104,27,9,18,CSCI,2024-08-28,2024-12-20,FALL 2024,67451,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,9,18,CSCI,2024-08-28,2024-12-20,FALL 2024,67451,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,67642,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Lally Hall 102,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,67642,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,67642,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,67820,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Lally Hall 104,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,67820,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,67820,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
-DIST SYSTEMS & ALGORITHMS,LEC,4,MR,12:00PM,1:50PM,Stacy Elizabeth Patterson,Russell Sage Laboratory 5101,70,40,30,CSCI,2024-08-28,2024-12-20,FALL 2024,69676,4510,01,CSCI-4510,Dist Systems & Algorithms,"This course explores the principles of distributed systems, emphasizing fundamental issues underlying the design of such systems: communication, coordination, synchronization, and fault-tolerance. Key algorithms and theoretical results will be studied and students will explore how these foundations play out in modern systems and applications.",Prerequisite: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
-AI FOR SCIENCE,LEC,4,MR,10:00AM,11:50AM,Tianfan Fu,Russell Sage Laboratory 3713,40,25,15,CSCI,2024-08-28,2024-12-20,FALL 2024,69386,4960,01,CSCI-4960,Ai For Science,TBA,Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
-DEEP LEARNING ON GRAPHS,LEC,4,MR,4:00PM,5:50PM,Yao Ma,Ricketts Building 208,20,2,18,CSCI,2024-08-28,2024-12-20,FALL 2024,69336,4975,01,CSCI-4975,Deep Learning On Graphs,"Deep Learning on Graphs is a course to explore state-of-the-art techniques in graph representation learning, with a particular emphasis on the emerging potential of Graph Neural Networks (GNNs). Graphs are widely used to represent data across various domains, including social science, linguistics, chemistry, biology, and physics, and GNNs have proven to be highly effective in facilitating computational tasks on these graphs. This course will cover topics such as network embedding, GNNs, properties of GNNs, and diverse applications of GNNs. In addition to lectures, students will be expected to read and discuss relevant literature, deliver presentations, and participate in research projects related to the subject matter.",Prerequisites: CSCI 4150 AND (CSCI 4390 OR CSCI 6390),,"['CSCI 4150', 'CSCI 4390', 'CSCI 6390']",[],Science
-ONTOLOGIES,LEC,4,M,12:00PM,3:50PM,Deborah L. McGuinness,Russell Sage Laboratory 2715,20,4,16,CSCI,2024-08-28,2024-12-20,FALL 2024,68075,6340,01,CSCI-6340,Ontologies,"This course provides an introduction to ontologies, their uses, and an overview of their application in semantically enabled systems. Ontologies encode term meanings and are used to improve communication and enable computer programs to function more effectively. Class participants learn how to use ontologies in web-based applications and evaluate ontologies for reuse. Participants read relevant papers, learn how to critically review ontology papers and ontologies, and participate in group project(s) designing, using, and evaluating ontologies.",Prerequisite: CSCI 2300.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,24,3,CSCI,2024-08-28,2024-12-20,FALL 2024,66170,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Lally Hall 102,27,24,3,CSCI,2024-08-28,2024-12-20,FALL 2024,66170,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,24,3,CSCI,2024-08-28,2024-12-20,FALL 2024,66170,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,65031,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Lally Hall 104,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,65031,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,15,12,CSCI,2024-08-28,2024-12-20,FALL 2024,65031,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,23,4,CSCI,2024-08-28,2024-12-20,FALL 2024,65305,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Lally Hall 102,27,23,4,CSCI,2024-08-28,2024-12-20,FALL 2024,65305,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,23,4,CSCI,2024-08-28,2024-12-20,FALL 2024,65305,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,5,22,CSCI,2024-08-28,2024-12-20,FALL 2024,67451,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Lally Hall 104,27,5,22,CSCI,2024-08-28,2024-12-20,FALL 2024,67451,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,5,22,CSCI,2024-08-28,2024-12-20,FALL 2024,67451,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,22,5,CSCI,2024-08-28,2024-12-20,FALL 2024,67642,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Lally Hall 102,27,22,5,CSCI,2024-08-28,2024-12-20,FALL 2024,67642,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,22,5,CSCI,2024-08-28,2024-12-20,FALL 2024,67642,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler/Meredith Elizabeth Widman,Russell Sage Laboratory 3303,27,0,27,CSCI,2024-08-28,2024-12-20,FALL 2024,67820,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Lally Hall 104,27,0,27,CSCI,2024-08-28,2024-12-20,FALL 2024,67820,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,0,27,CSCI,2024-08-28,2024-12-20,FALL 2024,67820,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: Requires a C- or higher in CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DIST SYSTEMS & ALGORITHMS,LEC,4,MR,12:00PM,1:50PM,Stacy Elizabeth Patterson,Russell Sage Laboratory 5101,70,31,39,CSCI,2024-08-28,2024-12-20,FALL 2024,69676,4510,01,CSCI-4510,Dist Systems & Algorithms,"This course explores the principles of distributed systems, emphasizing fundamental issues underlying the design of such systems: communication, coordination, synchronization, and fault-tolerance. Key algorithms and theoretical results will be studied and students will explore how these foundations play out in modern systems and applications.",Prerequisite: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
+AI FOR SCIENCE,LEC,4,MR,10:00AM,11:50AM,Tianfan Fu,Russell Sage Laboratory 3713,40,21,19,CSCI,2024-08-28,2024-12-20,FALL 2024,69386,4960,01,CSCI-4960,Ai For Science,TBA,Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+DEEP LEARNING ON GRAPHS,LEC,4,MR,4:00PM,5:50PM,Yao Ma,Ricketts Building 208,20,4,16,CSCI,2024-08-28,2024-12-20,FALL 2024,69336,4975,01,CSCI-4975,Deep Learning On Graphs,"Deep Learning on Graphs is a course to explore state-of-the-art techniques in graph representation learning, with a particular emphasis on the emerging potential of Graph Neural Networks (GNNs). Graphs are widely used to represent data across various domains, including social science, linguistics, chemistry, biology, and physics, and GNNs have proven to be highly effective in facilitating computational tasks on these graphs. This course will cover topics such as network embedding, GNNs, properties of GNNs, and diverse applications of GNNs. In addition to lectures, students will be expected to read and discuss relevant literature, deliver presentations, and participate in research projects related to the subject matter.",Prerequisites: CSCI 4150 AND (CSCI 4390 OR CSCI 6390),,"['CSCI 4150', 'CSCI 4390', 'CSCI 6390']",[],Science
+ONTOLOGIES,LEC,4,M,12:00PM,3:50PM,Deborah L. McGuinness,Russell Sage Laboratory 2715,20,6,14,CSCI,2024-08-28,2024-12-20,FALL 2024,68075,6340,01,CSCI-6340,Ontologies,"This course provides an introduction to ontologies, their uses, and an overview of their application in semantically enabled systems. Ontologies encode term meanings and are used to improve communication and enable computer programs to function more effectively. Class participants learn how to use ontologies in web-based applications and evaluate ontologies for reuse. Participants read relevant papers, learn how to critically review ontology papers and ontologies, and participate in group project(s) designing, using, and evaluating ontologies.",Prerequisite: CSCI 2300.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],Science
 PROGRAMMING IN HASKELL,LEC,4,TF,12:00PM,1:50PM,Ana L. Milanova,Carnegie Building 106,40,6,34,CSCI,2024-08-28,2024-12-20,FALL 2024,69135,6966,01,CSCI-6966,Programming In Haskell,"Haskell is a functional programming language increasingly used in industry; many Haskell features and ideas have been adopted by mainstream languages such as Python. The class will cover basic lambda calculus (the theoretical foundation of functional programing languages) and explore features such as lazy evaluation and infinite structures, higher-order functions, static types, and error reporting. It will cover more advanced Haskell features as well monads (including lists and IO), type classes, polymorphism, Hindley-Milner type inference and other. Grading will be based on class participation, in-class open-note quizzes, small biweekly programming assignments, and a larger final programming assignment.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
-EARLY INTRODUCTION TO RCOS,LEC,2,TF,4:00PM,5:50PM,Wesley D Turner,Darrin Communications Center 308,64,23,41,CSCI,2024-08-28,2024-12-20,FALL 2024,69684,1700,01,CSCI-1700,Early Introduction To Rcos,"The Rensselaer Center for Open Source (RCOS) is an eclectic group of undergraduate students working on team-based open source projects, including both software and open hardware projects. This initial course provides the core skills required to work on an open source project.",CSCI 1100,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+EARLY INTRODUCTION TO RCOS,LEC,2,TF,4:00PM,5:50PM,Wesley D Turner,Darrin Communications Center 308,64,20,44,CSCI,2024-08-28,2024-12-20,FALL 2024,69684,1700,01,CSCI-1700,Early Introduction To Rcos,"The Rensselaer Center for Open Source (RCOS) is an eclectic group of undergraduate students working on team-based open source projects, including both software and open hardware projects. This initial course provides the core skills required to work on an open source project.",CSCI 1100,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
 ONTOLOGIES,LEC,4,M,12:00PM,3:50PM,Deborah L. McGuinness,Russell Sage Laboratory 2715,8,8,0,CSCI,2024-08-28,2024-12-20,FALL 2024,69674,4340,01,CSCI-4340,Ontologies,"This course provides an introduction to ontologies, their uses, and an overview of their application in semantically enabled systems. Ontologies encode term meanings and are used to improve communication and enable computer programs to function more effectively. Class participants learn how to use ontologies in Web-based applications and evaluate ontologies for reuse. Participants read relevant papers, learn how to critically review ontology papers and ontologies, and participate in group project(s) designing, using, and evaluating ontologies.",Prerequisite: CSCI 2300.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],Science
-NETWORK SECURITY AND DEFENSE,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao,Darrin Communications Center 324,60,61,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,66442,4961,01,CSCI-4961,Network Security And Defense,"This course covers network security and defense mechanisms to thwart a variety of attacks. Topics include packet sniffing and spoofing, attacks on the TCP/IP protocol, attacks on the ICMP, ARP protocol, firewall, DNS security local DNS attack, remote DNS attack, virtual private networks, public key infrastructure, transport layer security, and CDN security.",Prerequisites: CSCI 4210,,['CSCI 4210'],[],Science
-DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,5,5,0,CSCI,2024-08-28,2024-12-20,FALL 2024,67210,6350,01,CSCI-6350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites/Corequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Science
-COMPUTATIONAL LINEAR ALGEBRA,LEC,4,TF,10:00AM,11:50AM,Fabian Maximilian Faulstich,Carnegie Building 106,10,10,0,CSCI,2024-08-28,2024-12-20,FALL 2024,65438,6800,01,CSCI-6800,Computational Linear Algebra,"Gaussian elimination, special linear systems (such as positive definite, banded, or sparse), introduction to parallel computing, iterative methods for linear systems (such as conjugate gradient and preconditioning), QR factorization and least squares problems, and eigenvalue problems.",Prerequisite: MATH 4800 or CSCI 4800 or permission of instructor.,When Offered: Fall term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+NETWORK SECURITY AND DEFENSE,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao,Darrin Communications Center 324,60,53,7,CSCI,2024-08-28,2024-12-20,FALL 2024,66442,4961,01,CSCI-4961,Network Security And Defense,"This course covers network security and defense mechanisms to thwart a variety of attacks. Topics include packet sniffing and spoofing, attacks on the TCP/IP protocol, attacks on the ICMP, ARP protocol, firewall, DNS security local DNS attack, remote DNS attack, virtual private networks, public key infrastructure, transport layer security, and CDN security.",Prerequisites: CSCI 4210,,['CSCI 4210'],[],Science
+DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,5,6,-1,CSCI,2024-08-28,2024-12-20,FALL 2024,67210,6350,01,CSCI-6350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught.",Prerequisites/Corequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Science
+COMPUTATIONAL LINEAR ALGEBRA,LEC,4,TF,10:00AM,11:50AM,Fabian Maximilian Faulstich,Carnegie Building 106,10,5,5,CSCI,2024-08-28,2024-12-20,FALL 2024,65438,6800,01,CSCI-6800,Computational Linear Algebra,"Gaussian elimination, special linear systems (such as positive definite, banded, or sparse), introduction to parallel computing, iterative methods for linear systems (such as conjugate gradient and preconditioning), QR factorization and least squares problems, and eigenvalue problems.",Prerequisite: MATH 4800 or CSCI 4800 or permission of instructor.,When Offered: Fall term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
 RESEARCH ROTATION,LEC,2-4,,,,TBA,TBA,0,0,0,ISCI,2024-08-28,2024-12-20,FALL 2024,66941,4950,01,ISCI-4950,Research Rotation,"Students will contact several faculty members prior to the start of the semester. They and the participating faculty will mutually agree about the general area of the research and the time commitment for the rotation. Expectations for the research experience will be specified, and mutually agreed to, by the start of the semester.",Restricted to School of Science majors accepted into the Accelerated B.S./Ph.D. Program.,When Offered: Fall and spring terms annually.,[],[],Science
 ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,20,0,20,ISCI,2024-08-28,2024-12-20,FALL 2024,69378,4961,01,ISCI-4961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Science
-RDGS ASTROBIO & ORIG OF LIFE,LEC,1,R,12:00PM,1:50PM,Karyn Lynne Rogers,Jonsson-Rowland Science Center ,15,8,7,ISCI,2024-08-28,2024-12-20,FALL 2024,69037,6510,01,ISCI-6510,Rdgs Astrobio & Orig Of Life,"Discussion of current issues and research relevant to astrobiology and the origins of life through the view of earth sciences, chemistry, biology, and astrophysics.",,When Offered: Fall and spring terms annually.,[],[],Science
+RDGS ASTROBIO & ORIG OF LIFE,LEC,1,R,12:00PM,1:50PM,Karyn Lynne Rogers,Jonsson-Rowland Science Center ,15,10,5,ISCI,2024-08-28,2024-12-20,FALL 2024,69037,6510,01,ISCI-6510,Rdgs Astrobio & Orig Of Life,"Discussion of current issues and research relevant to astrobiology and the origins of life through the view of earth sciences, chemistry, biology, and astrophysics.",,When Offered: Fall and spring terms annually.,[],[],Science
 DISSERTATION,LEC,1-15,,,,George I. Makhatadze,TBA,10,0,10,ISCI,2024-08-28,2024-12-20,FALL 2024,65647,9990,01,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Gyorgy Korniss,TBA,10,0,10,ISCI,2024-08-28,2024-12-20,FALL 2024,66688,9990,04,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Richard M. Plotka,TBA,10,0,10,ISCI,2024-08-28,2024-12-20,FALL 2024,66946,9990,07,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-RDGS ASTROBIO & ORIG OF LIFE,LEC,1,R,12:00PM,1:50PM,Karyn Lynne Rogers,Jonsson-Rowland Science Center ,15,2,13,ISCI,2024-08-28,2024-12-20,FALL 2024,68276,4510,01,ISCI-4510,Rdgs Astrobio & Orig Of Life,"Discussion of current issues relevant to the origins of life in astrophysics, biology, chemistry, and earth sciences.","Prerequisite: ISCI 1510 or ERTH 1510; and junior standing or higher, or permission of instructor.",When Offered: Fall and spring terms annually.,"['ISCI 1510', 'ERTH 1510']","['ISCI 1510', 'ERTH 1510']",Science
-MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,Chaitanya Kishore Ullal/John R. LaGraff,Walker Laboratory 6113,5,0,5,ISCI,2024-08-28,2024-12-20,FALL 2024,67827,1600,01,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,Chaitanya Kishore Ullal,TBA,5,0,5,ISCI,2024-08-28,2024-12-20,FALL 2024,67827,1600,01,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+RDGS ASTROBIO & ORIG OF LIFE,LEC,1,R,12:00PM,1:50PM,Karyn Lynne Rogers,Jonsson-Rowland Science Center ,15,3,12,ISCI,2024-08-28,2024-12-20,FALL 2024,68276,4510,01,ISCI-4510,Rdgs Astrobio & Orig Of Life,"Discussion of current issues relevant to the origins of life in astrophysics, biology, chemistry, and earth sciences.","Prerequisite: ISCI 1510 or ERTH 1510; and junior standing or higher, or permission of instructor.",When Offered: Fall and spring terms annually.,"['ISCI 1510', 'ERTH 1510']","['ISCI 1510', 'ERTH 1510']",Science
+MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,Chaitanya Kishore Ullal/John R. LaGraff,Walker Laboratory 6113,5,1,4,ISCI,2024-08-28,2024-12-20,FALL 2024,67827,1600,01,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,Chaitanya Kishore Ullal,TBA,5,1,4,ISCI,2024-08-28,2024-12-20,FALL 2024,67827,1600,01,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
 MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,1,4,ISCI,2024-08-28,2024-12-20,FALL 2024,67826,1600,02,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
 MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,5,1,4,ISCI,2024-08-28,2024-12-20,FALL 2024,67826,1600,02,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
 CAPSTONE IN ASTROBIOLOGY,LEC,1,,8:00AM,8:01AM,Karyn Lynne Rogers/Kristin Nicole Johnson/Morgan Frederick Schaller/Jacob Thomas Shelley,TBA,10,0,10,ISCI,2024-08-28,2024-12-20,FALL 2024,68954,4610,01,ISCI-4610,Capstone In Astrobiology,"Students taking the Minor in Astrobiology are required to complete 3 credits of research in an Astrobiology-related discipline with a RARE-affiliated faculty member. Concurrent or in a later semester, students will enroll in ISCI 4610 with the same faculty member to prepare their research results for dissemination.",3 credits of Astrobiology research with a RARE-affiliated faculty member.,When Offered: Fall and spring terms annually.,[],[],Science
 ADV MATS METRO EQPT SEMI MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Low Center for Industrial Inn. 3051,20,0,20,ISCI,2024-08-28,2024-12-20,FALL 2024,69606,6961,01,ISCI-6961,Adv Mats Metro Eqpt Semi Mfg,,,,[],[],Science
 GEOLOGY I: LAB,LEC,1,W,10:00AM,11:50AM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,24,0,ERTH,2024-08-28,2024-12-20,FALL 2024,67795,1150,01,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
-GEOLOGY I: LAB,LEC,1,W,12:00PM,1:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,23,1,ERTH,2024-08-28,2024-12-20,FALL 2024,67796,1150,02,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
-GEOLOGY I: LAB,LEC,1,W,2:00PM,3:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,23,1,ERTH,2024-08-28,2024-12-20,FALL 2024,68968,1150,03,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
-GEOLOGY I: LAB,LEC,1,W,4:00PM,5:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,6,18,ERTH,2024-08-28,2024-12-20,FALL 2024,68118,1150,04,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
-GEOLOGY I: LAB,LEC,1,W,8:00AM,9:50AM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,21,3,ERTH,2024-08-28,2024-12-20,FALL 2024,68846,1150,05,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
-FIELD METHODS,LEC,4,W,10:00AM,11:50AM,Morgan Frederick Schaller,Jonsson-Rowland Science Center 2C25,24,15,9,ERTH,2024-08-28,2024-12-20,FALL 2024,68824,2210,01,ERTH-2210,Field Methods,"Principles and methods of field work in Geological and Environmental Sciences, including geologic mapping of formations across spatial scales, basic orienteering, glacial geology, modern lake characterization, climate reconstruction using tree and sediment cores, drainage basin analysis, well-logging and water-well sampling, and basic pedology. Students are trained in the use of instruments to address selected field problems. Numerous all-day field trips every Wednesday throughout the semester (occasionally on weekends) required. Course culminates with an independent research project. This is a communication-intensive course.",Prerequisites: ERTH 1100 or ERTH 1200 or permission of instructor.,When Offered: Fall term annually.,"['ERTH 1100', 'ERTH 1200']","['ERTH 1100', 'ERTH 1200']",Science
-FIELD METHODS,LEC,4,W,12:00PM,3:50PM,Morgan Frederick Schaller,Jonsson-Rowland Science Center ,24,15,9,ERTH,2024-08-28,2024-12-20,FALL 2024,68824,2210,01,ERTH-2210,Field Methods,"Principles and methods of field work in Geological and Environmental Sciences, including geologic mapping of formations across spatial scales, basic orienteering, glacial geology, modern lake characterization, climate reconstruction using tree and sediment cores, drainage basin analysis, well-logging and water-well sampling, and basic pedology. Students are trained in the use of instruments to address selected field problems. Numerous all-day field trips every Wednesday throughout the semester (occasionally on weekends) required. Course culminates with an independent research project. This is a communication-intensive course.",Prerequisites: ERTH 1100 or ERTH 1200 or permission of instructor.,When Offered: Fall term annually.,"['ERTH 1100', 'ERTH 1200']","['ERTH 1100', 'ERTH 1200']",Science
+GEOLOGY I: LAB,LEC,1,W,12:00PM,1:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,22,2,ERTH,2024-08-28,2024-12-20,FALL 2024,67796,1150,02,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
+GEOLOGY I: LAB,LEC,1,W,2:00PM,3:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,22,2,ERTH,2024-08-28,2024-12-20,FALL 2024,68968,1150,03,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
+GEOLOGY I: LAB,LEC,1,W,4:00PM,5:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,11,13,ERTH,2024-08-28,2024-12-20,FALL 2024,68118,1150,04,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
+GEOLOGY I: LAB,LEC,1,W,8:00AM,9:50AM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,23,1,ERTH,2024-08-28,2024-12-20,FALL 2024,68846,1150,05,ERTH-1150,Geology I: Lab,"This lab focuses on geological processes in the interior of Earth and how they are manifested at the surface: age and origin of Earth, how rocks form, large-scale Earth processes, and energy sources. Review plate tectonics and the evolution of the main features of Earth's surface. Physical and chemical composition of Earth and the large-scale dynamics of the planet.",Prerequisites/Corequisites: ERTH 1100 corequisite (preferred) or prerequisite.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
+FIELD METHODS,LEC,4,W,10:00AM,11:50AM,Morgan Frederick Schaller,Jonsson-Rowland Science Center 2C25,24,18,6,ERTH,2024-08-28,2024-12-20,FALL 2024,68824,2210,01,ERTH-2210,Field Methods,"Principles and methods of field work in Geological and Environmental Sciences, including geologic mapping of formations across spatial scales, basic orienteering, glacial geology, modern lake characterization, climate reconstruction using tree and sediment cores, drainage basin analysis, well-logging and water-well sampling, and basic pedology. Students are trained in the use of instruments to address selected field problems. Numerous all-day field trips every Wednesday throughout the semester (occasionally on weekends) required. Course culminates with an independent research project. This is a communication-intensive course.",Prerequisites: ERTH 1100 or ERTH 1200 or permission of instructor.,When Offered: Fall term annually.,"['ERTH 1100', 'ERTH 1200']","['ERTH 1100', 'ERTH 1200']",Science
+FIELD METHODS,LEC,4,W,12:00PM,3:50PM,Morgan Frederick Schaller,Jonsson-Rowland Science Center ,24,18,6,ERTH,2024-08-28,2024-12-20,FALL 2024,68824,2210,01,ERTH-2210,Field Methods,"Principles and methods of field work in Geological and Environmental Sciences, including geologic mapping of formations across spatial scales, basic orienteering, glacial geology, modern lake characterization, climate reconstruction using tree and sediment cores, drainage basin analysis, well-logging and water-well sampling, and basic pedology. Students are trained in the use of instruments to address selected field problems. Numerous all-day field trips every Wednesday throughout the semester (occasionally on weekends) required. Course culminates with an independent research project. This is a communication-intensive course.",Prerequisites: ERTH 1100 or ERTH 1200 or permission of instructor.,When Offered: Fall term annually.,"['ERTH 1100', 'ERTH 1200']","['ERTH 1100', 'ERTH 1200']",Science
 DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,5,0,5,ERTH,2024-08-28,2024-12-20,FALL 2024,67212,6350,01,ERTH-6350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught. This course meets with ERTH 4350/ CSCI 4350/ ITWS 4350 and CSCI 6350/ ITWS 6350.",Prerequisites/Corequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Science
 EARTH MATERIALS,LEC,4,M,10:00AM,1:50PM,Frank Spear,Jonsson-Rowland Science Center 3W13,24,8,16,ERTH,2024-08-28,2024-12-20,FALL 2024,69145,2330,01,ERTH-2330,Earth Materials,"Overview of the chemical and physical properties of the material constituents of the Earth and terrestrial planets, including minerals, rocks, lavas, and supercritical water. Topics include mineral structure and composition, bonding, optical properties, phase transformations, stabilities and surface properties. Mineral resources and the role of minerals in the man-made environment is also discussed. Intended for students interested in learning about the constituents of planet Earth and the techniques used in their characterization (both traditional and modern) at various scales.",Prerequisites/Corequisites: ERTH 1100 or ERTH 1200.,When Offered: Fall term annually.,"['ERTH 1100', 'ERTH 1200']","['ERTH 1100', 'ERTH 1200']",Science
 EARTH MATERIALS,LEC,4,R,10:00AM,11:50AM,Frank Spear,Jonsson-Rowland Science Center 3W13,24,8,16,ERTH,2024-08-28,2024-12-20,FALL 2024,69145,2330,01,ERTH-2330,Earth Materials,"Overview of the chemical and physical properties of the material constituents of the Earth and terrestrial planets, including minerals, rocks, lavas, and supercritical water. Topics include mineral structure and composition, bonding, optical properties, phase transformations, stabilities and surface properties. Mineral resources and the role of minerals in the man-made environment is also discussed. Intended for students interested in learning about the constituents of planet Earth and the techniques used in their characterization (both traditional and modern) at various scales.",Prerequisites/Corequisites: ERTH 1100 or ERTH 1200.,When Offered: Fall term annually.,"['ERTH 1100', 'ERTH 1200']","['ERTH 1100', 'ERTH 1200']",Science
 DATA SCIENCE,LEC,3,R,11:00AM,1:50PM,Ahmed Mohamed Morad Mohamed Maher Eleish,Lally Hall 104,1,0,1,ERTH,2024-08-28,2024-12-20,FALL 2024,67211,4350,01,ERTH-4350,Data Science,"Data science is advancing the inductive conduct of science and is driven by the greater volumes, complexity, and heterogeneity of data being made available over the Internet. It combines aspects of data management, library science, computer science, and physical science. It is changing the way all of these disciplines do both their individual and collaborative work. Key methodologies in application areas based on real research experience are taught. This course meets with CSCI 4350/ ITWS 4350 and CSCI 6350/ ITWS 6350. A student can get credit for only one of these courses.",Prerequisites/Corequisites: CSCI 1200 and CSCI 4380 preferred.,When Offered: Fall term annually.,"['CSCI 1200', 'CSCI 4380']","['CSCI 1200', 'CSCI 4380']",Science
-ORGANIC GEOCHEMISTRY,LEC,4,MR,2:00PM,3:50PM,Sasha Joy Wagner,Troy Building 2015,3,1,2,ERTH,2024-08-28,2024-12-20,FALL 2024,69036,6545,01,ERTH-6545,Organic Geochemistry,"Origin, transformation, and fate of organic matter on Earth. This course is chemistry-focused and incorporates concepts from biology, geology, and ecology. This course emphasizes reactivity, transport, and storage mechanisms that control the distribution of organic matter in terrestrial and marine systems. Analytical techniques for characterizing organic matter and applications to carbon cycling in natural and perturbed environments are also discussed.","Prerequisites/Corequisites: CHEM 1100 and ERTH 1200, or permission of instructor.",When Offered: Fall term annually.,"['CHEM 1100', 'ERTH 1200']","['CHEM 1100', 'ERTH 1200']",Science
+ORGANIC GEOCHEMISTRY,LEC,4,MR,2:00PM,3:50PM,Sasha Joy Wagner,Troy Building 2015,3,2,1,ERTH,2024-08-28,2024-12-20,FALL 2024,69036,6545,01,ERTH-6545,Organic Geochemistry,"Origin, transformation, and fate of organic matter on Earth. This course is chemistry-focused and incorporates concepts from biology, geology, and ecology. This course emphasizes reactivity, transport, and storage mechanisms that control the distribution of organic matter in terrestrial and marine systems. Analytical techniques for characterizing organic matter and applications to carbon cycling in natural and perturbed environments are also discussed.","Prerequisites/Corequisites: CHEM 1100 and ERTH 1200, or permission of instructor.",When Offered: Fall term annually.,"['CHEM 1100', 'ERTH 1200']","['CHEM 1100', 'ERTH 1200']",Science
 MASTER'S PROJECT,LEC,1-9,,,,Frank Spear,TBA,10,0,10,ERTH,2024-08-28,2024-12-20,FALL 2024,66781,6980,02,ERTH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Karyn Lynne Rogers,TBA,10,0,10,ERTH,2024-08-28,2024-12-20,FALL 2024,67199,6980,10,ERTH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Morgan Frederick Schaller,TBA,10,0,10,ERTH,2024-08-28,2024-12-20,FALL 2024,67466,6980,12,ERTH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
@@ -2168,118 +2211,119 @@ MASTER'S THESIS,LEC,1-9,,,,Steven W Roecker,TBA,80,0,80,ERTH,2024-08-28,2024-12-
 MASTER'S THESIS,LEC,1-9,,,,Karyn Lynne Rogers,TBA,10,1,9,ERTH,2024-08-28,2024-12-20,FALL 2024,67200,6990,10,ERTH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-9,,,,Morgan Frederick Schaller,TBA,10,0,10,ERTH,2024-08-28,2024-12-20,FALL 2024,67467,6990,12,ERTH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 ORGANIC GEOCHEMISTRY,LEC,4,MR,2:00PM,3:50PM,Sasha Joy Wagner,Troy Building 2015,24,20,4,ERTH,2024-08-28,2024-12-20,FALL 2024,68985,4540,01,ERTH-4540,Organic Geochemistry,"Origin, transformation, and fate of organic matter on Earth. This course is chemistry-focused and incorporates concepts from biology, geology, and ecology. This course emphasizes reactivity, transport, and storage mechanisms which control the distribution of organic matter in terrestrial and marine systems. Analytical techniques for characterizing organic matter and applications to carbon cycling in natural and perturbed environments are also discussed.","Prerequisites: CHEM 1100 and ERTH 1200, or permission of instructor.",When Offered: Fall term even-numbered years.,"['CHEM 1100', 'ERTH 1200']","['CHEM 1100', 'ERTH 1200']",Science
+DISSERTATION,LEC,1-15,,,,Matthew Adam Pasek,TBA,10,1,9,ERTH,2024-08-28,2024-12-20,FALL 2024,69934,9990,01,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Frank Spear,TBA,10,0,10,ERTH,2024-08-28,2024-12-20,FALL 2024,65878,9990,05,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Sasha Joy Wagner,TBA,10,3,7,ERTH,2024-08-28,2024-12-20,FALL 2024,68710,9990,07,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Sasha Joy Wagner,TBA,10,5,5,ERTH,2024-08-28,2024-12-20,FALL 2024,68710,9990,07,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Karyn Lynne Rogers,TBA,10,2,8,ERTH,2024-08-28,2024-12-20,FALL 2024,67201,9990,10,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Morgan Frederick Schaller,TBA,10,4,6,ERTH,2024-08-28,2024-12-20,FALL 2024,67468,9990,12,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 STRUCTURAL GEOLOGY,LEC,4,MR,2:00PM,3:50PM,Frank Spear,Jonsson-Rowland Science Center 3W13,12,5,7,ERTH,2024-08-28,2024-12-20,FALL 2024,68562,2120,01,ERTH-2120,Structural Geology,"Introduction to stress and strain; observation, measurement, recording, and interpretation of rock structures including joints, faults, folds, and fabrics. Interpretation of structures from geologic maps. Structures and regional tectonics. Laboratory and field trips required.",Prerequisite: ERTH 2210 or permission of instructor.,When Offered: Fall term annually.,['ERTH 2210'],['ERTH 2210'],Science
 STRUCTURAL GEOLOGY,LEC,4,R,4:00PM,5:50PM,Frank Spear,Jonsson-Rowland Science Center 3W13,12,5,7,ERTH,2024-08-28,2024-12-20,FALL 2024,68562,2120,01,ERTH-2120,Structural Geology,"Introduction to stress and strain; observation, measurement, recording, and interpretation of rock structures including joints, faults, folds, and fabrics. Interpretation of structures from geologic maps. Structures and regional tectonics. Laboratory and field trips required.",Prerequisite: ERTH 2210 or permission of instructor.,When Offered: Fall term annually.,['ERTH 2210'],['ERTH 2210'],Science
-INTRODUCTION TO GEOBIOLOGY,LEC,4,TF,10:00AM,11:50AM,Karyn Lynne Rogers,Russell Sage Laboratory 4510,20,14,6,ERTH,2024-08-28,2024-12-20,FALL 2024,68569,2160,01,ERTH-2160,Introduction To Geobiology,"This course focuses on the co-evolution of life with Earth's systems and targets students in Earth science, biology, chemistry, and physics. Topics include the emergence and early evolution of life on Earth, the environmental limits of life, microbial and metabolic evolution; the role of life in moderating global elemental cycles; earliest records of life; evolution of photosynthesis and the Great Oxidation Event; fossilization and evolution of complex life; mass radiations, mass extinctions, and global changes.",Prerequisites/Corequisites: ERTH 1100 recommended but not required.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
-MECHANISMS OF MASS EXTINCTION,LEC,4,F,12:00PM,2:00PM,Morgan Frederick Schaller,Low Center for Industrial Inn. 4040,15,5,10,ERTH,2024-08-28,2024-12-20,FALL 2024,69834,6250,01,ERTH-6250,Mechanisms Of Mass Extinction,"This course will provide an in-depth and exploratory understanding of the causes for Mass Extinction events in Earth's history, from 550 million years ago to the present day. The course will investigate the processes of mass extinction through geochemical, paleontological, and sedimentological data to track the triggers for and effects of mass extinctions on the co-evolution of the Earth system and biosphere in deep time. This course is designed to offer students an applied and interactive learning environment based on synthesis of the primary literature.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-GEOLOGY I: EARTH'S INTERIOR,LEC,3,TF,10:00AM,11:50AM,Sarah Beth Cadieux,Russell Sage Laboratory 3510,100,107,-7,ERTH,2024-08-28,2024-12-20,FALL 2024,67794,1100,01,ERTH-1100,Geology I: EARTH'S Interior,"Age and origin of the Earth, internal constituents, and energy sources; how plates move, oceans develop, and mountains rise. The course aims to give a quantitative picture of the Earth's major processes and the ways in which they interact.",,When Offered: Fall term annually.,[],[],Science
-GEOLOGY I: EARTH'S INTERIOR,LEC,3,TF,10:00AM,11:50AM,Sarah Beth Cadieux,Russell Sage Laboratory 3510,20,8,12,ERTH,2024-08-28,2024-12-20,FALL 2024,68984,1100,02,ERTH-1100,Geology I: EARTH'S Interior,"Age and origin of the Earth, internal constituents, and energy sources; how plates move, oceans develop, and mountains rise. The course aims to give a quantitative picture of the Earth's major processes and the ways in which they interact.",,When Offered: Fall term annually.,[],[],Science
-GROUNDWATER HYDROLOGY,LEC,4,TF,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,40,19,21,ERTH,2024-08-28,2024-12-20,FALL 2024,65065,4710,01,ERTH-4710,Groundwater Hydrology,"Study of hydrologic and geologic and other factors controlling groundwater flow, occurrence, and development. Groundwater flow theory and aquifer test methods are introduced. Interactions between surface and subsurface hydrologic systems are covered. Applications to design of infiltration, remediation, and dewatering systems.","Prerequisite: MATH 1020 or equivalent, or permission of the instructor.",When Offered: Fall term annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,12:00PM,1:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65087,2010,01,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,8:00AM,8:50AM,TBA,Greene Building 120,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65087,2010,01,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRODUCTION TO GEOBIOLOGY,LEC,4,TF,10:00AM,11:50AM,Karyn Lynne Rogers,Russell Sage Laboratory 4510,20,21,-1,ERTH,2024-08-28,2024-12-20,FALL 2024,68569,2160,01,ERTH-2160,Introduction To Geobiology,"This course focuses on the co-evolution of life with Earth's systems and targets students in Earth science, biology, chemistry, and physics. Topics include the emergence and early evolution of life on Earth, the environmental limits of life, microbial and metabolic evolution; the role of life in moderating global elemental cycles; earliest records of life; evolution of photosynthesis and the Great Oxidation Event; fossilization and evolution of complex life; mass radiations, mass extinctions, and global changes.",Prerequisites/Corequisites: ERTH 1100 recommended but not required.,When Offered: Fall term annually.,['ERTH 1100'],['ERTH 1100'],Science
+MECHANISMS OF MASS EXTINCTION,LEC,4,F,12:00PM,1:50PM,Morgan Frederick Schaller/Sasha Joy Wagner,Low Center for Industrial Inn. 4040,15,5,10,ERTH,2024-08-28,2024-12-20,FALL 2024,69834,6250,01,ERTH-6250,Mechanisms Of Mass Extinction,"This course will provide an in-depth and exploratory understanding of the causes for Mass Extinction events in Earth's history, from 550 million years ago to the present day. The course will investigate the processes of mass extinction through geochemical, paleontological, and sedimentological data to track the triggers for and effects of mass extinctions on the co-evolution of the Earth system and biosphere in deep time. This course is designed to offer students an applied and interactive learning environment based on synthesis of the primary literature.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+GEOLOGY I: EARTH'S INTERIOR,LEC,3,TF,10:00AM,11:50AM,Sarah Beth Cadieux,Russell Sage Laboratory 3510,100,105,-5,ERTH,2024-08-28,2024-12-20,FALL 2024,67794,1100,01,ERTH-1100,Geology I: EARTH'S Interior,"Age and origin of the Earth, internal constituents, and energy sources; how plates move, oceans develop, and mountains rise. The course aims to give a quantitative picture of the Earth's major processes and the ways in which they interact.",,When Offered: Fall term annually.,[],[],Science
+GEOLOGY I: EARTH'S INTERIOR,LEC,3,TF,10:00AM,11:50AM,Sarah Beth Cadieux,Russell Sage Laboratory 3510,20,11,9,ERTH,2024-08-28,2024-12-20,FALL 2024,68984,1100,02,ERTH-1100,Geology I: EARTH'S Interior,"Age and origin of the Earth, internal constituents, and energy sources; how plates move, oceans develop, and mountains rise. The course aims to give a quantitative picture of the Earth's major processes and the ways in which they interact.",,When Offered: Fall term annually.,[],[],Science
+GROUNDWATER HYDROLOGY,LEC,4,TF,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,40,15,25,ERTH,2024-08-28,2024-12-20,FALL 2024,65065,4710,01,ERTH-4710,Groundwater Hydrology,"Study of hydrologic and geologic and other factors controlling groundwater flow, occurrence, and development. Groundwater flow theory and aquifer test methods are introduced. Interactions between surface and subsurface hydrologic systems are covered. Applications to design of infiltration, remediation, and dewatering systems.","Prerequisite: MATH 1020 or equivalent, or permission of the instructor.",When Offered: Fall term annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,12:00PM,1:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65087,2010,01,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,8:00AM,8:50AM,TBA,Greene Building 120,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65087,2010,01,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,12:00PM,1:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65088,2010,02,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,9:00AM,9:50AM,TBA,Greene Building 120,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65088,2010,02,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,12:00PM,1:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65089,2010,03,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,8:00AM,8:50AM,TBA,Greene Building 120,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65089,2010,03,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,12:00PM,1:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,65090,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,9:00AM,9:50AM,TBA,Greene Building 120,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,65090,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65303,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,2:00PM,2:50PM,TBA,Greene Building 120,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65303,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65301,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,3:00PM,3:50PM,TBA,Greene Building 120,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65301,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66653,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,2:00PM,2:50PM,TBA,Greene Building 120,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66653,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,29,6,MATH,2024-08-28,2024-12-20,FALL 2024,65302,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,3:00PM,3:50PM,TBA,Greene Building 120,35,29,6,MATH,2024-08-28,2024-12-20,FALL 2024,65302,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,8:00AM,8:50AM,TBA,Amos Eaton Hall 216,35,25,10,MATH,2024-08-28,2024-12-20,FALL 2024,66444,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,25,10,MATH,2024-08-28,2024-12-20,FALL 2024,66444,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,9:00AM,9:50AM,TBA,Amos Eaton Hall 216,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66445,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66445,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,12:00PM,1:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,34,34,0,MATH,2024-08-28,2024-12-20,FALL 2024,65090,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,9:00AM,9:50AM,TBA,Greene Building 120,34,34,0,MATH,2024-08-28,2024-12-20,FALL 2024,65090,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65303,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,2:00PM,2:50PM,TBA,Amos Eaton Hall 215,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65303,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,33,33,0,MATH,2024-08-28,2024-12-20,FALL 2024,65301,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,3:00PM,3:50PM,TBA,Amos Eaton Hall 215,33,33,0,MATH,2024-08-28,2024-12-20,FALL 2024,65301,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,66653,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,2:00PM,2:50PM,TBA,Amos Eaton Hall 215,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,66653,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,4:00PM,5:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,35,26,9,MATH,2024-08-28,2024-12-20,FALL 2024,65302,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,3:00PM,3:50PM,TBA,Amos Eaton Hall 215,35,26,9,MATH,2024-08-28,2024-12-20,FALL 2024,65302,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,8:00AM,8:50AM,TBA,Amos Eaton Hall 216,33,32,1,MATH,2024-08-28,2024-12-20,FALL 2024,66444,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,33,32,1,MATH,2024-08-28,2024-12-20,FALL 2024,66444,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,9:00AM,9:50AM,TBA,Amos Eaton Hall 216,32,31,1,MATH,2024-08-28,2024-12-20,FALL 2024,66445,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,32,31,1,MATH,2024-08-28,2024-12-20,FALL 2024,66445,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66446,2010,11,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,8:00AM,8:50AM,TBA,Amos Eaton Hall 216,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66446,2010,11,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66447,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,9:00AM,9:50AM,TBA,Amos Eaton Hall 216,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66447,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:00AM,11:20AM,Daniel Franklin Stevenson,Darrin Communications Center 330,34,33,1,MATH,2024-08-28,2024-12-20,FALL 2024,66447,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,9:00AM,9:50AM,TBA,Amos Eaton Hall 216,34,33,1,MATH,2024-08-28,2024-12-20,FALL 2024,66447,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,4:00PM,4:50PM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66680,2010,13,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66680,2010,13,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,5:00PM,5:50PM,TBA,Carnegie Building 101,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66681,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66681,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66778,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,4:00PM,4:50PM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66778,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66779,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,5:00PM,5:50PM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66779,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,69227,2010,17,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,8:00AM,8:50AM,TBA,Carnegie Building 101,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,69227,2010,17,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,69228,2010,18,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,9:00AM,9:50AM,TBA,Carnegie Building 101,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,69228,2010,18,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,11,24,MATH,2024-08-28,2024-12-20,FALL 2024,69229,2010,19,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,8:00AM,8:50AM,TBA,Ricketts Building 212,35,11,24,MATH,2024-08-28,2024-12-20,FALL 2024,69229,2010,19,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,69230,2010,20,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,9:00AM,9:50AM,TBA,Ricketts Building 212,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,69230,2010,20,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,12:00PM,12:50PM,TBA,Pittsburgh Building 5114,35,23,12,MATH,2024-08-28,2024-12-20,FALL 2024,69231,2010,21,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,35,23,12,MATH,2024-08-28,2024-12-20,FALL 2024,69231,2010,21,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,1:00PM,1:50PM,TBA,Pittsburgh Building 5114,34,20,14,MATH,2024-08-28,2024-12-20,FALL 2024,69232,2010,22,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,34,20,14,MATH,2024-08-28,2024-12-20,FALL 2024,69232,2010,22,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,69233,2010,23,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,12:00PM,12:50PM,TBA,Pittsburgh Building 5114,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,69233,2010,23,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,69234,2010,24,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,1:00PM,1:50PM,TBA,Pittsburgh Building 5114,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,69234,2010,24,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-LINEAR ALGEBRA,LEC,4,MR,2:00PM,3:50PM,Chjan C Lim,Low Center for Industrial Inn. 3051,70,69,1,MATH,2024-08-28,2024-12-20,FALL 2024,65101,4100,01,MATH-4100,Linear Algebra,"The theory underlying vector spaces, algebra of subspaces, bases; linear transformations, dual spaces; eigenvectors, eigenvalues, minimal polynomials, canonical forms of linear transformations; inner products, adjoints, orthogonal projections, and complements.",Prerequisites/Corequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,5:00PM,5:50PM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66681,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,66681,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66778,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,4:00PM,4:50PM,TBA,Carnegie Building 101,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,66778,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:30PM,3:50PM,Daniel Franklin Stevenson,Darrin Communications Center 330,34,34,0,MATH,2024-08-28,2024-12-20,FALL 2024,66779,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,5:00PM,5:50PM,TBA,Carnegie Building 101,34,34,0,MATH,2024-08-28,2024-12-20,FALL 2024,66779,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,69227,2010,17,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,8:00AM,8:50AM,TBA,Carnegie Building 101,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,69227,2010,17,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,34,33,1,MATH,2024-08-28,2024-12-20,FALL 2024,69228,2010,18,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,9:00AM,9:50AM,TBA,Carnegie Building 101,34,33,1,MATH,2024-08-28,2024-12-20,FALL 2024,69228,2010,18,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,9,26,MATH,2024-08-28,2024-12-20,FALL 2024,69229,2010,19,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,8:00AM,8:50AM,TBA,Ricketts Building 212,35,9,26,MATH,2024-08-28,2024-12-20,FALL 2024,69229,2010,19,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:00AM,11:20AM,Belmiro Galo da Silva,Russell Sage Laboratory 3510,35,31,4,MATH,2024-08-28,2024-12-20,FALL 2024,69230,2010,20,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,9:00AM,9:50AM,TBA,Ricketts Building 212,35,31,4,MATH,2024-08-28,2024-12-20,FALL 2024,69230,2010,20,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,12:00PM,12:50PM,TBA,Pittsburgh Building 5114,35,25,10,MATH,2024-08-28,2024-12-20,FALL 2024,69231,2010,21,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,35,25,10,MATH,2024-08-28,2024-12-20,FALL 2024,69231,2010,21,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,1:00PM,1:50PM,TBA,Pittsburgh Building 5114,34,16,18,MATH,2024-08-28,2024-12-20,FALL 2024,69232,2010,22,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,34,16,18,MATH,2024-08-28,2024-12-20,FALL 2024,69232,2010,22,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,69233,2010,23,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,12:00PM,12:50PM,TBA,Pittsburgh Building 5114,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,69233,2010,23,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,12:00PM,1:20PM,Bruce Piper,Darrin Communications Center 330,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,69234,2010,24,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,1:00PM,1:50PM,TBA,Pittsburgh Building 5114,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,69234,2010,24,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+LINEAR ALGEBRA,LEC,4,MR,2:00PM,3:50PM,Chjan C Lim,Low Center for Industrial Inn. 3051,70,47,23,MATH,2024-08-28,2024-12-20,FALL 2024,65101,4100,01,MATH-4100,Linear Algebra,"The theory underlying vector spaces, algebra of subspaces, bases; linear transformations, dual spaces; eigenvectors, eigenvalues, minimal polynomials, canonical forms of linear transformations; inner products, adjoints, orthogonal projections, and complements.",Prerequisites/Corequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
 LINEAR ALGEBRA,LEC,4,MR,8:00AM,9:50AM,Elisabeth Maria Brown,Carnegie Building 113,70,70,0,MATH,2024-08-28,2024-12-20,FALL 2024,68539,4100,02,MATH-4100,Linear Algebra,"The theory underlying vector spaces, algebra of subspaces, bases; linear transformations, dual spaces; eigenvectors, eigenvalues, minimal polynomials, canonical forms of linear transformations; inner products, adjoints, orthogonal projections, and complements.",Prerequisites/Corequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
-NUMERICAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Mark H Holmes,Russell Sage Laboratory 3510,70,39,31,MATH,2024-08-28,2024-12-20,FALL 2024,65104,4800,01,MATH-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
-ART & SCIENCE OF MATH,LEC,1,W,4:00PM,4:50PM,Mark H Holmes/Elisabeth Maria Brown,Amos Eaton Hall 216,40,18,22,MATH,2024-08-28,2024-12-20,FALL 2024,68666,1900,01,MATH-1900,Art & Science Of Math,"A seminar for first-year math majors. The weekly student-faculty discussions will vary but examples of topics are: unsolved math problems, countability and the arithmetic of the infinite, topology and the concept of dimension, geometry and one-sided surfaces, and the theory underlying topics currently covered in calculus.",Prerequisite: first-year math majors.,When Offered: Fall term annually.,[],[],Science
+NUMERICAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Mark H Holmes,Russell Sage Laboratory 3510,70,56,14,MATH,2024-08-28,2024-12-20,FALL 2024,65104,4800,01,MATH-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+ART & SCIENCE OF MATH,LEC,1,W,4:00PM,4:50PM,Mark H Holmes/Elisabeth Maria Brown,Amos Eaton Hall 216,40,20,20,MATH,2024-08-28,2024-12-20,FALL 2024,68666,1900,01,MATH-1900,Art & Science Of Math,"A seminar for first-year math majors. The weekly student-faculty discussions will vary but examples of topics are: unsolved math problems, countability and the arithmetic of the infinite, topology and the concept of dimension, geometry and one-sided surfaces, and the theory underlying topics currently covered in calculus.",Prerequisite: first-year math majors.,When Offered: Fall term annually.,[],[],Science
 MASTER'S PROJECT,LEC,1-6,,,,Fengyan Li,TBA,1,0,1,MATH,2024-08-28,2024-12-20,FALL 2024,66521,6980,01,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-6,,,,Bruce Piper,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,66817,6980,02,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-6,,,,Peter R Kramer,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,67519,6980,03,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-6,,,,Kristin P Bennett,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,68281,6980,04,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
-PARTIAL DIFFERENTIAL EQUATIONS,LEC,4,MR,12:00PM,1:50PM,Donald W Schwendeman,Amos Eaton Hall 214,30,9,21,MATH,2024-08-28,2024-12-20,FALL 2024,65105,6500,01,MATH-6500,Partial Differential Equations,"A course dealing with the basic theory of partial differential equations. It includes such topics as properties of solutions of hyperbolic, parabolic, and elliptic equations in two or more independent variables; linear and nonlinear first order equations; existence and uniqueness theory for general higher order equations; potential theory and integral equations.",Prerequisite: MATH 4100 and MATH 4200 and MATH 4600 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 4100', 'MATH 4200', 'MATH 4600']","['MATH 4100', 'MATH 4200', 'MATH 4600']",Science
+PARTIAL DIFFERENTIAL EQUATIONS,LEC,4,MR,12:00PM,1:50PM,Donald W Schwendeman,Amos Eaton Hall 214,30,8,22,MATH,2024-08-28,2024-12-20,FALL 2024,65105,6500,01,MATH-6500,Partial Differential Equations,"A course dealing with the basic theory of partial differential equations. It includes such topics as properties of solutions of hyperbolic, parabolic, and elliptic equations in two or more independent variables; linear and nonlinear first order equations; existence and uniqueness theory for general higher order equations; potential theory and integral equations.",Prerequisite: MATH 4100 and MATH 4200 and MATH 4600 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 4100', 'MATH 4200', 'MATH 4600']","['MATH 4100', 'MATH 4200', 'MATH 4600']",Science
 MASTER'S THESIS,LEC,1-9,,,,Peter R Kramer,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,67128,6990,01,MATH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Russell Sage Laboratory 3303,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65431,2400,01,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,12:00PM,12:50PM,TBA,Carnegie Building 206,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65431,2400,01,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Russell Sage Laboratory 3303,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65091,2400,02,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,1:00PM,1:50PM,TBA,Carnegie Building 206,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65091,2400,02,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Russell Sage Laboratory 3303,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65431,2400,01,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,12:00PM,12:50PM,TBA,Carnegie Building 206,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65431,2400,01,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Russell Sage Laboratory 3303,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65091,2400,02,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,1:00PM,1:50PM,TBA,Carnegie Building 206,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65091,2400,02,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Russell Sage Laboratory 3303,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65092,2400,03,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,F,12:00PM,12:50PM,TBA,Carnegie Building 206,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65092,2400,03,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Russell Sage Laboratory 3303,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65093,2400,04,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,F,1:00PM,1:50PM,TBA,Carnegie Building 206,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65093,2400,04,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:00PM,3:20PM,Wing Sze E Kam,Amos Eaton Hall 214,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65094,2400,05,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,2:00PM,2:50PM,TBA,Carnegie Building 206,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65094,2400,05,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:00PM,3:20PM,Wing Sze E Kam,Amos Eaton Hall 214,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65095,2400,06,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,3:00PM,3:50PM,TBA,Carnegie Building 206,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65095,2400,06,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:00PM,3:20PM,Wing Sze E Kam,Amos Eaton Hall 214,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65095,2400,06,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,T,3:00PM,3:50PM,TBA,Carnegie Building 206,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65095,2400,06,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:00PM,3:20PM,Wing Sze E Kam,Amos Eaton Hall 214,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65224,2400,07,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,F,2:00PM,2:50PM,TBA,Carnegie Building 206,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65224,2400,07,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:00PM,3:20PM,Wing Sze E Kam,Amos Eaton Hall 214,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,65096,2400,08,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,F,3:00PM,3:50PM,TBA,Carnegie Building 206,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,65096,2400,08,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,8:00AM,8:50AM,TBA,Carnegie Building 101,35,29,6,MATH,2024-08-28,2024-12-20,FALL 2024,65097,2400,09,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Gregor Kovacic,Ricketts Building 203,35,29,6,MATH,2024-08-28,2024-12-20,FALL 2024,65097,2400,09,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:00PM,3:20PM,Wing Sze E Kam,Amos Eaton Hall 214,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65096,2400,08,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,F,3:00PM,3:50PM,TBA,Carnegie Building 206,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65096,2400,08,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,8:00AM,8:50AM,TBA,Carnegie Building 101,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,65097,2400,09,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Gregor Kovacic,Ricketts Building 203,35,30,5,MATH,2024-08-28,2024-12-20,FALL 2024,65097,2400,09,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,9:00AM,9:50AM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65098,2400,10,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Gregor Kovacic,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65098,2400,10,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Gregor Kovacic,Ricketts Building 203,35,31,4,MATH,2024-08-28,2024-12-20,FALL 2024,65099,2400,11,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,8:00AM,8:50AM,TBA,Carnegie Building 101,35,31,4,MATH,2024-08-28,2024-12-20,FALL 2024,65099,2400,11,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Gregor Kovacic,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65099,2400,11,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,8:00AM,8:50AM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65099,2400,11,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Gregor Kovacic,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65100,2400,12,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,9:00AM,9:50AM,TBA,Carnegie Building 101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65100,2400,12,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:30PM,3:50PM,Mark H Holmes,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65247,2400,13,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,W,8:00AM,8:50AM,TBA,Amos Eaton Hall 216,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65247,2400,13,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:30PM,3:50PM,Mark H Holmes,Ricketts Building 203,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,65247,2400,13,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,W,8:00AM,8:50AM,TBA,Amos Eaton Hall 216,35,33,2,MATH,2024-08-28,2024-12-20,FALL 2024,65247,2400,13,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:30PM,3:50PM,Mark H Holmes,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65248,2400,14,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,W,9:00AM,9:50AM,TBA,Amos Eaton Hall 216,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65248,2400,14,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:30PM,3:50PM,Mark H Holmes,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65432,2400,15,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,W,2:00PM,2:50PM,TBA,Amos Eaton Hall 216,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65432,2400,15,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:30PM,3:50PM,Mark H Holmes,Ricketts Building 203,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65432,2400,15,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,W,2:00PM,2:50PM,TBA,Amos Eaton Hall 216,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65432,2400,15,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,MR,2:30PM,3:50PM,Mark H Holmes,Ricketts Building 203,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65851,2400,16,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
 INTRO DIFFERENTIAL EQUATIONS,LEC,4,W,3:00PM,3:50PM,TBA,Amos Eaton Hall 216,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65851,2400,16,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,2:00PM,2:50PM,TBA,Carnegie Building 206,35,28,7,MATH,2024-08-28,2024-12-20,FALL 2024,65326,2400,17,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,28,7,MATH,2024-08-28,2024-12-20,FALL 2024,65326,2400,17,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,3:00PM,3:50PM,TBA,Carnegie Building 206,35,25,10,MATH,2024-08-28,2024-12-20,FALL 2024,65327,2400,18,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,25,10,MATH,2024-08-28,2024-12-20,FALL 2024,65327,2400,18,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65328,2400,19,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,2:00PM,2:50PM,TBA,Ricketts Building 212,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65328,2400,19,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,22,13,MATH,2024-08-28,2024-12-20,FALL 2024,65329,2400,20,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,3:00PM,3:50PM,TBA,Ricketts Building 212,35,22,13,MATH,2024-08-28,2024-12-20,FALL 2024,65329,2400,20,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
-TEACHING SEMINAR FOR TA'S,LEC,1,W,4:00PM,4:50PM,Belmiro Galo da Silva,Amos Eaton Hall 215,25,14,11,MATH,2024-08-28,2024-12-20,FALL 2024,65148,6950,01,MATH-6950,Teaching Seminar For TA'S,A seminar required for first-year TAs in mathematics.,Prerequisite: first-year math TA.,When Offered: Fall term annually.,[],[],Science
-MATHEMATICAL ANALYSIS I,LEC,4,MR,10:00AM,11:50AM,Daniel Franklin Stevenson,Amos Eaton Hall 216,40,22,18,MATH,2024-08-28,2024-12-20,FALL 2024,65102,4200,01,MATH-4200,Mathematical Analysis I,"Fundamental concepts of mathematical analysis will be covered including such topics as the real number system, metric spaces, limits, sequences, series, convergence, functions of one variable, uniform convergence, continuity, differentiability, Riemann integration, and the Stone-Weierstrass Theorem.",Prerequisites: MATH 1020 and MATH 4090 or graduate standing or permission of the instructor.,When Offered: Fall term annually.,"['MATH 1020', 'MATH 4090']","['MATH 1020', 'MATH 4090']",Science
-METHODS OF APPLIED MATHEMATICS,LEC,4,MR,10:00AM,11:50AM,Andrew James Horning,Jonsson-Rowland Science Center 2C13,30,16,14,MATH,2024-08-28,2024-12-20,FALL 2024,65106,6600,01,MATH-6600,Methods Of Applied Mathematics,"Linear vector spaces; eigenvalues and eigenvectors in discrete systems; eigenvalues and eigenvectors in continuous systems including Sturm-Liouville theory, orthogonal expansions and Fourier series, Green's functions; elementary theory of nonlinear ODEs including phase plane, stability and bifurcation; calculus of variations. Applications will be drawn from equilibrium and dynamic phenomena in science and engineering.",Prerequisites: MATH 2400 and MATH 4600 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 2400', 'MATH 4600']","['MATH 2400', 'MATH 4600']",Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,2:00PM,2:50PM,TBA,Carnegie Building 206,35,23,12,MATH,2024-08-28,2024-12-20,FALL 2024,65326,2400,17,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,23,12,MATH,2024-08-28,2024-12-20,FALL 2024,65326,2400,17,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,M,3:00PM,3:50PM,TBA,Carnegie Building 206,35,20,15,MATH,2024-08-28,2024-12-20,FALL 2024,65327,2400,18,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,20,15,MATH,2024-08-28,2024-12-20,FALL 2024,65327,2400,18,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,21,14,MATH,2024-08-28,2024-12-20,FALL 2024,65328,2400,19,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,2:00PM,2:50PM,TBA,Ricketts Building 212,35,21,14,MATH,2024-08-28,2024-12-20,FALL 2024,65328,2400,19,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,TF,10:00AM,11:20AM,Yuri V Lvov,West Hall AUD,35,19,16,MATH,2024-08-28,2024-12-20,FALL 2024,65329,2400,20,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFFERENTIAL EQUATIONS,LEC,4,R,3:00PM,3:50PM,TBA,Ricketts Building 212,35,19,16,MATH,2024-08-28,2024-12-20,FALL 2024,65329,2400,20,MATH-2400,Intro Differential Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+TEACHING SEMINAR FOR TA'S,LEC,1,W,4:00PM,4:50PM,Belmiro Galo da Silva,Amos Eaton Hall 215,25,13,12,MATH,2024-08-28,2024-12-20,FALL 2024,65148,6950,01,MATH-6950,Teaching Seminar For TA'S,A seminar required for first-year TAs in mathematics.,Prerequisite: first-year math TA.,When Offered: Fall term annually.,[],[],Science
+MATHEMATICAL ANALYSIS I,LEC,4,MR,10:00AM,11:50AM,Daniel Franklin Stevenson,Amos Eaton Hall 216,40,26,14,MATH,2024-08-28,2024-12-20,FALL 2024,65102,4200,01,MATH-4200,Mathematical Analysis I,"Fundamental concepts of mathematical analysis will be covered including such topics as the real number system, metric spaces, limits, sequences, series, convergence, functions of one variable, uniform convergence, continuity, differentiability, Riemann integration, and the Stone-Weierstrass Theorem.",Prerequisites: MATH 1020 and MATH 4090 or graduate standing or permission of the instructor.,When Offered: Fall term annually.,"['MATH 1020', 'MATH 4090']","['MATH 1020', 'MATH 4090']",Science
+METHODS OF APPLIED MATHEMATICS,LEC,4,MR,10:00AM,11:50AM,Andrew James Horning,Carnegie Building 206,30,13,17,MATH,2024-08-28,2024-12-20,FALL 2024,65106,6600,01,MATH-6600,Methods Of Applied Mathematics,"Linear vector spaces; eigenvalues and eigenvectors in discrete systems; eigenvalues and eigenvectors in continuous systems including Sturm-Liouville theory, orthogonal expansions and Fourier series, Green's functions; elementary theory of nonlinear ODEs including phase plane, stability and bifurcation; calculus of variations. Applications will be drawn from equilibrium and dynamic phenomena in science and engineering.",Prerequisites: MATH 2400 and MATH 4600 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 2400', 'MATH 4600']","['MATH 2400', 'MATH 4600']",Science
 DISSERTATION,LEC,1-15,,,,Bruce Piper,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,66148,9990,01,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,John E. Mitchell,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,65176,9990,02,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Yuri V Lvov,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,65177,9990,03,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -2288,216 +2332,210 @@ DISSERTATION,LEC,1-15,,,,Donald W Schwendeman,TBA,10,0,10,MATH,2024-08-28,2024-1
 DISSERTATION,LEC,1-15,,,,Fengyan Li,TBA,10,1,9,MATH,2024-08-28,2024-12-20,FALL 2024,66311,9990,06,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Ashwani Kumar Kapila,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,66700,9990,07,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Yangyang Xu,TBA,10,3,7,MATH,2024-08-28,2024-12-20,FALL 2024,67798,9990,08,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,1,9,MATH,2024-08-28,2024-12-20,FALL 2024,65441,9990,09,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,2,8,MATH,2024-08-28,2024-12-20,FALL 2024,65441,9990,09,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Jeffrey William Banks,TBA,10,2,8,MATH,2024-08-28,2024-12-20,FALL 2024,67457,9990,10,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,William Douglas Henshaw,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,67458,9990,11,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Gregor Kovacic,TBA,10,1,9,MATH,2024-08-28,2024-12-20,FALL 2024,65442,9990,12,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Peter R Kramer,TBA,10,1,9,MATH,2024-08-28,2024-12-20,FALL 2024,65443,9990,13,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Chjan C Lim,TBA,10,1,9,MATH,2024-08-28,2024-12-20,FALL 2024,65444,9990,14,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-ORDINARY DIFFEQ AND DYNAMICAL,LEC,4,TF,12:00PM,1:50PM,Yuri V Lvov,Russell Sage Laboratory 5510,45,43,2,MATH,2024-08-28,2024-12-20,FALL 2024,65110,4400,01,MATH-4400,Ordinary Diffeq And Dynamical,"An intermediate course emphasizing a modern geometric approach and applications in science and engineering. Topics include first-order equations, linear systems, phase plane, linearization and stability, calculus of variations, Lagrangian and Hamiltonian mechanics, oscillations, basic bifurcation theory, chaotic dynamics, and existence and uniqueness.",Prerequisites: MATH 2010 and MATH 2400 or permission of instructor.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
-TOPICS IN APPLIED MATH,LEC,4,TF,2:00PM,3:50PM,Gregor Kovacic,Russell Sage Laboratory 2704,30,16,14,MATH,2024-08-28,2024-12-20,FALL 2024,69517,6790,01,MATH-6790,Topics In Applied Math,"Advanced methods and/or applications of mathematics. Possible topics include: nonlinear continuum mechanics, nonlinear waves, inverse problems, nonlinear optics, combustion, acoustic wave propagation, similarity methods for differential equations, quantum field theory and statistical mechanics, stability of fluid flows, biomathematics, and finance.",Prerequisites: vary with topic.,When Offered: Fall term annually.,[],[],Science
+DISSERTATION,LEC,1-15,,,,Fabian Maximilian Faulstich,TBA,10,0,10,MATH,2024-08-28,2024-12-20,FALL 2024,70062,9990,15,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+SENIOR RESEARCH,LEC,4,,,,Eliane Zerbetto Traldi,TBA,0,1,-1,MATH,2024-08-28,2024-12-20,FALL 2024,70019,4950,01,MATH-4950,Senior Research,"Undergraduate mathematics projects that utilize students' mathematical knowledge will result in formal reports and final presentations. Examples are research projects or critical in-depth mathematical literature reviews. Information about projects will be exchanged in weekly meetings with the research supervisor. In order to take this course, students must make arrangements with a math faculty member to act as a research supervisor. This is a communication-intensive course. To be graded S/U.",Prerequisite: permission of instructor is required. Open to mathematics majors only.,When Offered: Fall and spring terms annually.,[],[],Science
+ORDINARY DIFFEQ AND DYNAMICAL,LEC,4,TF,12:00PM,1:50PM,Yuri V Lvov,Russell Sage Laboratory 5510,45,39,6,MATH,2024-08-28,2024-12-20,FALL 2024,65110,4400,01,MATH-4400,Ordinary Diffeq And Dynamical,"An intermediate course emphasizing a modern geometric approach and applications in science and engineering. Topics include first-order equations, linear systems, phase plane, linearization and stability, calculus of variations, Lagrangian and Hamiltonian mechanics, oscillations, basic bifurcation theory, chaotic dynamics, and existence and uniqueness.",Prerequisites: MATH 2010 and MATH 2400 or permission of instructor.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+TOPICS IN APPLIED MATH,LEC,4,TF,2:00PM,3:50PM,Gregor Kovacic,Russell Sage Laboratory 2704,30,12,18,MATH,2024-08-28,2024-12-20,FALL 2024,69517,6790,01,MATH-6790,Topics In Applied Math,"Advanced methods and/or applications of mathematics. Possible topics include: nonlinear continuum mechanics, nonlinear waves, inverse problems, nonlinear optics, combustion, acoustic wave propagation, similarity methods for differential equations, quantum field theory and statistical mechanics, stability of fluid flows, biomathematics, and finance.",Prerequisites: vary with topic.,When Offered: Fall term annually.,[],[],Science
 CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67061,1010,01,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67061,1010,01,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,27,3,MATH,2024-08-28,2024-12-20,FALL 2024,67062,1010,02,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,27,3,MATH,2024-08-28,2024-12-20,FALL 2024,67062,1010,02,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67063,1010,03,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67063,1010,03,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,27,3,MATH,2024-08-28,2024-12-20,FALL 2024,67064,1010,04,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,27,3,MATH,2024-08-28,2024-12-20,FALL 2024,67064,1010,04,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67062,1010,02,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67062,1010,02,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,67063,1010,03,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,67063,1010,03,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,30,26,4,MATH,2024-08-28,2024-12-20,FALL 2024,67064,1010,04,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,26,4,MATH,2024-08-28,2024-12-20,FALL 2024,67064,1010,04,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67065,1010,05,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67065,1010,05,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67066,1010,06,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67066,1010,06,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Academy Hall AUD,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,67067,1010,07,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,67067,1010,07,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Academy Hall AUD,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,67067,1010,07,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,67067,1010,07,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67068,1010,08,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,67068,1010,08,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65242,1010,09,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65242,1010,09,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65243,1010,10,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65243,1010,10,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65242,1010,09,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65242,1010,09,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65243,1010,10,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65243,1010,10,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65244,1010,11,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65244,1010,11,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65188,1010,12,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65188,1010,12,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65258,1010,13,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65258,1010,13,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65259,1010,14,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65259,1010,14,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,21,9,MATH,2024-08-28,2024-12-20,FALL 2024,65260,1010,15,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,21,9,MATH,2024-08-28,2024-12-20,FALL 2024,65260,1010,15,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,14,16,MATH,2024-08-28,2024-12-20,FALL 2024,65261,1010,16,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,14,16,MATH,2024-08-28,2024-12-20,FALL 2024,65261,1010,16,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,25,5,MATH,2024-08-28,2024-12-20,FALL 2024,65129,1010,17,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,25,5,MATH,2024-08-28,2024-12-20,FALL 2024,65129,1010,17,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,7,23,MATH,2024-08-28,2024-12-20,FALL 2024,65853,1010,18,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,7,23,MATH,2024-08-28,2024-12-20,FALL 2024,65853,1010,18,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,4,26,MATH,2024-08-28,2024-12-20,FALL 2024,65245,1010,19,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,4,26,MATH,2024-08-28,2024-12-20,FALL 2024,65245,1010,19,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,2,28,MATH,2024-08-28,2024-12-20,FALL 2024,65480,1010,20,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,2,28,MATH,2024-08-28,2024-12-20,FALL 2024,65480,1010,20,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65850,1010,21,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65850,1010,21,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65400,1010,22,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65400,1010,22,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65401,1010,23,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65401,1010,23,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65402,1010,24,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65402,1010,24,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,8,22,MATH,2024-08-28,2024-12-20,FALL 2024,66927,1010,25,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,8,22,MATH,2024-08-28,2024-12-20,FALL 2024,66927,1010,25,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,3,27,MATH,2024-08-28,2024-12-20,FALL 2024,66928,1010,26,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,3,27,MATH,2024-08-28,2024-12-20,FALL 2024,66928,1010,26,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,1,29,MATH,2024-08-28,2024-12-20,FALL 2024,66929,1010,27,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,1,29,MATH,2024-08-28,2024-12-20,FALL 2024,66929,1010,27,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,3,27,MATH,2024-08-28,2024-12-20,FALL 2024,66930,1010,28,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,3,27,MATH,2024-08-28,2024-12-20,FALL 2024,66930,1010,28,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,10:00AM,11:50AM,Gina Irene Kucinski,Academy Hall AUD,0,28,-28,MATH,2024-08-28,2024-12-20,FALL 2024,65188,1010,12,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4050,0,28,-28,MATH,2024-08-28,2024-12-20,FALL 2024,65188,1010,12,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65258,1010,13,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65258,1010,13,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,27,3,MATH,2024-08-28,2024-12-20,FALL 2024,65259,1010,14,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,27,3,MATH,2024-08-28,2024-12-20,FALL 2024,65259,1010,14,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,19,11,MATH,2024-08-28,2024-12-20,FALL 2024,65260,1010,15,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,19,11,MATH,2024-08-28,2024-12-20,FALL 2024,65260,1010,15,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Low Center for Industrial Inn. 4050,30,17,13,MATH,2024-08-28,2024-12-20,FALL 2024,65261,1010,16,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,17,13,MATH,2024-08-28,2024-12-20,FALL 2024,65261,1010,16,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65850,1010,21,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65850,1010,21,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65400,1010,22,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65400,1010,22,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65401,1010,23,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65401,1010,23,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,10:00AM,11:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 4050,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65402,1010,24,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 3303,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65402,1010,24,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,18,12,MATH,2024-08-28,2024-12-20,FALL 2024,66927,1010,25,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,18,12,MATH,2024-08-28,2024-12-20,FALL 2024,66927,1010,25,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,13,17,MATH,2024-08-28,2024-12-20,FALL 2024,66928,1010,26,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,13,17,MATH,2024-08-28,2024-12-20,FALL 2024,66928,1010,26,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,11,19,MATH,2024-08-28,2024-12-20,FALL 2024,66929,1010,27,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,11,19,MATH,2024-08-28,2024-12-20,FALL 2024,66929,1010,27,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Academy Hall AUD,30,11,19,MATH,2024-08-28,2024-12-20,FALL 2024,66930,1010,28,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,11,19,MATH,2024-08-28,2024-12-20,FALL 2024,66930,1010,28,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,TF,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,69521,1010,29,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,69521,1010,29,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,TF,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,26,4,MATH,2024-08-28,2024-12-20,FALL 2024,69522,1010,30,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
 CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,26,4,MATH,2024-08-28,2024-12-20,FALL 2024,69522,1010,30,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,14,16,MATH,2024-08-28,2024-12-20,FALL 2024,69523,1010,31,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,14,16,MATH,2024-08-28,2024-12-20,FALL 2024,69523,1010,31,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,TF,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,14,16,MATH,2024-08-28,2024-12-20,FALL 2024,69525,1010,32,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,14,16,MATH,2024-08-28,2024-12-20,FALL 2024,69525,1010,32,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
-CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva,Darrin Communications Center 330,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65077,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,T,8:00AM,8:50AM,TBA,Ricketts Building 212,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65077,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,35,34,1,MATH,2024-08-28,2024-12-20,FALL 2024,65077,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva,Darrin Communications Center 330,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65078,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,T,9:00AM,9:50AM,TBA,Ricketts Building 212,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65078,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,35,35,0,MATH,2024-08-28,2024-12-20,FALL 2024,65078,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva,Darrin Communications Center 330,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65079,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65079,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,F,8:00AM,8:50AM,TBA,Carnegie Building 113,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65079,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva,Darrin Communications Center 330,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65080,1020,04,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS I,LEC,4,TF,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,16,14,MATH,2024-08-28,2024-12-20,FALL 2024,69523,1010,31,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,16,14,MATH,2024-08-28,2024-12-20,FALL 2024,69523,1010,31,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,TF,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,11,19,MATH,2024-08-28,2024-12-20,FALL 2024,69525,1010,32,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,30,11,19,MATH,2024-08-28,2024-12-20,FALL 2024,69525,1010,32,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Russell Sage Laboratory 3303,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65077,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,T,8:00AM,8:50AM,TBA,Ricketts Building 212,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65077,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,35,32,3,MATH,2024-08-28,2024-12-20,FALL 2024,65077,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Russell Sage Laboratory 3303,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65078,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,T,9:00AM,9:50AM,TBA,Ricketts Building 212,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65078,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,35,36,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65078,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Russell Sage Laboratory 3303,37,35,2,MATH,2024-08-28,2024-12-20,FALL 2024,65079,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,37,35,2,MATH,2024-08-28,2024-12-20,FALL 2024,65079,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,F,8:00AM,8:50AM,TBA,Carnegie Building 113,37,35,2,MATH,2024-08-28,2024-12-20,FALL 2024,65079,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Russell Sage Laboratory 3303,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65080,1020,04,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
 CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65080,1020,04,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
 CALCULUS II,LEC,4,F,9:00AM,9:50AM,TBA,Carnegie Building 113,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65080,1020,04,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva,Amos Eaton Hall 214,37,36,1,MATH,2024-08-28,2024-12-20,FALL 2024,65081,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,T,2:00PM,2:50PM,TBA,Carnegie Building 113,37,36,1,MATH,2024-08-28,2024-12-20,FALL 2024,65081,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,37,36,1,MATH,2024-08-28,2024-12-20,FALL 2024,65081,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva,Amos Eaton Hall 214,37,36,1,MATH,2024-08-28,2024-12-20,FALL 2024,65082,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,T,3:00PM,3:50PM,TBA,Carnegie Building 113,37,36,1,MATH,2024-08-28,2024-12-20,FALL 2024,65082,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,37,36,1,MATH,2024-08-28,2024-12-20,FALL 2024,65082,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65083,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65083,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,F,2:00PM,2:50PM,TBA,Carnegie Building 113,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65083,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva,Amos Eaton Hall 214,37,33,4,MATH,2024-08-28,2024-12-20,FALL 2024,65084,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,37,33,4,MATH,2024-08-28,2024-12-20,FALL 2024,65084,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,F,3:00PM,3:50PM,TBA,Carnegie Building 113,37,33,4,MATH,2024-08-28,2024-12-20,FALL 2024,65084,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Darrin Communications Center 308,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65081,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,T,2:00PM,2:50PM,TBA,Carnegie Building 113,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65081,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65081,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Darrin Communications Center 308,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65082,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,T,3:00PM,3:50PM,TBA,Carnegie Building 113,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65082,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65082,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Darrin Communications Center 308,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65083,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65083,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,F,2:00PM,2:50PM,TBA,Carnegie Building 113,40,36,4,MATH,2024-08-28,2024-12-20,FALL 2024,65083,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,4:00PM,5:20PM,Belmiro Galo da Silva/Lucieli Maria Trivizoli da Silva,Darrin Communications Center 308,40,38,2,MATH,2024-08-28,2024-12-20,FALL 2024,65084,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3510,40,38,2,MATH,2024-08-28,2024-12-20,FALL 2024,65084,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,F,3:00PM,3:50PM,TBA,Carnegie Building 113,40,38,2,MATH,2024-08-28,2024-12-20,FALL 2024,65084,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
 CALCULUS II,LEC,4,M,8:00AM,8:50AM,TBA,Low Center for Industrial Inn. 3045,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65185,1020,09,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65185,1020,09,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,M,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 3045,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65186,1020,10,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65186,1020,10,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65246,1020,11,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski/Lucieli Maria Trivizoli da Silva,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65185,1020,09,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,M,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 3045,37,38,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65186,1020,10,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski/Lucieli Maria Trivizoli da Silva,Amos Eaton Hall 214,37,38,-1,MATH,2024-08-28,2024-12-20,FALL 2024,65186,1020,10,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski/Lucieli Maria Trivizoli da Silva,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65246,1020,11,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
 CALCULUS II,LEC,4,R,8:00AM,8:50AM,TBA,Low Center for Industrial Inn. 3045,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65246,1020,11,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65189,1020,12,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:20AM,Gina Irene Kucinski/Lucieli Maria Trivizoli da Silva,Amos Eaton Hall 214,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65189,1020,12,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
 CALCULUS II,LEC,4,R,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 3045,37,37,0,MATH,2024-08-28,2024-12-20,FALL 2024,65189,1020,12,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
-ADVANCED CALCULUS,LEC,4,MR,10:00AM,11:50AM,Jeffrey William Banks,Russell Sage Laboratory 4101,70,57,13,MATH,2024-08-28,2024-12-20,FALL 2024,65103,4600,01,MATH-4600,Advanced Calculus,"A course emphasizing advanced concepts and methods from calculus. Topics include: multivariable integral theorems (Green's, divergence, Stokes', Reynolds transport), extrema of multivariable functions (including Taylor's theorem and Lagrange multipliers), the calculus of variations (Euler-Lagrange equations, constraints, principle of least action), and Cartesian tensors (calculus, invariants, representations).",Prerequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
-COMPUTATIONAL LIN ALGEBRA,LEC,4,TF,10:00AM,11:50AM,Fabian Maximilian Faulstich,Carnegie Building 106,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65434,6800,01,MATH-6800,Computational Lin Algebra,"Computational methods for linear systems, Gaussian elimination, conditioning and stability, pivoting strategies, special linear systems (such as positive definite, banded, or sparse), QR factorization and least squares problem. Computational methods for eigenvalue problems and singular value decompositions. Iterative methods for linear systems (such as GMRES, conjugate gradient and preconditioning).",Prerequisite: MATH 4800 or CSCI 4800 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+ADVANCED CALCULUS,LEC,4,MR,10:00AM,11:50AM,Jeffrey William Banks,Russell Sage Laboratory 4101,70,60,10,MATH,2024-08-28,2024-12-20,FALL 2024,65103,4600,01,MATH-4600,Advanced Calculus,"A course emphasizing advanced concepts and methods from calculus. Topics include: multivariable integral theorems (Green's, divergence, Stokes', Reynolds transport), extrema of multivariable functions (including Taylor's theorem and Lagrange multipliers), the calculus of variations (Euler-Lagrange equations, constraints, principle of least action), and Cartesian tensors (calculus, invariants, representations).",Prerequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+COMPUTATIONAL LIN ALGEBRA,LEC,4,TF,10:00AM,11:50AM,Fabian Maximilian Faulstich,Carnegie Building 106,30,22,8,MATH,2024-08-28,2024-12-20,FALL 2024,65434,6800,01,MATH-6800,Computational Lin Algebra,"Computational methods for linear systems, Gaussian elimination, conditioning and stability, pivoting strategies, special linear systems (such as positive definite, banded, or sparse), QR factorization and least squares problem. Computational methods for eigenvalue problems and singular value decompositions. Iterative methods for linear systems (such as GMRES, conjugate gradient and preconditioning).",Prerequisite: MATH 4800 or CSCI 4800 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
 "CALC I FOR ARCH, MGMT &  HASS",LEC,4,M,8:00AM,8:50AM,TBA,Darrin Communications Center 232,30,6,24,MATH,2024-08-28,2024-12-20,FALL 2024,65085,1500,01,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
 "CALC I FOR ARCH, MGMT &  HASS",LEC,4,TF,12:00PM,1:20PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,6,24,MATH,2024-08-28,2024-12-20,FALL 2024,65085,1500,01,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
-"CALC I FOR ARCH, MGMT & HASS",LEC,4,M,9:00AM,9:50AM,TBA,Darrin Communications Center 232,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65086,1500,02,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
-"CALC I FOR ARCH, MGMT & HASS",LEC,4,TF,12:00PM,1:20PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,28,2,MATH,2024-08-28,2024-12-20,FALL 2024,65086,1500,02,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
+"CALC I FOR ARCH, MGMT & HASS",LEC,4,M,9:00AM,9:50AM,TBA,Darrin Communications Center 232,30,26,4,MATH,2024-08-28,2024-12-20,FALL 2024,65086,1500,02,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
+"CALC I FOR ARCH, MGMT & HASS",LEC,4,TF,12:00PM,1:20PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,26,4,MATH,2024-08-28,2024-12-20,FALL 2024,65086,1500,02,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
 "CALC I FOR ARCH, MGMT & HASS",LEC,4,M,12:00PM,12:50PM,TBA,Darrin Communications Center 232,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65852,1500,03,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
 "CALC I FOR ARCH, MGMT & HASS",LEC,4,TF,12:00PM,1:20PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65852,1500,03,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
-"CALC I FOR ARCH, MGMT & HASS",LEC,4,M,1:00PM,1:50PM,TBA,Darrin Communications Center 232,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65149,1500,04,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
-"CALC I FOR ARCH, MGMT & HASS",LEC,4,TF,12:00PM,1:20PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,30,0,MATH,2024-08-28,2024-12-20,FALL 2024,65149,1500,04,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
-INTRO TO TOPOLOGY,LEC,4,TF,2:00PM,3:50PM,Eliane Zerbetto Traldi,Russell Sage Laboratory 3101,60,44,16,MATH,2024-08-28,2024-12-20,FALL 2024,69515,4040,01,MATH-4040,Intro To Topology,"Topics include general topological spaces, connectedness, compactness, continuity, and product spaces. Additional topics may be chosen from identification spaces, homotopy, the fundamental group, covering maps, lifts, classification of surfaces, Baire category, dimension, and the Jordan curve theorem.",Prerequisite: MATH 4090 or graduate standing or permission of the instructor.,When Offered: Fall term even-numbered years.,['MATH 4090'],['MATH 4090'],Science
-FOUNDATIONS OF APPLIED MATH,LEC,4,MR,2:00PM,3:50PM,Peter R Kramer,Russell Sage Laboratory 5101,50,49,1,MATH,2024-08-28,2024-12-20,FALL 2024,65111,4700,01,MATH-4700,Foundations Of Applied Math,"Mathematical formulation of models for various processes. Derivation of relevant differential equations from conservation laws and constitutive relations. Use of dimensional analysis, scaling, and elementary perturbation methods. Description of basic wave motion. Examples from areas including biology, elasticity, fluid dynamics, particle mechanics, chemistry, geophysics, and finance.","Prerequisite: MATH 2400 is required, and MATH 2010 is recommended.",When Offered: Fall term annually.,"['MATH 2400', 'MATH 2010']","['MATH 2400', 'MATH 2010']",Science
-NUMERICAL SOL OF ODES,LEC,4,MR,2:00PM,3:50PM,Fengyan Li,Carnegie Building 210,30,10,20,MATH,2024-08-28,2024-12-20,FALL 2024,69518,6820,01,MATH-6820,Numerical Sol Of Odes,"Numerical methods and analysis for ODEs with applications from mechanics, optics, and chaotic dynamics. Numerical methods for dynamical systems include Runge-Kutta, multistep and extrapolation techniques, methods for conservative and Hamiltonian systems, methods for stiff differential equations and for differential-algebraic systems. Methods for boundary value problems include shooting and orthogonalization, finite difference and collocation techniques, and special methods for problems with boundary or shock layers.",Prerequisite: MATH 4800 or CSCI 4800 or permission of instructor.,When Offered: Fall term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+"CALC I FOR ARCH, MGMT & HASS",LEC,4,M,1:00PM,1:50PM,TBA,Darrin Communications Center 232,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65149,1500,04,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
+"CALC I FOR ARCH, MGMT & HASS",LEC,4,TF,12:00PM,1:20PM,Kseniya Yevgenyevna Klyachko,Low Center for Industrial Inn. 4050,30,29,1,MATH,2024-08-28,2024-12-20,FALL 2024,65149,1500,04,MATH-1500,"Calc I For ARCH, Mgmt & Hass","Basic concepts in differential and integral calculus for functions of one variable. Topics will include functions, limits, continuity, derivatives, integration, exponential and logarithmic functions, and techniques of integration. Application areas will include topics in Management, Architecture, and Social Sciences with special emphasis on the role of calculus in introductory probability. Students cannot get credit for both MATH 1500 and MATH 1010.","Prerequisite: major in management, architecture, or HASS.",When Offered: Fall term annually.,[],[],Science
+INTRO TO TOPOLOGY,LEC,4,TF,2:00PM,3:50PM,Eliane Zerbetto Traldi,Russell Sage Laboratory 3101,60,39,21,MATH,2024-08-28,2024-12-20,FALL 2024,69515,4040,01,MATH-4040,Intro To Topology,"Topics include general topological spaces, connectedness, compactness, continuity, and product spaces. Additional topics may be chosen from identification spaces, homotopy, the fundamental group, covering maps, lifts, classification of surfaces, Baire category, dimension, and the Jordan curve theorem.",Prerequisite: MATH 4090 or graduate standing or permission of the instructor.,When Offered: Fall term even-numbered years.,['MATH 4090'],['MATH 4090'],Science
+FOUNDATIONS OF APPLIED MATH,LEC,4,MR,2:00PM,3:50PM,Peter R Kramer,Russell Sage Laboratory 5101,50,32,18,MATH,2024-08-28,2024-12-20,FALL 2024,65111,4700,01,MATH-4700,Foundations Of Applied Math,"Mathematical formulation of models for various processes. Derivation of relevant differential equations from conservation laws and constitutive relations. Use of dimensional analysis, scaling, and elementary perturbation methods. Description of basic wave motion. Examples from areas including biology, elasticity, fluid dynamics, particle mechanics, chemistry, geophysics, and finance.","Prerequisite: MATH 2400 is required, and MATH 2010 is recommended.",When Offered: Fall term annually.,"['MATH 2400', 'MATH 2010']","['MATH 2400', 'MATH 2010']",Science
+NUMERICAL SOL OF ODES,LEC,4,MR,2:00PM,3:50PM,Fengyan Li,Carnegie Building 210,30,12,18,MATH,2024-08-28,2024-12-20,FALL 2024,69518,6820,01,MATH-6820,Numerical Sol Of Odes,"Numerical methods and analysis for ODEs with applications from mechanics, optics, and chaotic dynamics. Numerical methods for dynamical systems include Runge-Kutta, multistep and extrapolation techniques, methods for conservative and Hamiltonian systems, methods for stiff differential equations and for differential-algebraic systems. Methods for boundary value problems include shooting and orthogonalization, finite difference and collocation techniques, and special methods for problems with boundary or shock layers.",Prerequisite: MATH 4800 or CSCI 4800 or permission of instructor.,When Offered: Fall term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
 FOUNDATIONS OF ANALYSIS,LEC,4,TF,10:00AM,11:50AM,Margaret Z. Kiehl,Low Center for Industrial Inn. 3039,40,40,0,MATH,2024-08-28,2024-12-20,FALL 2024,66054,4090,01,MATH-4090,Foundations Of Analysis,"The course provides an opportunity for the development of theorem-proving skills in the field of mathematical analysis. Expansion of a knowledge base comes as a by-product of energy expended in theorem proving and subsequent exposition. Analysis topics included are: sets, functions, the real numbers, cardinality, induction, decimal representations of real numbers, Euclidean spaces, abstract vector spaces, and metric spaces. This is a communication-intensive course.",Prerequisites: mathematics major and MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
-INTRODUCTION TO OPTIMIZATION,LEC,4,TF,12:00PM,1:50PM,John E. Mitchell,Russell Sage Laboratory 4510,30,22,8,MATP,2024-08-28,2024-12-20,FALL 2024,65109,6600,01,MATP-6600,Introduction To Optimization,"Coverage of several areas of interest in optimization, with proofs of some major results. Convex sets and functions. Optimality conditions in nonlinear optimization. Lagrangian duality. Linear, quadratic, and conic optimization. Convex relaxations of integer optimization problems. Stochastic optimization.",Prerequisites/Corequisites: MATH 2010 and MATH 4090 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 4090']","['MATH 2010', 'MATH 4090']",Science
-PROB THEORY & APPLICATIONS,LEC,4,MR,12:00PM,1:50PM,Chjan C Lim,Low Center for Industrial Inn. 3051,70,66,4,MATP,2024-08-28,2024-12-20,FALL 2024,65107,4600,01,MATP-4600,Prob Theory & Applications,"Axioms of probability, joint and conditional probability, random variables, probability density and distribution functions, expectation, functions of random variables, and limit theorems. Applications of probability to models in operations research, including queuing theory and Markov chains.",Prerequisite: MATH 1020 or equivalent or permission of instructor.,When Offered: Fall term annually.,['MATH 1020'],['MATH 1020'],Science
-MATH MODELS OF OPERATIONS,LEC,4,TF,12:00PM,1:50PM,Wing Sze E Kam,Folsom Library 107,50,43,7,MATP,2024-08-28,2024-12-20,FALL 2024,65108,4700,01,MATP-4700,Math Models Of Operations,"Introduction to deterministic models of operations research including linear programming formulations, the simplex algorithm, degeneracy, geometry of convex polyhedra, duality theory, and sensitivity analysis. Special linear programming models for assignment, transportation, and network problems. Integer programming formulations along with branch and bound solution. Dynamic programming.",Prerequisite: MATH 2010.,When Offered: Fall term annually.,['MATH 2010'],['MATH 2010'],Science
-DATA ANALYTICS RESEARCH,LEC,4,W,9:00AM,11:50AM,TBA,Amos Eaton Hall 217,30,3,27,MATP,2024-08-28,2024-12-20,FALL 2024,69442,6910,01,MATP-6910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ITWS 4600/ ITWS 6600 or BIOL 4200 or permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']",Science
-DATA ANALYTICS RESEARCH,LEC,4,R,9:00AM,9:50AM,Kristin P Bennett/John Stephen Erickson,Amos Eaton Hall 217,30,3,27,MATP,2024-08-28,2024-12-20,FALL 2024,69442,6910,01,MATP-6910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ITWS 4600/ ITWS 6600 or BIOL 4200 or permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']",Science
-DATA ANALYTICS RESEARCH,LEC,4,W,9:00AM,11:50AM,TBA,Amos Eaton Hall 217,30,27,3,MATP,2024-08-28,2024-12-20,FALL 2024,68545,4910,01,MATP-4910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ECSE 6610 or ITWS 4600/ ITWS 6600 or ISYE 6180 or BIOL 4200 permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']",Science
-DATA ANALYTICS RESEARCH,LEC,4,R,9:00AM,9:50AM,Kristin P Bennett/John Stephen Erickson,Amos Eaton Hall 217,30,27,3,MATP,2024-08-28,2024-12-20,FALL 2024,68545,4910,01,MATP-4910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ECSE 6610 or ITWS 4600/ ITWS 6600 or ISYE 6180 or BIOL 4200 permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']",Science
-PHYSICS I (S),LEC,4,MR,8:00AM,9:50AM,Joseph Darryl Michael/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,33,6,27,PHYS,2024-08-28,2024-12-20,FALL 2024,69585,1110,01,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,33,6,27,PHYS,2024-08-28,2024-12-20,FALL 2024,69585,1110,01,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,10:00AM,11:50AM,Joseph Darryl Michael/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69611,1110,02,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+INTRODUCTION TO OPTIMIZATION,LEC,4,TF,12:00PM,1:50PM,John E. Mitchell,Russell Sage Laboratory 4510,30,13,17,MATP,2024-08-28,2024-12-20,FALL 2024,65109,6600,01,MATP-6600,Introduction To Optimization,"Coverage of several areas of interest in optimization, with proofs of some major results. Convex sets and functions. Optimality conditions in nonlinear optimization. Lagrangian duality. Linear, quadratic, and conic optimization. Convex relaxations of integer optimization problems. Stochastic optimization.",Prerequisites/Corequisites: MATH 2010 and MATH 4090 or equivalent or permission of instructor.,When Offered: Fall term annually.,"['MATH 2010', 'MATH 4090']","['MATH 2010', 'MATH 4090']",Science
+PROB THEORY & APPLICATIONS,LEC,4,MR,12:00PM,1:50PM,Chjan C Lim,Low Center for Industrial Inn. 3051,70,57,13,MATP,2024-08-28,2024-12-20,FALL 2024,65107,4600,01,MATP-4600,Prob Theory & Applications,"Axioms of probability, joint and conditional probability, random variables, probability density and distribution functions, expectation, functions of random variables, and limit theorems. Applications of probability to models in operations research, including queuing theory and Markov chains.",Prerequisite: MATH 1020 or equivalent or permission of instructor.,When Offered: Fall term annually.,['MATH 1020'],['MATH 1020'],Science
+MATH MODELS OF OPERATIONS,LEC,4,TF,12:00PM,1:50PM,Wing Sze E Kam,Pittsburgh Building 5216,50,48,2,MATP,2024-08-28,2024-12-20,FALL 2024,65108,4700,01,MATP-4700,Math Models Of Operations,"Introduction to deterministic models of operations research including linear programming formulations, the simplex algorithm, degeneracy, geometry of convex polyhedra, duality theory, and sensitivity analysis. Special linear programming models for assignment, transportation, and network problems. Integer programming formulations along with branch and bound solution. Dynamic programming.",Prerequisite: MATH 2010.,When Offered: Fall term annually.,['MATH 2010'],['MATH 2010'],Science
+DATA ANALYTICS RESEARCH,LEC,4,W,9:00AM,11:50AM,TBA,Amos Eaton Hall 217,30,4,26,MATP,2024-08-28,2024-12-20,FALL 2024,69442,6910,01,MATP-6910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ITWS 4600/ ITWS 6600 or BIOL 4200 or permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']",Science
+DATA ANALYTICS RESEARCH,LEC,4,R,9:00AM,9:50AM,Kristin P Bennett/John Stephen Erickson,Amos Eaton Hall 217,30,4,26,MATP,2024-08-28,2024-12-20,FALL 2024,69442,6910,01,MATP-6910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ITWS 4600/ ITWS 6600 or BIOL 4200 or permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ITWS 4600', 'ITWS 6600', 'BIOL 4200']",Science
+DATA ANALYTICS RESEARCH,LEC,4,W,9:00AM,11:50AM,TBA,Amos Eaton Hall 217,30,26,4,MATP,2024-08-28,2024-12-20,FALL 2024,68545,4910,01,MATP-4910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ECSE 6610 or ITWS 4600/ ITWS 6600 or ISYE 6180 or BIOL 4200 permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']",Science
+DATA ANALYTICS RESEARCH,LEC,4,R,9:00AM,9:50AM,Kristin P Bennett/John Stephen Erickson,Amos Eaton Hall 217,30,26,4,MATP,2024-08-28,2024-12-20,FALL 2024,68545,4910,01,MATP-4910,Data Analytics Research,"This course focuses on applied data analytics research on real-world open problems. Students will conduct a semester long, team based, hands-on data analytics project. A data set will be selected at the start of the semester. Students will also be instructed in the process of project objective setting, planning, execution, and management. Students will be guided via classroom demonstrations and individualized team coaching by the instructors in the employment of visualization, analytics, and modeling methods.",Prerequisites/Corequisites: MATP 4400 or CSCI 4100/ CSCI 6100 or ECSE 6610 or ITWS 4600/ ITWS 6600 or ISYE 6180 or BIOL 4200 permission of the instructor.,When Offered: Fall term annually.,"['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']","['MATP 4400', 'CSCI 4100', 'CSCI 6100', 'ECSE 6610', 'ITWS 4600', 'ITWS 6600', 'ISYE 6180', 'BIOL 4200']",Science
+PHYSICS I (S),LEC,4,MR,8:00AM,9:50AM,Joseph Darryl Michael/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,33,3,30,PHYS,2024-08-28,2024-12-20,FALL 2024,69585,1110,01,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,33,3,30,PHYS,2024-08-28,2024-12-20,FALL 2024,69585,1110,01,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,10:00AM,11:50AM,Joseph Darryl Michael/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69611,1110,02,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
 PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69611,1110,02,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,12:00PM,1:50PM,Damien J. West/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69614,1110,03,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69614,1110,03,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,10:00AM,11:50AM,Gwo Ching Wang/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,3,45,PHYS,2024-08-28,2024-12-20,FALL 2024,69617,1110,04,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,3,45,PHYS,2024-08-28,2024-12-20,FALL 2024,69617,1110,04,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,2:00PM,3:50PM,Ingrid Wilke/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,11,37,PHYS,2024-08-28,2024-12-20,FALL 2024,69619,1110,05,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,11,37,PHYS,2024-08-28,2024-12-20,FALL 2024,69619,1110,05,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,12:00PM,1:50PM,Damien J. West/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69614,1110,03,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69614,1110,03,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,10:00AM,11:50AM,Gwo Ching Wang/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69617,1110,04,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69617,1110,04,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,2:00PM,3:50PM,Ingrid Wilke/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,14,34,PHYS,2024-08-28,2024-12-20,FALL 2024,69619,1110,05,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,14,34,PHYS,2024-08-28,2024-12-20,FALL 2024,69619,1110,05,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
 PHYSICS I (S),LEC,4,TF,10:00AM,11:50AM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,9,39,PHYS,2024-08-28,2024-12-20,FALL 2024,69620,1110,06,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
 PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,9,39,PHYS,2024-08-28,2024-12-20,FALL 2024,69620,1110,06,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,TF,12:00PM,1:50PM,Juan Pablo Borja/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,7,41,PHYS,2024-08-28,2024-12-20,FALL 2024,69622,1110,07,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,7,41,PHYS,2024-08-28,2024-12-20,FALL 2024,69622,1110,07,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,TF,2:00PM,3:50PM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,4,44,PHYS,2024-08-28,2024-12-20,FALL 2024,69623,1110,08,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,4,44,PHYS,2024-08-28,2024-12-20,FALL 2024,69623,1110,08,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,4:00PM,5:50PM,Damien J. West/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69625,1110,09,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69625,1110,09,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,TF,12:00PM,1:50PM,Cameron Valier Cogburn/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69627,1110,10,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69627,1110,10,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,TF,10:00AM,11:50AM,Christian M. Wetzel/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,2,46,PHYS,2024-08-28,2024-12-20,FALL 2024,69628,1110,11,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,2,46,PHYS,2024-08-28,2024-12-20,FALL 2024,69628,1110,11,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,2:00PM,3:50PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,16,32,PHYS,2024-08-28,2024-12-20,FALL 2024,69630,1110,12,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,16,32,PHYS,2024-08-28,2024-12-20,FALL 2024,69630,1110,12,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,TF,2:00PM,3:50PM,Zachary D Ward/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,7,41,PHYS,2024-08-28,2024-12-20,FALL 2024,69631,1110,13,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,TF,12:00PM,1:50PM,Juan Pablo Borja/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69622,1110,07,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69622,1110,07,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,TF,2:00PM,3:50PM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69623,1110,08,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,5,43,PHYS,2024-08-28,2024-12-20,FALL 2024,69623,1110,08,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,4:00PM,5:50PM,Damien J. West/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,3,45,PHYS,2024-08-28,2024-12-20,FALL 2024,69625,1110,09,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,3,45,PHYS,2024-08-28,2024-12-20,FALL 2024,69625,1110,09,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,TF,12:00PM,1:50PM,Christian M. Wetzel/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,9,39,PHYS,2024-08-28,2024-12-20,FALL 2024,69627,1110,10,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,9,39,PHYS,2024-08-28,2024-12-20,FALL 2024,69627,1110,10,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,TF,10:00AM,11:50AM,Christian M. Wetzel/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,4,44,PHYS,2024-08-28,2024-12-20,FALL 2024,69628,1110,11,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,4,44,PHYS,2024-08-28,2024-12-20,FALL 2024,69628,1110,11,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,2:00PM,3:50PM,Yong Sung Kim/Julian S. Georg/William James Stillman,Jonsson-Rowland Science Center 2C30,48,19,29,PHYS,2024-08-28,2024-12-20,FALL 2024,69630,1110,12,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,19,29,PHYS,2024-08-28,2024-12-20,FALL 2024,69630,1110,12,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,TF,2:00PM,3:50PM,Zachary D Ward/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,7,41,PHYS,2024-08-28,2024-12-20,FALL 2024,69631,1110,13,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
 PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,7,41,PHYS,2024-08-28,2024-12-20,FALL 2024,69631,1110,13,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,4:00PM,5:50PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,4,44,PHYS,2024-08-28,2024-12-20,FALL 2024,69633,1110,14,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,4,44,PHYS,2024-08-28,2024-12-20,FALL 2024,69633,1110,14,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-PHYSICS I (S),LEC,4,MR,12:00PM,1:50PM,Gwo Ching Wang/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69635,1110,15,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,4:00PM,5:50PM,Yong Sung Kim/Julian S. Georg,Jonsson-Rowland Science Center 2C30,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69633,1110,14,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69633,1110,14,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
+PHYSICS I (S),LEC,4,MR,12:00PM,1:50PM,Gwo Ching Wang/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69635,1110,15,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
 PHYSICS I (S),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,6,42,PHYS,2024-08-28,2024-12-20,FALL 2024,69635,1110,15,PHYS-1110,Physics I (S),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor. Additional credit cannot be obtained by taking PHYS 1050, PHYS 1100 or PHYS 1150.","When Offered: Fall, Spring and Summer terms annually.","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']","['PHYS 1100', 'MATH 1010', 'PHYS 1050', 'PHYS 1100', 'PHYS 1150', 'PHYS 1100']",Science
-MENTOR FIRST-YEAR PHYS STDNTS,LEC,2,,,,Charles Harold Martin,TBA,0,0,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69889,2160,01,PHYS-2160,Mentor FIRST-YEAR Phys Stdnts,Practicum in mentoring new students in Physics with focus on developing Mentor technical leadership skills. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,By permission of instructor.,When Offered: Fall annually,[],[],Science
+MENTOR FIRST-YEAR PHYS STDNTS,LEC,2,,,,Charles Harold Martin,TBA,0,27,-27,PHYS,2024-08-28,2024-12-20,FALL 2024,69889,2160,01,PHYS-2160,Mentor FIRST-YEAR Phys Stdnts,Practicum in mentoring new students in Physics with focus on developing Mentor technical leadership skills. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,By permission of instructor.,When Offered: Fall annually,[],[],Science
 INTRODUCTORY MODERN PHYSICS,LEC,4,MR,4:00PM,5:50PM,Peter Persans,Academy Hall AUD,80,67,13,PHYS,2024-08-28,2024-12-20,FALL 2024,69022,1140,01,PHYS-1140,Introductory Modern Physics,An introduction to modern physics with emphasis on special relativity; concepts in quantum mechanics; elementary particles and fundamental forces; and applications to nuclei and atoms. Registration is limited to first semester students or by permission of instructor.,,When Offered: Fall annually.,[],[],Science
-PHYSICS TEACHING PRACTICUM 1,LEC,2,,,,Peter Persans,TBA,50,0,50,PHYS,2024-08-28,2024-12-20,FALL 2024,69887,2170,01,PHYS-2170,Physics Teaching Practicum 1,Students will engage in technical team leadership practice by leading collaborative teams of students in problem solving and online activities in introductory Physics.,Registration is by faculty permission. Student must have successfully completed the course for which they are assisting.,"When Offered: Spring, Summer, and Fall",[],[],Science
-QUANTUM MECHANICS III,LEC,4,TF,10:00AM,11:50AM,Joel T. Giedt,Jonsson-Rowland Science Center 1W01,10,4,6,PHYS,2024-08-28,2024-12-20,FALL 2024,69556,6530,01,PHYS-6530,Quantum Mechanics Iii,Relativistic wave equations. Commutation relations and the quantization of free fields. Spin and statistics of Bose and Fermi fields. Interacting fields and commutation relations. Interaction representation and S-matrix perturbation theory. Renormalization theory and applications in quantum electrodynamics. Many-body description of condensed matter systems. Functional integral formulation and methods for quantum field theory and many-body physics.,Prerequisite: PHYS 6510.,When Offered: Consult department about when offered.,['PHYS 6510'],['PHYS 6510'],Science
-QUANTUM PHYSICS I,LEC,4,TF,10:00AM,11:50AM,Trevor David Rhone,Jonsson Engineering Center 3210,50,24,26,PHYS,2024-08-28,2024-12-20,FALL 2024,67046,2210,01,PHYS-2210,Quantum Physics I,"Introduction to the formalism of Special Relativity, Schrodinger wave mechanics, and spin-1/2 particles. Solutions to Schrodinger's Equation in one, two, and three dimensions. One-electron atoms and quantum mechanical magnetic dipole moments.","Prerequisites/Corequisites: Prerequsite: PHYS 1200 or PHYS 1250, MATH 2400.",When Offered: Fall and spring terms annually.,"['PHYS 1200', 'PHYS 1250', 'MATH 2400']","['PHYS 1200', 'PHYS 1250', 'MATH 2400']",Science
-INTRODUCTORY QUANTUM MECHANICS,LEC,4,MR,10:00AM,11:50AM,Moussa Ngom,Low Center for Industrial Inn. 4040,30,32,-2,PHYS,2024-08-28,2024-12-20,FALL 2024,68665,4100,01,PHYS-4100,Introductory Quantum Mechanics,"Quantum mechanics beyond Schrodinger wave mechanics. The postulates of quantum mechanics. Second quantization, Dirac notation, Hilbert spaces, perturbation theory, and applications to simple systems.",Prerequisites/Corequisites: PHYS 2210.,When Offered: Fall and Spring terms annually.,['PHYS 2210'],['PHYS 2210'],Science
+PHYSICS TEACHING PRACTICUM 1,LEC,2,,,,Peter Persans,TBA,50,29,21,PHYS,2024-08-28,2024-12-20,FALL 2024,69887,2170,01,PHYS-2170,Physics Teaching Practicum 1,Students will engage in technical team leadership practice by leading collaborative teams of students in problem solving and online activities in introductory Physics.,Registration is by faculty permission. Student must have successfully completed the course for which they are assisting.,"When Offered: Spring, Summer, and Fall",[],[],Science
+QUANTUM MECHANICS III,LEC,4,TF,10:00AM,11:50AM,Joel T. Giedt,Jonsson-Rowland Science Center 1W01,10,8,2,PHYS,2024-08-28,2024-12-20,FALL 2024,69556,6530,01,PHYS-6530,Quantum Mechanics Iii,Relativistic wave equations. Commutation relations and the quantization of free fields. Spin and statistics of Bose and Fermi fields. Interacting fields and commutation relations. Interaction representation and S-matrix perturbation theory. Renormalization theory and applications in quantum electrodynamics. Many-body description of condensed matter systems. Functional integral formulation and methods for quantum field theory and many-body physics.,Prerequisite: PHYS 6510.,When Offered: Consult department about when offered.,['PHYS 6510'],['PHYS 6510'],Science
+QUANTUM PHYSICS I,LEC,4,TF,10:00AM,11:50AM,Trevor David Rhone,Russell Sage Laboratory 3704,40,23,17,PHYS,2024-08-28,2024-12-20,FALL 2024,67046,2210,01,PHYS-2210,Quantum Physics I,"Introduction to the formalism of Special Relativity, Schrodinger wave mechanics, and spin-1/2 particles. Solutions to Schrodinger's Equation in one, two, and three dimensions. One-electron atoms and quantum mechanical magnetic dipole moments.","Prerequisites/Corequisites: Prerequsite: PHYS 1200 or PHYS 1250, MATH 2400.",When Offered: Fall and spring terms annually.,"['PHYS 1200', 'PHYS 1250', 'MATH 2400']","['PHYS 1200', 'PHYS 1250', 'MATH 2400']",Science
+INTRODUCTORY QUANTUM MECHANICS,LEC,4,MR,10:00AM,11:50AM,Moussa Ngom,Low Center for Industrial Inn. 4040,30,34,-4,PHYS,2024-08-28,2024-12-20,FALL 2024,68665,4100,01,PHYS-4100,Introductory Quantum Mechanics,"Quantum mechanics beyond Schrodinger wave mechanics. The postulates of quantum mechanics. Second quantization, Dirac notation, Hilbert spaces, perturbation theory, and applications to simple systems.",Prerequisites/Corequisites: PHYS 2210.,When Offered: Fall and Spring terms annually.,['PHYS 2210'],['PHYS 2210'],Science
 SOLID-STATE PHYSICS,LEC,4,TF,2:00PM,3:50PM,Humberto Terrones Maldonado,Jonsson-Rowland Science Center 2C13,25,11,14,PHYS,2024-08-28,2024-12-20,FALL 2024,69739,4720,01,PHYS-4720,SOLID-STATE Physics,"An introduction to theoretical and experimental solid-state physics. Wave mechanics in the perfect crystal. X-rays, electrons, and phonons. Electrical properties of metals and semiconductors. Qualitative treatment of lattice defects.",Prerequisite: PHYS 4220 or equivalent.,When Offered: Fall term annually.,['PHYS 4220'],['PHYS 4220'],Science
-STATISTICAL MECHANICS,LEC,4,TF,10:00AM,11:50AM,Gyorgy Korniss,Carnegie Building 206,35,17,18,PHYS,2024-08-28,2024-12-20,FALL 2024,66051,6590,01,PHYS-6590,Statistical Mechanics,"Review of thermodynamics, probability, and statistics. Statistical basis of thermodynamics, various ensembles, quantum statistics. Ideal Fermi and Bose gases and applications to solids and the black-body radiation. Interacting systems, phase transitions, and critical phenomena. Phase transition in the Van der Waals gas and in the Ising ferromagnet. Mean-field approximation and Landau theory of continuous phase transitions. Random walk, diffusion, Brownian motion, and Langevin equation. Stochastic processes.",Prerequisite: PHYS 6510.,When Offered: Fall term annually.,['PHYS 6510'],['PHYS 6510'],Science
-PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek/Shawn Yu Lin/Peter Persans,Darrin Communications Center 318,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,65041,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,10:00AM,11:50AM,Shawn Yu Lin/Peter Persans,Jonsson-Rowland Science Center 2C14,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,65041,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,65041,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek/Shawn Yu Lin/Peter Persans,Darrin Communications Center 318,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65300,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,10:00AM,11:50AM,Shawn Yu Lin/Peter Persans,Jonsson-Rowland Science Center 2C22,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65300,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65300,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek/Peter Persans,Darrin Communications Center 318,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65042,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,12:00PM,1:50PM,Glenn Ciolek,Jonsson-Rowland Science Center 2C14,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65042,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65042,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek/Peter Persans,Darrin Communications Center 318,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65043,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,12:00PM,1:50PM,Glenn Ciolek,Jonsson-Rowland Science Center 2C22,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65043,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+STATISTICAL MECHANICS,LEC,4,TF,10:00AM,11:50AM,Gyorgy Korniss,Carnegie Building 206,35,16,19,PHYS,2024-08-28,2024-12-20,FALL 2024,66051,6590,01,PHYS-6590,Statistical Mechanics,"Review of thermodynamics, probability, and statistics. Statistical basis of thermodynamics, various ensembles, quantum statistics. Ideal Fermi and Bose gases and applications to solids and the black-body radiation. Interacting systems, phase transitions, and critical phenomena. Phase transition in the Van der Waals gas and in the Ising ferromagnet. Mean-field approximation and Landau theory of continuous phase transitions. Random walk, diffusion, Brownian motion, and Langevin equation. Stochastic processes.",Prerequisite: PHYS 6510.,When Offered: Fall term annually.,['PHYS 6510'],['PHYS 6510'],Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 318,47,42,5,PHYS,2024-08-28,2024-12-20,FALL 2024,65041,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,10:00AM,11:50AM,Glenn Ciolek,Jonsson-Rowland Science Center 2C14,47,42,5,PHYS,2024-08-28,2024-12-20,FALL 2024,65041,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,42,5,PHYS,2024-08-28,2024-12-20,FALL 2024,65041,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 318,47,43,4,PHYS,2024-08-28,2024-12-20,FALL 2024,65300,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,10:00AM,11:50AM,Glenn Ciolek,Jonsson-Rowland Science Center 2C22,47,43,4,PHYS,2024-08-28,2024-12-20,FALL 2024,65300,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,43,4,PHYS,2024-08-28,2024-12-20,FALL 2024,65300,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 318,47,45,2,PHYS,2024-08-28,2024-12-20,FALL 2024,65042,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,12:00PM,1:50PM,Zachary D Ward,Jonsson-Rowland Science Center 2C14,47,45,2,PHYS,2024-08-28,2024-12-20,FALL 2024,65042,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,45,2,PHYS,2024-08-28,2024-12-20,FALL 2024,65042,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 318,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65043,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,12:00PM,1:50PM,Zachary D Ward,Jonsson-Rowland Science Center 2C22,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65043,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
 PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65043,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek/Peter Persans/Victor Hugo Robles Sanchez,Darrin Communications Center 318,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,65046,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,MR,2:00PM,3:50PM,Victor Hugo Robles Sanchez,Jonsson-Rowland Science Center 2C14,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,65046,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,65046,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/Peter Persans,Darrin Communications Center 318,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,67710,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,12:00PM,1:50PM,Glenn Ciolek,Jonsson-Rowland Science Center 2C14,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,67710,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 318,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65046,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,MR,2:00PM,3:50PM,Xiangyi Meng,Jonsson-Rowland Science Center 2C14,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65046,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,65046,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 308,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,67710,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,12:00PM,1:50PM,Yong Zheng,Jonsson-Rowland Science Center 2C14,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,67710,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
 PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,67710,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/Peter Persans/John Schroeder,Darrin Communications Center 318,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65044,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,10:00AM,11:50AM,Glenn Ciolek/Peter Persans/John Schroeder,Jonsson-Rowland Science Center 2C14,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65044,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 308,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65044,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,10:00AM,11:50AM,Peter Persans,Jonsson-Rowland Science Center 2C14,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65044,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
 PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65044,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/Peter Persans/John Schroeder,Darrin Communications Center 318,47,48,-1,PHYS,2024-08-28,2024-12-20,FALL 2024,66785,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,10:00AM,11:50AM,Glenn Ciolek/Peter Persans/John Schroeder,Jonsson-Rowland Science Center 2C22,47,48,-1,PHYS,2024-08-28,2024-12-20,FALL 2024,66785,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,48,-1,PHYS,2024-08-28,2024-12-20,FALL 2024,66785,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/Peter Persans,Darrin Communications Center 318,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65045,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,12:00PM,1:50PM,Glenn Ciolek,Jonsson-Rowland Science Center 2C22,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65045,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,47,0,PHYS,2024-08-28,2024-12-20,FALL 2024,65045,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/Nadarajah Narendran/Peter Persans,Darrin Communications Center 318,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,67860,1200,11,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,TF,2:00PM,3:50PM,Nadarajah Narendran,Jonsson-Rowland Science Center 2C14,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,67860,1200,11,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
-PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,46,1,PHYS,2024-08-28,2024-12-20,FALL 2024,67860,1200,11,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 308,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,66785,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,10:00AM,11:50AM,Peter Persans,Jonsson-Rowland Science Center 2C22,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,66785,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,44,3,PHYS,2024-08-28,2024-12-20,FALL 2024,66785,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 308,47,45,2,PHYS,2024-08-28,2024-12-20,FALL 2024,65045,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,12:00PM,1:50PM,Yong Zheng,Jonsson-Rowland Science Center 2C22,47,45,2,PHYS,2024-08-28,2024-12-20,FALL 2024,65045,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,45,2,PHYS,2024-08-28,2024-12-20,FALL 2024,65045,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek,Darrin Communications Center 308,47,43,4,PHYS,2024-08-28,2024-12-20,FALL 2024,67860,1200,11,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,TF,2:00PM,3:50PM,Nadarajah Narendran,Jonsson-Rowland Science Center 2C14,47,43,4,PHYS,2024-08-28,2024-12-20,FALL 2024,67860,1200,11,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 308,47,43,4,PHYS,2024-08-28,2024-12-20,FALL 2024,67860,1200,11,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.","Prerequisite: PHYS 1100, PHYS 1110, PHYS 1150 or equivalent or permission of instructor. Prerequsite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1250.",When Offered: Fall and spring terms annually.,"['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']","['PHYS 1100', 'PHYS 1110', 'PHYS 1150', 'MATH 1020', 'PHYS 1250']",Science
 EXPERIMENTAL PHYSICS,LEC,4,W,1:00PM,4:50PM,Ingrid Wilke/Joseph Darryl Michael,Jonsson-Rowland Science Center 2C25,16,16,0,PHYS,2024-08-28,2024-12-20,FALL 2024,67081,2350,02,PHYS-2350,Experimental Physics,"Experiments in mechanics, optics, electricity and electromagnetics, oscillations and waves, atomic, nuclear, and solid-state physics. Experimental methods, quantitative observations, and interpretation of data. This is a communication-intensive course.",Prerequisite or Corequisite:PHYS 2210 Attributes Data Intensive 2,When Offered: Fall and Summer terms annually.,['PHYS 2210'],['PHYS 2210'],Science
 EXPERIMENTAL PHYSICS,LEC,4,W,8:00AM,11:50AM,Joseph Darryl Michael,Jonsson-Rowland Science Center 2C13,16,7,9,PHYS,2024-08-28,2024-12-20,FALL 2024,67856,2350,03,PHYS-2350,Experimental Physics,"Experiments in mechanics, optics, electricity and electromagnetics, oscillations and waves, atomic, nuclear, and solid-state physics. Experimental methods, quantitative observations, and interpretation of data. This is a communication-intensive course.",Prerequisite or Corequisite:PHYS 2210 Attributes Data Intensive 2,When Offered: Fall and Summer terms annually.,['PHYS 2210'],['PHYS 2210'],Science
-LEADERSHIP IN PHYSICS MENTOR 1,LEC,2,,,,Charles Harold Martin,TBA,0,0,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69888,4160,01,PHYS-4160,Leadership In Physics Mentor 1,Practicum in mentoring new students in Physics for returning and experienced mentors. Returning and experienced mentors are expected both lead their own mentoring groups for first semester students and to provide leadership for new mentors. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,By permission of instructor.,When Offered: Fall annually,[],[],Science
-INTRO ELECTROMAG THEORY,LEC,4,MR,10:00AM,11:50AM,Esther Alexandra Wertz,Lally Hall 102,20,19,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69274,1250,01,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
-INTRO ELECTROMAG THEORY,LEC,4,W,10:00AM,11:50AM,Esther Alexandra Wertz,Jonsson-Rowland Science Center 2C14,20,19,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69274,1250,01,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
-INTRO ELECTROMAG THEORY,LEC,4,MR,10:00AM,11:50AM,Esther Alexandra Wertz,Lally Hall 102,20,10,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69275,1250,02,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
-INTRO ELECTROMAG THEORY,LEC,4,W,10:00AM,11:50AM,Esther Alexandra Wertz,Jonsson-Rowland Science Center 2C14,20,10,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69275,1250,02,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
+LEADERSHIP IN PHYSICS MENTOR 1,LEC,2,,,,Charles Harold Martin,TBA,0,8,-8,PHYS,2024-08-28,2024-12-20,FALL 2024,69888,4160,01,PHYS-4160,Leadership In Physics Mentor 1,Practicum in mentoring new students in Physics for returning and experienced mentors. Returning and experienced mentors are expected both lead their own mentoring groups for first semester students and to provide leadership for new mentors. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,By permission of instructor.,When Offered: Fall annually,[],[],Science
+INTRO ELECTROMAG THEORY,LEC,4,MR,10:00AM,11:50AM,Esther Alexandra Wertz,Lally Hall 102,20,20,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69274,1250,01,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
+INTRO ELECTROMAG THEORY,LEC,4,W,10:00AM,11:50AM,Esther Alexandra Wertz,Jonsson-Rowland Science Center 2C14,20,20,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69274,1250,01,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
+INTRO ELECTROMAG THEORY,LEC,4,MR,10:00AM,11:50AM,Esther Alexandra Wertz,Lally Hall 102,20,9,11,PHYS,2024-08-28,2024-12-20,FALL 2024,69275,1250,02,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
+INTRO ELECTROMAG THEORY,LEC,4,W,10:00AM,11:50AM,Esther Alexandra Wertz,Jonsson-Rowland Science Center 2C14,20,9,11,PHYS,2024-08-28,2024-12-20,FALL 2024,69275,1250,02,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
 INTRO ELECTROMAG THEORY,LEC,4,MR,10:00AM,11:50AM,Esther Alexandra Wertz,Lally Hall 102,20,19,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69276,1250,03,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
 INTRO ELECTROMAG THEORY,LEC,4,W,2:00PM,3:50PM,Esther Alexandra Wertz,Jonsson-Rowland Science Center 2C14,20,19,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69276,1250,03,PHYS-1250,Intro Electromag Theory,"Introductory physics for students seeking a more intensive experience. Electricity and magnetism is discussed making use of multivariable differentiation and integration. AC and DC circuits. Electromagnetic waves, optics, and selected topics in modern physics. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.","Prerequisite: PHYS 1100, PHYS 1150, or PHYS 1110; or equivalent, or permission of instructor.  Prerequisite or Corequisite: MATH 1020. Additional credit cannot be obtained by taking PHYS 1200.",When Offered: Fall term annually.,"['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']","['PHYS 1100', 'PHYS 1150', 'PHYS 1110', 'MATH 1020', 'PHYS 1200']",Science
-LEADERSHIP IN PHYSICS MENTOR 2,LEC,2,,,,Charles Harold Martin,TBA,0,0,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69890,4161,01,PHYS-4161,Leadership In Physics Mentor 2,Practicum in mentoring new students in Physics for Senior Mentors. Senior Mentors are selected from experienced mentors to both lead their own mentoring groups of first semester students and to lead groups of mentors. Senior Mentors also participate in the organization of the mentoring program. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,By permission of instructor.,When Offered: Fall annually,[],[],Science
+LEADERSHIP IN PHYSICS MENTOR 2,LEC,2,,,,Charles Harold Martin,TBA,0,5,-5,PHYS,2024-08-28,2024-12-20,FALL 2024,69890,4161,01,PHYS-4161,Leadership In Physics Mentor 2,Practicum in mentoring new students in Physics for Senior Mentors. Senior Mentors are selected from experienced mentors to both lead their own mentoring groups of first semester students and to lead groups of mentors. Senior Mentors also participate in the organization of the mentoring program. Note that this course cannot be applied toward the satisfaction of the Institute Math/Science Core requirement.,By permission of instructor.,When Offered: Fall annually,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Toh-Ming Lu,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66937,6980,01,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Gyorgy Korniss,TBA,1,0,1,PHYS,2024-08-28,2024-12-20,FALL 2024,66413,6980,02,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
-MASTER'S PROJECT,LEC,1-9,,,,Joel T. Giedt,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66843,6980,03,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Joel T. Giedt,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,66843,6980,03,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Glenn Ciolek,TBA,1,0,1,PHYS,2024-08-28,2024-12-20,FALL 2024,68651,6980,04,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Heidi Jo Newberg,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,66829,6980,05,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Ingrid Wilke,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,66854,6980,06,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
-MASTER'S PROJECT,LEC,1-9,,,,Ethan Craig Brown,TBA,5,2,3,PHYS,2024-08-28,2024-12-20,FALL 2024,68147,6980,07,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Ethan Craig Brown,TBA,5,3,2,PHYS,2024-08-28,2024-12-20,FALL 2024,68147,6980,07,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Trevor David Rhone,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,68697,6980,08,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Vincent Meunier,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66933,6980,09,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Shawn Yu Lin,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,68024,6980,10,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
@@ -2522,8 +2560,10 @@ MASTER'S PROJECT,LEC,1-9,,,,Trevor David Rhone,TBA,10,0,10,PHYS,2024-08-28,2024-
 MASTER'S PROJECT,LEC,1-9,,,,Paul Chow,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69023,6980,29,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Yong Zheng,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69391,6980,30,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 MASTER'S PROJECT,LEC,1-9,,,,Victor Hugo Robles Sanchez,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69392,6980,31,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Moussa Ngom,TBA,10,2,8,PHYS,2024-08-28,2024-12-20,FALL 2024,69969,6980,32,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Edwin B. Fohtung,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69970,6980,33,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
 THESIS,LEC,3-4,,,,Gwo Ching Wang,TBA,25,0,25,PHYS,2024-08-28,2024-12-20,FALL 2024,65389,2990,01,PHYS-2990,Thesis,An independent investigation.,Permission of instructor.,,[],[],Science
-PHYSICS TEACHING  PRACTICUM 1,LEC,2,,,,Peter Persans,TBA,50,1,49,PHYS,2024-08-28,2024-12-20,FALL 2024,69886,4170,01,PHYS-4170,Physics Teaching Practicum 1,Students will engage in technical team leadership practice by leading collaborative teams of students in problem solving and online activities in introductory and intermediate Physics courses. The student will also provide individual problem-solving help and tutorials as agreed with faculty supervisor.,By permission of instructor.,"When Offered: Spring, Summer, and Fall",[],[],Science
+PHYSICS TEACHING  PRACTICUM 1,LEC,2,,,,Peter Persans,TBA,50,2,48,PHYS,2024-08-28,2024-12-20,FALL 2024,69886,4170,01,PHYS-4170,Physics Teaching Practicum 1,Students will engage in technical team leadership practice by leading collaborative teams of students in problem solving and online activities in introductory and intermediate Physics courses. The student will also provide individual problem-solving help and tutorials as agreed with faculty supervisor.,By permission of instructor.,"When Offered: Spring, Summer, and Fall",[],[],Science
 MASTER'S THESIS,LEC,1-12,,,,Yong Zheng,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66153,6990,01,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-12,,,,Eric Fred Schubert,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66181,6990,02,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MASTER'S THESIS,LEC,1-12,,,,Gyorgy Korniss,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66418,6990,03,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -2536,12 +2576,12 @@ MASTER'S THESIS,LEC,1-12,,,,Gwo Ching Wang,TBA,10,0,10,PHYS,2024-08-28,2024-12-2
 MASTER'S THESIS,LEC,1-12,,,,John Wen,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66615,6990,17,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,Chaitanya Kishore Ullal/John R. LaGraff,Walker Laboratory 6113,5,2,3,PHYS,2024-08-28,2024-12-20,FALL 2024,67823,1600,01,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
 MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,Chaitanya Kishore Ullal,TBA,5,2,3,PHYS,2024-08-28,2024-12-20,FALL 2024,67823,1600,01,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,0,5,PHYS,2024-08-28,2024-12-20,FALL 2024,67824,1600,02,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,5,0,5,PHYS,2024-08-28,2024-12-20,FALL 2024,67824,1600,02,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
-PROF DEVLP: PHYSICS STUDENTS,LEC,1,F,4:00PM,4:50PM,Peter Persans,Jonsson-Rowland Science Center 2C22,48,22,26,PHYS,2024-08-28,2024-12-20,FALL 2024,69885,2900,01,PHYS-2900,Prof DEVLP: Physics Students,"This course helps students to plan an academic and professional path and provides workshop-based experience in group collaboration and discussion, seeking internships and research experiences, ethics, and professional behavior.",None. Sophomore standing as a Physics major is recommended.,When Offered: Fall annually,[],[],Science
-ELECTROMAGNETIC THEORY,LEC,4,MR,4:00PM,5:50PM,Ethan Craig Brown,Jonsson-Rowland Science Center 2C22,48,30,18,PHYS,2024-08-28,2024-12-20,FALL 2024,68040,4210,01,PHYS-4210,Electromagnetic Theory,Field theory of electricity and magnetism with emphasis on solving boundary value problems. Dielectric and magnetic materials. Maxwell's equations and wave propagation with applications to optics. Relativistic electrodynamics.,Prerequisites: PHYS 2210,When Offered: Fall and spring terms annually.,['PHYS 2210'],['PHYS 2210'],Science
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,1,4,PHYS,2024-08-28,2024-12-20,FALL 2024,67824,1600,02,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff,TBA,5,1,4,PHYS,2024-08-28,2024-12-20,FALL 2024,67824,1600,02,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+PROF DEVLP: PHYSICS STUDENTS,LEC,1,F,4:00PM,4:50PM,Peter Persans,Jonsson-Rowland Science Center 2C22,48,25,23,PHYS,2024-08-28,2024-12-20,FALL 2024,69885,2900,01,PHYS-2900,Prof DEVLP: Physics Students,"This course helps students to plan an academic and professional path and provides workshop-based experience in group collaboration and discussion, seeking internships and research experiences, ethics, and professional behavior.",None. Sophomore standing as a Physics major is recommended.,When Offered: Fall annually,[],[],Science
+ELECTROMAGNETIC THEORY,LEC,4,MR,4:00PM,5:50PM,Ethan Craig Brown,Jonsson-Rowland Science Center 2C22,48,31,17,PHYS,2024-08-28,2024-12-20,FALL 2024,68040,4210,01,PHYS-4210,Electromagnetic Theory,Field theory of electricity and magnetism with emphasis on solving boundary value problems. Dielectric and magnetic materials. Maxwell's equations and wave propagation with applications to optics. Relativistic electrodynamics.,Prerequisites: PHYS 2210,When Offered: Fall and spring terms annually.,['PHYS 2210'],['PHYS 2210'],Science
 QUANTUM COMPUTING & INFORMTN,LEC,4,MR,2:00PM,3:50PM,Damien J. West,Jonsson-Rowland Science Center 2C25,25,16,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69266,4960,01,PHYS-4960,Quantum Computing & Informtn,,,,[],[],Science
-COLLOQUIUM,LEC,1,W,4:00PM,4:50PM,Gwo Ching Wang,Darrin Communications Center 330,75,19,56,PHYS,2024-08-28,2024-12-20,FALL 2024,65370,6900,03,PHYS-6900,Colloquium,Selected topics.,,,[],[],Science
+COLLOQUIUM,LEC,1,W,4:00PM,4:50PM,Humberto Terrones Maldonado,Darrin Communications Center 330,75,22,53,PHYS,2024-08-28,2024-12-20,FALL 2024,65370,6900,03,PHYS-6900,Colloquium,Selected topics.,,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Gyorgy Korniss,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65154,9990,01,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Esther Alexandra Wertz,TBA,10,3,7,PHYS,2024-08-28,2024-12-20,FALL 2024,65156,9990,02,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Vidhya Chakrapani,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,68864,9990,03,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -2564,8 +2604,8 @@ DISSERTATION,LEC,1-15,,,,Christian M. Wetzel,TBA,10,0,10,PHYS,2024-08-28,2024-12
 DISSERTATION,LEC,1-15,,,,Peter Persans,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65988,9990,22,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Boleslaw Szymanski,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65581,9990,23,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Shawn Yu Lin,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65648,9990,24,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Heidi Jo Newberg,TBA,10,2,8,PHYS,2024-08-28,2024-12-20,FALL 2024,66159,9990,25,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-DISSERTATION,LEC,1-15,,,,Shengbai Zhang,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,66457,9990,26,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Heidi Jo Newberg,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,66159,9990,25,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Shengbai Zhang,TBA,10,2,8,PHYS,2024-08-28,2024-12-20,FALL 2024,66457,9990,26,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Humberto Terrones Maldonado,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,67503,9990,27,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Zhaoran Huang,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,68446,9990,28,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Yunfeng Shi,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69005,9990,29,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
@@ -2576,93 +2616,93 @@ DISSERTATION,LEC,1-15,,,,Joseph Darryl Michael,TBA,10,0,10,PHYS,2024-08-28,2024-
 DISSERTATION,LEC,1-15,,,,Julian S. Georg,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69010,9990,34,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,Trevor David Rhone,TBA,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69011,9990,35,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
 DISSERTATION,LEC,1-15,,,,K. V. Lakshmi,TBA,10,0,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69042,9990,36,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
-HONORS PHYSIC I MENTORING,LEC,1,,,,Peter Persans,TBA,50,0,50,PHYS,2024-08-28,2024-12-20,FALL 2024,67455,4962,03,PHYS-4962,Honors Physic I Mentoring,,,,[],[],Science
-COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Low Center for Industrial Inn. 3112,10,7,3,PHYS,2024-08-28,2024-12-20,FALL 2024,69727,4963,01,PHYS-4963,Cosmology,,,,[],[],Science
-A PASSION FOR PHYSICS,LEC,1,T,3:00PM,3:50PM,Esther Alexandra Wertz,Darrin Communications Center 318,90,76,14,PHYS,2024-08-28,2024-12-20,FALL 2024,65035,1010,01,PHYS-1010,A Passion For Physics,"A weekly one-hour seminar by physics department faculty members, in which they describe their scientific and research interests, at a level suitable for first-year college students. This course is graded satisfactory/unsatisfactory.",,When Offered: Fall term annually.,[],[],Science
+HONORS PHYSIC I MENTORING,LEC,1,,,,Peter Persans,TBA,50,1,49,PHYS,2024-08-28,2024-12-20,FALL 2024,67455,4962,03,PHYS-4962,Honors Physic I Mentoring,,,,[],[],Science
+COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Carnegie Building 102,10,4,6,PHYS,2024-08-28,2024-12-20,FALL 2024,69727,4963,01,PHYS-4963,Cosmology,,,,[],[],Science
+A PASSION FOR PHYSICS,LEC,1,T,3:00PM,3:50PM,Esther Alexandra Wertz,Darrin Communications Center 318,90,79,11,PHYS,2024-08-28,2024-12-20,FALL 2024,65035,1010,01,PHYS-1010,A Passion For Physics,"A weekly one-hour seminar by physics department faculty members, in which they describe their scientific and research interests, at a level suitable for first-year college students. This course is graded satisfactory/unsatisfactory.",,When Offered: Fall term annually.,[],[],Science
 MODERN PHYS MENTORING FRESHMAN,LEC,0,W,2:00PM,2:50PM,Peter Persans,Russell Sage Laboratory 2715,25,23,2,PHYS,2024-08-28,2024-12-20,FALL 2024,69395,1962,01,PHYS-1962,Modern Phys Mentoring Freshman,,,,[],[],Science
 MODERN PHYS MENTORING FRESHMAN,LEC,0,W,3:00PM,3:50PM,Peter Persans,Russell Sage Laboratory 2715,25,11,14,PHYS,2024-08-28,2024-12-20,FALL 2024,69396,1962,02,PHYS-1962,Modern Phys Mentoring Freshman,,,,[],[],Science
 MODERN PHYS MENTORING FRESHMAN,LEC,0,W,5:00PM,5:50PM,Peter Persans,Russell Sage Laboratory 2715,25,22,3,PHYS,2024-08-28,2024-12-20,FALL 2024,69397,1962,03,PHYS-1962,Modern Phys Mentoring Freshman,,,,[],[],Science
 MODERN PHYS MENTORING FRESHMAN,LEC,0,W,6:00PM,6:50PM,Peter Persans,Russell Sage Laboratory 2715,25,7,18,PHYS,2024-08-28,2024-12-20,FALL 2024,69398,1962,04,PHYS-1962,Modern Phys Mentoring Freshman,,,,[],[],Science
 QUANTUM FIELD THEORY,LEC,4,TF,10:00AM,11:50AM,Joel T. Giedt,Jonsson-Rowland Science Center 1W01,10,3,7,PHYS,2024-08-28,2024-12-20,FALL 2024,69763,4964,01,PHYS-4964,Quantum Field Theory,,,,[],[],Science
-COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Low Center for Industrial Inn. 3112,10,1,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69728,6963,01,PHYS-6963,Cosmology,,,,[],[],Science
-PHYSICS I (M),LEC,4,MR,8:00AM,9:50AM,Joseph Darryl Michael/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,33,38,-5,PHYS,2024-08-28,2024-12-20,FALL 2024,65036,1100,01,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,33,38,-5,PHYS,2024-08-28,2024-12-20,FALL 2024,65036,1100,01,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,10:00AM,11:50AM,Joseph Darryl Michael/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,43,5,PHYS,2024-08-28,2024-12-20,FALL 2024,65037,1100,02,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,43,5,PHYS,2024-08-28,2024-12-20,FALL 2024,65037,1100,02,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,12:00PM,1:50PM,Damien J. West/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,36,12,PHYS,2024-08-28,2024-12-20,FALL 2024,65038,1100,03,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,36,12,PHYS,2024-08-28,2024-12-20,FALL 2024,65038,1100,03,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,10:00AM,11:50AM,Gwo Ching Wang/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,42,6,PHYS,2024-08-28,2024-12-20,FALL 2024,66298,1100,04,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,42,6,PHYS,2024-08-28,2024-12-20,FALL 2024,66298,1100,04,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,2:00PM,3:50PM,Ingrid Wilke/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,28,20,PHYS,2024-08-28,2024-12-20,FALL 2024,65039,1100,05,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,28,20,PHYS,2024-08-28,2024-12-20,FALL 2024,65039,1100,05,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,TF,10:00AM,11:50AM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,39,9,PHYS,2024-08-28,2024-12-20,FALL 2024,65040,1100,06,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,39,9,PHYS,2024-08-28,2024-12-20,FALL 2024,65040,1100,06,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,TF,12:00PM,1:50PM,Juan Pablo Borja/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,41,7,PHYS,2024-08-28,2024-12-20,FALL 2024,65187,1100,07,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,41,7,PHYS,2024-08-28,2024-12-20,FALL 2024,65187,1100,07,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,TF,2:00PM,3:50PM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,19,29,PHYS,2024-08-28,2024-12-20,FALL 2024,65190,1100,08,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,19,29,PHYS,2024-08-28,2024-12-20,FALL 2024,65190,1100,08,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,4:00PM,5:50PM,Damien J. West/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,26,22,PHYS,2024-08-28,2024-12-20,FALL 2024,65863,1100,09,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,26,22,PHYS,2024-08-28,2024-12-20,FALL 2024,65863,1100,09,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,TF,12:00PM,1:50PM,Christian M. Wetzel/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65864,1100,10,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65864,1100,10,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,TF,10:00AM,11:50AM,Christian M. Wetzel/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66299,1100,11,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+COSMOLOGY,LEC,4,TF,12:00PM,1:50PM,Julian S. Georg,Carnegie Building 102,10,2,8,PHYS,2024-08-28,2024-12-20,FALL 2024,69728,6963,01,PHYS-6963,Cosmology,,,,[],[],Science
+PHYSICS I (M),LEC,4,MR,8:00AM,9:50AM,Joseph Darryl Michael/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,33,35,-2,PHYS,2024-08-28,2024-12-20,FALL 2024,65036,1100,01,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,33,35,-2,PHYS,2024-08-28,2024-12-20,FALL 2024,65036,1100,01,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,10:00AM,11:50AM,Joseph Darryl Michael/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,42,6,PHYS,2024-08-28,2024-12-20,FALL 2024,65037,1100,02,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,42,6,PHYS,2024-08-28,2024-12-20,FALL 2024,65037,1100,02,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,12:00PM,1:50PM,Damien J. West/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65038,1100,03,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65038,1100,03,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,10:00AM,11:50AM,Gwo Ching Wang/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,43,5,PHYS,2024-08-28,2024-12-20,FALL 2024,66298,1100,04,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,43,5,PHYS,2024-08-28,2024-12-20,FALL 2024,66298,1100,04,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,2:00PM,3:50PM,Ingrid Wilke/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,25,23,PHYS,2024-08-28,2024-12-20,FALL 2024,65039,1100,05,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,25,23,PHYS,2024-08-28,2024-12-20,FALL 2024,65039,1100,05,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,TF,10:00AM,11:50AM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65040,1100,06,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,65040,1100,06,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,TF,12:00PM,1:50PM,Juan Pablo Borja/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,42,6,PHYS,2024-08-28,2024-12-20,FALL 2024,65187,1100,07,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,42,6,PHYS,2024-08-28,2024-12-20,FALL 2024,65187,1100,07,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,TF,2:00PM,3:50PM,Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,27,21,PHYS,2024-08-28,2024-12-20,FALL 2024,65190,1100,08,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,27,21,PHYS,2024-08-28,2024-12-20,FALL 2024,65190,1100,08,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,4:00PM,5:50PM,Damien J. West/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,27,21,PHYS,2024-08-28,2024-12-20,FALL 2024,65863,1100,09,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,27,21,PHYS,2024-08-28,2024-12-20,FALL 2024,65863,1100,09,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,TF,12:00PM,1:50PM,Christian M. Wetzel/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,34,14,PHYS,2024-08-28,2024-12-20,FALL 2024,65864,1100,10,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,34,14,PHYS,2024-08-28,2024-12-20,FALL 2024,65864,1100,10,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,TF,10:00AM,11:50AM,Christian M. Wetzel/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66299,1100,11,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
 PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,66299,1100,11,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,2:00PM,3:50PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,31,17,PHYS,2024-08-28,2024-12-20,FALL 2024,66343,1100,12,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,31,17,PHYS,2024-08-28,2024-12-20,FALL 2024,66343,1100,12,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,TF,2:00PM,3:50PM,Zachary D Ward/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,41,7,PHYS,2024-08-28,2024-12-20,FALL 2024,67463,1100,13,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,41,7,PHYS,2024-08-28,2024-12-20,FALL 2024,67463,1100,13,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,4:00PM,5:50PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,67667,1100,14,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,38,10,PHYS,2024-08-28,2024-12-20,FALL 2024,67667,1100,14,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,MR,12:00PM,1:50PM,Gwo Ching Wang/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,29,19,PHYS,2024-08-28,2024-12-20,FALL 2024,67711,1100,15,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
-PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,29,19,PHYS,2024-08-28,2024-12-20,FALL 2024,67711,1100,15,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,2:00PM,3:50PM,William James Stillman/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,27,21,PHYS,2024-08-28,2024-12-20,FALL 2024,66343,1100,12,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,27,21,PHYS,2024-08-28,2024-12-20,FALL 2024,66343,1100,12,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,TF,2:00PM,3:50PM,Zachary D Ward/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,36,12,PHYS,2024-08-28,2024-12-20,FALL 2024,67463,1100,13,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,36,12,PHYS,2024-08-28,2024-12-20,FALL 2024,67463,1100,13,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,4:00PM,5:50PM,Yong Sung Kim/Julian S. Georg,Jonsson-Rowland Science Center 2C30,48,37,11,PHYS,2024-08-28,2024-12-20,FALL 2024,67667,1100,14,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,37,11,PHYS,2024-08-28,2024-12-20,FALL 2024,67667,1100,14,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,MR,12:00PM,1:50PM,Gwo Ching Wang/Julian S. Georg/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,28,20,PHYS,2024-08-28,2024-12-20,FALL 2024,67711,1100,15,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
+PHYSICS I (M),LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,28,20,PHYS,2024-08-28,2024-12-20,FALL 2024,67711,1100,15,PHYS-1100,Physics I (M),"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience. This course is limited to first-semester students and includes a regular Student Life and subject mentoring and collaborative problem solving sessions.","Corequisite: PHYS 1101. Prerequisite or Corequisite: MATH 1010 or equivalent or permission of instructor.  Additional credit cannot be obtained for PHYS 1050, PHYS 1110, or PHYS 1150.",When Offered: Fall term annually.,"['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']","['PHYS 1101', 'MATH 1010', 'PHYS 1050', 'PHYS 1110', 'PHYS 1150', 'PHYS 1050', 'PHYS 1110']",Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,W,10:00AM,10:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69588,1101,01,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,11:00AM,11:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,20,2,PHYS,2024-08-28,2024-12-20,FALL 2024,69613,1101,02,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,11:00AM,11:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,21,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69613,1101,02,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,W,12:00PM,12:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69615,1101,03,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,R,1:00PM,1:50PM,Charles Harold Martin/Peter Persans,Low Center for Industrial Inn. 3112,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69616,1101,04,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,F,3:00PM,3:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69618,1101,05,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,1:00PM,1:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69621,1101,06,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,3:00PM,3:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69624,1101,07,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69626,1101,08,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69629,1101,09,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,R,5:00PM,5:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,21,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69634,1101,11,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,R,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,11,11,PHYS,2024-08-28,2024-12-20,FALL 2024,69637,1101,12,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,F,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69641,1101,14,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,F,9:00AM,9:50AM,Charles Harold Martin/Peter Persans,Low Center for Industrial Inn. 3130,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69642,1101,15,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,16,6,PHYS,2024-08-28,2024-12-20,FALL 2024,69644,1101,17,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,R,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 2701,22,13,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69646,1101,18,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,1:00PM,1:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,21,1,PHYS,2024-08-28,2024-12-20,FALL 2024,69621,1101,06,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,3:00PM,3:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,23,-1,PHYS,2024-08-28,2024-12-20,FALL 2024,69624,1101,07,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,19,3,PHYS,2024-08-28,2024-12-20,FALL 2024,69626,1101,08,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,19,3,PHYS,2024-08-28,2024-12-20,FALL 2024,69629,1101,09,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,R,5:00PM,5:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,18,4,PHYS,2024-08-28,2024-12-20,FALL 2024,69634,1101,11,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,R,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,10,12,PHYS,2024-08-28,2024-12-20,FALL 2024,69637,1101,12,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,F,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,19,3,PHYS,2024-08-28,2024-12-20,FALL 2024,69641,1101,14,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,F,9:00AM,9:50AM,Charles Harold Martin/Peter Persans,Low Center for Industrial Inn. 3130,22,20,2,PHYS,2024-08-28,2024-12-20,FALL 2024,69642,1101,15,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,15,7,PHYS,2024-08-28,2024-12-20,FALL 2024,69644,1101,17,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,R,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 2701,22,12,10,PHYS,2024-08-28,2024-12-20,FALL 2024,69646,1101,18,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,W,10:00AM,10:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69647,1101,19,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,11:00AM,11:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69648,1101,20,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,12:00PM,12:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69649,1101,21,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,R,1:00PM,1:50PM,Charles Harold Martin/Peter Persans,Jonsson-Rowland Science Center 2C25,22,13,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69650,1101,22,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,F,3:00PM,3:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,15,7,PHYS,2024-08-28,2024-12-20,FALL 2024,69651,1101,23,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,11:00AM,11:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,23,-1,PHYS,2024-08-28,2024-12-20,FALL 2024,69648,1101,20,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,12:00PM,12:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,23,-1,PHYS,2024-08-28,2024-12-20,FALL 2024,69649,1101,21,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,R,1:00PM,1:50PM,Charles Harold Martin/Peter Persans,Jonsson-Rowland Science Center 2C25,22,14,8,PHYS,2024-08-28,2024-12-20,FALL 2024,69650,1101,22,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,F,3:00PM,3:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,17,5,PHYS,2024-08-28,2024-12-20,FALL 2024,69651,1101,23,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,W,1:00PM,1:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,22,0,PHYS,2024-08-28,2024-12-20,FALL 2024,69653,1101,24,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,W,3:00PM,3:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,16,6,PHYS,2024-08-28,2024-12-20,FALL 2024,69654,1101,25,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,10,12,PHYS,2024-08-28,2024-12-20,FALL 2024,69655,1101,26,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,13,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69656,1101,27,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,13,9,PHYS,2024-08-28,2024-12-20,FALL 2024,69655,1101,26,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,16,6,PHYS,2024-08-28,2024-12-20,FALL 2024,69656,1101,27,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
 PHYSICS MENTORING: FIRST YEAR,LEC,0,R,5:00PM,5:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,11,11,PHYS,2024-08-28,2024-12-20,FALL 2024,69658,1101,29,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,R,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,4,18,PHYS,2024-08-28,2024-12-20,FALL 2024,69659,1101,30,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,F,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,8,14,PHYS,2024-08-28,2024-12-20,FALL 2024,69661,1101,32,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,F,9:00AM,9:50AM,Charles Harold Martin/Peter Persans,Materials Research Center 136,22,18,4,PHYS,2024-08-28,2024-12-20,FALL 2024,69662,1101,33,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,W,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,6,16,PHYS,2024-08-28,2024-12-20,FALL 2024,69664,1101,35,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-PHYSICS MENTORING: FIRST YEAR,LEC,0,R,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Lally Hall 02,22,7,15,PHYS,2024-08-28,2024-12-20,FALL 2024,69665,1101,36,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
-QUANTUM MECHANICS I,LEC,4,MR,4:00PM,5:50PM,Shengbai Zhang,Jonsson-Rowland Science Center 2C25,30,23,7,PHYS,2024-08-28,2024-12-20,FALL 2024,66052,6510,01,PHYS-6510,Quantum Mechanics I,"Classical mechanics: from Lagrangian to Hamiltonian, single particle formalism, small oscillations, normal modes, Hamilton-Jacobi theory, Hamilton's equation, review of wave mechanics: Schroedinger equation, barrier tunneling, quantum wells, mathematical foundation of quantum mechanics: ket space, representations, observables, eigenstates and diagonization, quantum postulates, application of quantum postulates to two-level systems, harmonic oscillators, creation and annihilation operators. Quantization of angular momentum, spherical harmonics, rotation operators, Landau levels, central force: hydrogen atom. Path integral formalism for quantum theory.",Prerequisite: PHYS 4100 or equivalent.,When Offered: Fall term annually.,['PHYS 4100'],['PHYS 4100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,R,6:00PM,6:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,3,19,PHYS,2024-08-28,2024-12-20,FALL 2024,69659,1101,30,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,F,2:00PM,2:50PM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 4203,22,10,12,PHYS,2024-08-28,2024-12-20,FALL 2024,69661,1101,32,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,F,9:00AM,9:50AM,Charles Harold Martin/Peter Persans,Troy Building 2015,22,19,3,PHYS,2024-08-28,2024-12-20,FALL 2024,69662,1101,33,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,W,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Russell Sage Laboratory 3705,22,5,17,PHYS,2024-08-28,2024-12-20,FALL 2024,69664,1101,35,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+PHYSICS MENTORING: FIRST YEAR,LEC,0,R,8:00AM,8:50AM,Charles Harold Martin/Peter Persans,Lally Hall 02,22,4,18,PHYS,2024-08-28,2024-12-20,FALL 2024,69665,1101,36,PHYS-1101,Physics MENTORING: First Year,A corequisite to PHYS 1100 to support first semester students. Students will learn best practices for success in STEM courses with an emphasis on collaborative problem solving in mechanics. Fall first-semester students taking PHYS-1100 are required to co-register for PHYS-1101.,Prerequisites/Corequisites: Corequisite:PHYS 1100,When Offered: Fall annually,['PHYS 1100'],['PHYS 1100'],Science
+QUANTUM MECHANICS I,LEC,4,MR,4:00PM,5:50PM,Shengbai Zhang,Jonsson-Rowland Science Center 2C25,30,21,9,PHYS,2024-08-28,2024-12-20,FALL 2024,66052,6510,01,PHYS-6510,Quantum Mechanics I,"Classical mechanics: from Lagrangian to Hamiltonian, single particle formalism, small oscillations, normal modes, Hamilton-Jacobi theory, Hamilton's equation, review of wave mechanics: Schroedinger equation, barrier tunneling, quantum wells, mathematical foundation of quantum mechanics: ket space, representations, observables, eigenstates and diagonization, quantum postulates, application of quantum postulates to two-level systems, harmonic oscillators, creation and annihilation operators. Quantization of angular momentum, spherical harmonics, rotation operators, Landau levels, central force: hydrogen atom. Path integral formalism for quantum theory.",Prerequisite: PHYS 4100 or equivalent.,When Offered: Fall term annually.,['PHYS 4100'],['PHYS 4100'],Science
 ONE MILE OF THE HUDSON RIVER,LEC,4,TF,2:00PM,3:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,12,12,IENV,2024-08-28,2024-12-20,FALL 2024,68986,4700,01,IENV-4700,One Mile Of The Hudson River,"A course that focuses on the Hudson River Basin as an environmental microcosm and a vehicle through which to illustrate the natural science of river systems with particular attention to human influences. This interdisciplinary environmental science course is for environmentally oriented junior, senior, and graduate students.","Junior, senior, or graduate student status; introductory courses in biology, chemistry, and geology; environmentally oriented humanities/social sciences courses, or permission of instructor.Attributes Data Intensive 2",When Offered: Fall term even-numbered years.,[],[],Interdisciplinary and Other
-LEADERSHIP LAB,LEC,0,T,8:00AM,9:50AM,Jennifer . Beckley,Low Center for Industrial Inn. 3051,70,23,47,USAF,2024-08-28,2024-12-20,FALL 2024,65146,0010,01,USAF-0010,Leadership Lab,"The leadership laboratory courses (LLABs) include a study of Air Force customs and courtesies, drill and ceremonies, and military commands. LLAB also includes studying the environment of an Air Force officer and learning about opportunities available to commissioned officers. The AS 300 and AS 400 LLABs consist of activities classified as leadership and management experiences. They involve the planning and controlling of military activities of the cadet wing, and the preparation and presentation of briefings and other oral and written communications. LLABs also include interviews, guidance, and information which will increase the understanding, motivation, and performance of other cadets.",,"When Offered: An eight-semester (fall and spring) sequence, beginning each fall.",[],[],Interdisciplinary and Other
-AEROSPACE STUDIES 200A,LEC,1,R,9:00AM,9:50AM,Eric Matthew Rutledge/Jennifer . Beckley,Alumni Sports and Rec Center 209,35,10,25,USAF,2024-08-28,2024-12-20,FALL 2024,65169,2030,01,USAF-2030,Aerospace Studies 200A,"The AS 200, Team and Leadership Fundamentals, focuses on laying the foundation for teams and leadership. The topics include skills that will allow cadets to improve their leadership on a personal level and within a team. The courses will prepare cadets for their field training experience where they will be able to put the concepts learned into practice. The purpose is to instill a leadership mindset and to motivate sophomore students to transition from AFROTC cadet to AFROTC officer candidate. Leadership Laboratory (USAF 0010 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.",Prerequisites/Corequisites: USAF 0010 (Mandatory for AFROTC Cadets).,When Offered: 200 A (fall term) 200 B (spring term).,"['USAF 0010', 'USAF 0010']","['USAF 0010', 'USAF 0010']",Interdisciplinary and Other
-AEROSPACE STUDIES 300A,LEC,3,W,12:00PM,2:50PM,Jake L Miller/Jennifer . Beckley,Russell Sage Laboratory 2704,15,3,12,USAF,2024-08-28,2024-12-20,FALL 2024,65170,2050,01,USAF-2050,Aerospace Studies 300A,"AS 300, Leading People and Effective Communication, teaches cadets advanced skills and knowledge in management and leadership. Special emphasis is placed on enhancing leadership skills and communication. Cadets have an opportunity to try out these leadership and management techniques in a supervised environment as juniors and seniors. Laboratory (USAF 0080 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.","Prerequisites/Corequisites: USAF 1010, USAF 1020, USAF 2030, USAF 2040/ USAF 0080 (Mandatory for AFROTC Cadets).",When Offered: 300 A (fall term) 300 B (spring term).,"['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 0080']","['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 0080']",Interdisciplinary and Other
-AEROSPACE STUDIES 100A,LEC,1,R,8:00AM,8:50AM,Daryl Kaocherpao Moua/Eric Matthew Rutledge,Low Center for Industrial Inn. 3039,35,11,24,USAF,2024-08-28,2024-12-20,FALL 2024,65168,1010,01,USAF-1010,Aerospace Studies 100A,"AS 100, Heritage and Values of the U.S. Air Force, is a survey course designed to introduce students to the United States Air Force and provides an overview of the basic characteristics, missions, and organization of the Air Force. Leadership Laboratory (USAF 0010 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.",,When Offered: 100 A (fall term) 100 B (spring term).,[],[],Interdisciplinary and Other
-AEROSPACE STUDIES 400A,LEC,3,W,7:00AM,9:50AM,Jake L Miller/Jennifer . Beckley,Alumni Sports and Rec Center 209,15,4,11,USAF,2024-08-28,2024-12-20,FALL 2024,65171,2070,01,USAF-2070,Aerospace Studies 400A,"AS 400, National Security Affairs/Preparation for Active Duty, is designed for college seniors and gives them the foundation to understand their role as military officers in American society. It is an overview of the complex social and political issues facing the military profession and requires a measure of sophistication commensurate with the senior college level. The final semester provides information that will prepare the cadets for Active Duty. Leadership Laboratory (USAF 0080 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.","Prerequisites/Corequisites: USAF 1010, USAF 1020, USAF 2030, USAF 2040, USAF 2050, USAF 2060/ USAF 0080 (Mandatory for AFROTC Cadets).",When Offered: 400 A (fall term) 400 B (spring term).,"['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 2060', 'USAF 0080']","['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 2060', 'USAF 0080']",Interdisciplinary and Other
-FUNAMENTALS OF MILITARY SCIENCE LAB I,LEC,0,R,2:00PM,4:20PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,25,2,23,USAR,2024-08-28,2024-12-20,FALL 2024,66494,0010,01,USAR-0010,Funamentals Of Military Science Lab I,"This course is an overview of leadership fundamentals such as setting direction, problem-solving, listening, presenting briefs, providing feedback, and using effective writing skills. Students explore dimensions of leadership values, attributes, skills, and actions in the context of practical, hands-on, and interactive exercises. Contents of the course are linked to USAR 1010. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
-APPLIED LEADERSHIP I,LEC,1,T,4:00PM,4:50PM,Donna Lee Carr,Alumni Sports and Rec Center 209,25,3,22,USAR,2024-08-28,2024-12-20,FALL 2024,65136,2010,01,USAR-2010,Applied Leadership I,"The course contains the principal leadership instruction of the Basic Course. The instruction delves into several aspects of communication and leadership theory. The use of practical exercise is emphasized, as students are increasingly required to apply communications and leadership concepts. The focus continues to build on developing knowledge of the leadership attributes and core leader competencies through the understanding of Army rank, structure, and duties as well as broadening knowledge of land navigation and infantry squad tactics. Case studies will provide a tangible context for learning and understanding the Soldier's Creed and Warrior Ethos. Upon completion of this semester, students should be well grounded in the fundamental principals of leadership and be prepared to intensify the practical application of their studies during the Advanced Course. Schedule will be posted in syllabus.",,,[],[],Interdisciplinary and Other
-APPLIED LEADERSHIP LAB I,LEC,0,R,2:00PM,4:20PM,Donna Lee Carr,Alumni Sports and Rec Center 209,25,1,24,USAR,2024-08-28,2024-12-20,FALL 2024,66495,0030,01,USAR-0030,Applied Leadership Lab I,"This course explores the dimensions of creative and innovative tactical leadership strategies and styles by examining team dynamics and two historical leadership theories that form the basis of the army leadership framework. Aspects of personal motivation and team building are practice planning, executing, and assessing team exercises. Contents of the course are linked to USAR 2010. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
+LEADERSHIP LAB,LEC,0,T,8:00AM,9:50AM,Jennifer . Beckley,Low Center for Industrial Inn. 3051,70,43,27,USAF,2024-08-28,2024-12-20,FALL 2024,65146,0010,01,USAF-0010,Leadership Lab,"The leadership laboratory courses (LLABs) include a study of Air Force customs and courtesies, drill and ceremonies, and military commands. LLAB also includes studying the environment of an Air Force officer and learning about opportunities available to commissioned officers. The AS 300 and AS 400 LLABs consist of activities classified as leadership and management experiences. They involve the planning and controlling of military activities of the cadet wing, and the preparation and presentation of briefings and other oral and written communications. LLABs also include interviews, guidance, and information which will increase the understanding, motivation, and performance of other cadets.",,"When Offered: An eight-semester (fall and spring) sequence, beginning each fall.",[],[],Interdisciplinary and Other
+AEROSPACE STUDIES 200A,LEC,1,R,9:00AM,9:50AM,Eric Matthew Rutledge/Jennifer . Beckley,Alumni Sports and Rec Center 209,35,16,19,USAF,2024-08-28,2024-12-20,FALL 2024,65169,2030,01,USAF-2030,Aerospace Studies 200A,"The AS 200, Team and Leadership Fundamentals, focuses on laying the foundation for teams and leadership. The topics include skills that will allow cadets to improve their leadership on a personal level and within a team. The courses will prepare cadets for their field training experience where they will be able to put the concepts learned into practice. The purpose is to instill a leadership mindset and to motivate sophomore students to transition from AFROTC cadet to AFROTC officer candidate. Leadership Laboratory (USAF 0010 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.",Prerequisites/Corequisites: USAF 0010 (Mandatory for AFROTC Cadets).,When Offered: 200 A (fall term) 200 B (spring term).,"['USAF 0010', 'USAF 0010']","['USAF 0010', 'USAF 0010']",Interdisciplinary and Other
+AEROSPACE STUDIES 300A,LEC,3,W,12:00PM,2:50PM,Jake L Miller/Jennifer . Beckley,Russell Sage Laboratory 2704,15,7,8,USAF,2024-08-28,2024-12-20,FALL 2024,65170,2050,01,USAF-2050,Aerospace Studies 300A,"AS 300, Leading People and Effective Communication, teaches cadets advanced skills and knowledge in management and leadership. Special emphasis is placed on enhancing leadership skills and communication. Cadets have an opportunity to try out these leadership and management techniques in a supervised environment as juniors and seniors. Laboratory (USAF 0080 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.","Prerequisites/Corequisites: USAF 1010, USAF 1020, USAF 2030, USAF 2040/ USAF 0080 (Mandatory for AFROTC Cadets).",When Offered: 300 A (fall term) 300 B (spring term).,"['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 0080']","['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 0080']",Interdisciplinary and Other
+AEROSPACE STUDIES 100A,LEC,1,R,8:00AM,8:50AM,Daryl Kaocherpao Moua/Eric Matthew Rutledge,Low Center for Industrial Inn. 3039,35,21,14,USAF,2024-08-28,2024-12-20,FALL 2024,65168,1010,01,USAF-1010,Aerospace Studies 100A,"AS 100, Heritage and Values of the U.S. Air Force, is a survey course designed to introduce students to the United States Air Force and provides an overview of the basic characteristics, missions, and organization of the Air Force. Leadership Laboratory (USAF 0010 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.",,When Offered: 100 A (fall term) 100 B (spring term).,[],[],Interdisciplinary and Other
+AEROSPACE STUDIES 400A,LEC,3,W,7:00AM,9:50AM,Jake L Miller/Jennifer . Beckley,Alumni Sports and Rec Center 209,15,5,10,USAF,2024-08-28,2024-12-20,FALL 2024,65171,2070,01,USAF-2070,Aerospace Studies 400A,"AS 400, National Security Affairs/Preparation for Active Duty, is designed for college seniors and gives them the foundation to understand their role as military officers in American society. It is an overview of the complex social and political issues facing the military profession and requires a measure of sophistication commensurate with the senior college level. The final semester provides information that will prepare the cadets for Active Duty. Leadership Laboratory (USAF 0080 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.","Prerequisites/Corequisites: USAF 1010, USAF 1020, USAF 2030, USAF 2040, USAF 2050, USAF 2060/ USAF 0080 (Mandatory for AFROTC Cadets).",When Offered: 400 A (fall term) 400 B (spring term).,"['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 2060', 'USAF 0080']","['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 2060', 'USAF 0080']",Interdisciplinary and Other
+FUNAMENTALS OF MILITARY SCIENCE LAB I,LEC,0,R,2:00PM,4:20PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,25,1,24,USAR,2024-08-28,2024-12-20,FALL 2024,66494,0010,01,USAR-0010,Funamentals Of Military Science Lab I,"This course is an overview of leadership fundamentals such as setting direction, problem-solving, listening, presenting briefs, providing feedback, and using effective writing skills. Students explore dimensions of leadership values, attributes, skills, and actions in the context of practical, hands-on, and interactive exercises. Contents of the course are linked to USAR 1010. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
+APPLIED LEADERSHIP I,LEC,1,T,4:00PM,4:50PM,Donna Lee Carr,Alumni Sports and Rec Center 209,25,5,20,USAR,2024-08-28,2024-12-20,FALL 2024,65136,2010,01,USAR-2010,Applied Leadership I,"The course contains the principal leadership instruction of the Basic Course. The instruction delves into several aspects of communication and leadership theory. The use of practical exercise is emphasized, as students are increasingly required to apply communications and leadership concepts. The focus continues to build on developing knowledge of the leadership attributes and core leader competencies through the understanding of Army rank, structure, and duties as well as broadening knowledge of land navigation and infantry squad tactics. Case studies will provide a tangible context for learning and understanding the Soldier's Creed and Warrior Ethos. Upon completion of this semester, students should be well grounded in the fundamental principals of leadership and be prepared to intensify the practical application of their studies during the Advanced Course. Schedule will be posted in syllabus.",,,[],[],Interdisciplinary and Other
+APPLIED LEADERSHIP LAB I,LEC,0,R,2:00PM,4:20PM,Donna Lee Carr,Alumni Sports and Rec Center 209,25,2,23,USAR,2024-08-28,2024-12-20,FALL 2024,66495,0030,01,USAR-0030,Applied Leadership Lab I,"This course explores the dimensions of creative and innovative tactical leadership strategies and styles by examining team dynamics and two historical leadership theories that form the basis of the army leadership framework. Aspects of personal motivation and team building are practice planning, executing, and assessing team exercises. Contents of the course are linked to USAR 2010. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
 APPLIED MIL LEADERSHIP I,LEC,2,T,3:00PM,4:50PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,20,5,15,USAR,2024-08-28,2024-12-20,FALL 2024,65137,2060,01,USAR-2060,Applied Mil Leadership I,"In this course students will study, practice, and apply the fundamentals of Army leadership, Officership, Army values and ethics, personal development, and small unit tactics at the team and squad level. At the conclusion of this course, students will be capable of planning, coordinating, navigating, motivating, and leading a team or squad in the execution of a tactical mission during a classroom PE, a Leadership Lab, or during a Situational Training Exercise (STX) in a field environment. Successful completion of this course will help prepare students for success at the ROTC Leader Development and Assessment Course (LDAC) during the summer following the junior year. This course includes reading assignments, homework assignments, small group assignments, briefings, case studies, and practical exercises, a mid-term exam, and a final exam. Students will receive systematic and specific feedback on leader attributes values and core leader competencies from instructor and other ROTC cadre and MSL IV Cadets who will evaluate students using the ROTC Leader Development Program (LDP) model. The course closes with instruction in small unit battle drills to facilitate practical application and further leader development during labs and Situational Training Exercises.",,,[],[],Interdisciplinary and Other
 ADV MILITARY MGMT & LEADER I,LEC,2,M,2:00PM,4:20PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 407,20,1,19,USAR,2024-08-28,2024-12-20,FALL 2024,65138,4010,01,USAR-4010,Adv Military Mgmt & Leader I,"The course concentrates on leadership, management, and ethics. The course focuses students, early in the year, on attaining knowledge and proficiency in several critical areas they will need to operate effectively as Army officers. These areas include: Coordinate Activities with Staffs, Counseling Theory and Practice within the ""Army Context,"" Training Management, and Ethics. While proficiency attained in each of these areas will initially be at the apprentice level, students will continue to sharpen these skills as they perform their roles as cadet officers within the ROTC program and after commissioning. At the end of the course, students should possess the fundamental skills, attributes, and abilities to operate as competent leaders.",,,[],[],Interdisciplinary and Other
 ADV MILITARY MGMT & LEADER I,LEC,2,W,1:00PM,3:20PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,30,1,29,USAR,2024-08-28,2024-12-20,FALL 2024,68275,4010,02,USAR-4010,Adv Military Mgmt & Leader I,"The course concentrates on leadership, management, and ethics. The course focuses students, early in the year, on attaining knowledge and proficiency in several critical areas they will need to operate effectively as Army officers. These areas include: Coordinate Activities with Staffs, Counseling Theory and Practice within the ""Army Context,"" Training Management, and Ethics. While proficiency attained in each of these areas will initially be at the apprentice level, students will continue to sharpen these skills as they perform their roles as cadet officers within the ROTC program and after commissioning. At the end of the course, students should possess the fundamental skills, attributes, and abilities to operate as competent leaders.",,,[],[],Interdisciplinary and Other
 FUND OF MILITARY SCI I,LEC,1,W,4:00PM,4:50PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,25,1,24,USAR,2024-08-28,2024-12-20,FALL 2024,65135,1010,01,USAR-1010,Fund Of Military Sci I,"The course introduces students to fundamental components of service as an officer in the United States Army. These initial lessons are the building blocks of progressive lessons in values, fitness, leadership, and officership. Students will learn how the personal development of life skills such as cultural understanding, goal setting, time management, mental/physical resiliency, and stress management relate to leadership, officership, and the Army profession. The focus is on developing basic knowledge and comprehension of Army leadership attributes and core leader competencies while gaining an understanding of the ROTC program, its purpose in the Army, and its advantages for the student.",,,[],[],Interdisciplinary and Other
 APPL MILITARY LEADERSHIP LAB I,LEC,0,R,2:00PM,4:20PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,25,2,23,USAR,2024-08-28,2024-12-20,FALL 2024,66496,0050,01,USAR-0050,Appl Military Leadership Lab I,The purpose of this course is to develop basic leadership skills. The course has three objectives: teach cadets those aspects of the art of leadership and the science of warfare they will use as junior officers in the U.S. Army; prepare cadets for the Leadership Development and Assessment Course (LDAC); instill in cadets the values and ethos required to become leaders of character. Contents of the course are linked to USAR 2060. Labs are mandatory for contracted and enrolled Cadets.,,,[],[],Interdisciplinary and Other
 ADVANCED MILITARY MANAGEMENT AND LEADERSHIP LAB I,LEC,0,R,2:00PM,4:20PM,Donna Lee Carr/Andrew M Beal,Alumni Sports and Rec Center 209,25,1,24,USAR,2024-08-28,2024-12-20,FALL 2024,66497,0070,01,USAR-0070,Advanced Military Management And Leadership Lab I,"This course explores the dynamics of leading in the complex situations of current military operations in the Contemporary Operating Environment (COE). Students will examine differences in customs and courtesies, military law, principles of war, and rules of engagement in the face of international terrorism. Also explored are aspects of interacting with non-government organizations, civilians on the battlefield, and host nation support. The course places significant emphasis on preparing students for Basic Officer Leadership Course II and III, and for the first unit of assignment. It uses case studies, scenarios, and ""What now, Lieutenant?"" exercises to prepare students to face the complex ethical and practical demands of leading as a commissioned officer in the United States Army. Cadets are responsible for planning, rehearsing, and executing all ROTC events by performing duties similar to that of officers assigned to a battalion staff. Contents of the course are linked to USAR 4010. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
-DRILL/LABORATORY,LEC,0,W,2:00PM,3:50PM,Michael Wisotzkey,Darrin Communications Center 337,80,50,30,USNA,2024-08-28,2024-12-20,FALL 2024,68271,0010,01,USNA-0010,DRILL/LABORATORY,"Consists of one period each week lasting approximately two hours. The periods are spent conducting various activities, including military drill, athletics, lectures, and discussions on various topics of naval interest. Operating within a battalion organizational structure, students are given additional opportunities for leadership training and hands-on experience.","Prerequisite: an eight-semester (fall and spring) sequence, beginning each fall.",,[],[],Interdisciplinary and Other
-NAVAL LEADERSHIP & MGMT I,LEC,3,TF,10:00AM,11:50AM,Michael Wisotzkey/Jacqueline M. Bond,Alumni Sports and Rec Center 209,30,12,18,USNA,2024-08-28,2024-12-20,FALL 2024,65140,2030,01,USNA-2030,Naval Leadership & Mgmt I,"Comprehensive study of organization, leadership, and management with emphasis on the naval organization. Survey of the management process. Introduction to individual and small group behavior, decision making, responsibility, authority, and accountability. Extensive study of motivation, leadership, and communication. Application explored by case study and seminar discussions.",,When Offered: Fall term annually.,[],[],Interdisciplinary and Other
-INTRODUCTION TO NAVAL SCIENCE,LEC,3,MR,10:00AM,11:50AM,Kevin BonetLugo,Alumni Sports and Rec Center 209,25,18,7,USNA,2024-08-28,2024-12-20,FALL 2024,65139,1010,01,USNA-1010,Introduction To Naval Science,"The organization of the Department of Defense with emphasis on the Department of the Navy. This course provides a broad overview of all aspects of the operation and administration of today's Navy and Marine Corps. Additionally, the course will introduce naval topics such as rank structure, naval etiquette, naval history, naval warfare platforms and missions as well as basic naval leadership principles. The course will also cover basic military conduct and NROTC rules and regulations. Finally, the course will look at the role of the U.S. military in today's ever changing geopolitical climates and global conflicts.",,When Offered: Spring term annually,[],[],Interdisciplinary and Other
-NAVAL SHIPS SYSTEMS I,LEC,3,MR,8:00AM,9:50AM,Mark Yu Kersey,Alumni Sports and Rec Center 302,40,15,25,USNA,2024-08-28,2024-12-20,FALL 2024,68847,2040,01,USNA-2040,Naval Ships Systems I,"A familiarization course in naval engineering. Study of types, structure, and purpose of naval ships. Elements of ship design to achieve safe operations and ship stability characteristics are examined. Ship compartmentation, propulsion systems, auxiliary power systems, ship control systems, and elements of damage control are included.",,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
-NAVAL OPERATIONS,LEC,3,TF,8:00AM,9:50AM,Zack McLain,Alumni Sports and Rec Center 209,25,7,18,USNA,2024-08-28,2024-12-20,FALL 2024,68848,2060,01,USNA-2060,Naval Operations,"An introduction to the complexities of modern naval operations. Course emphasis includes fleet communications and communication security, naval tactics, relative motion, maneuvering board, and ship operations and control.",,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
+DRILL/LABORATORY,LEC,0,W,2:00PM,3:50PM,Michael Wisotzkey,Darrin Communications Center 337,80,56,24,USNA,2024-08-28,2024-12-20,FALL 2024,68271,0010,01,USNA-0010,DRILL/LABORATORY,"Consists of one period each week lasting approximately two hours. The periods are spent conducting various activities, including military drill, athletics, lectures, and discussions on various topics of naval interest. Operating within a battalion organizational structure, students are given additional opportunities for leadership training and hands-on experience.","Prerequisite: an eight-semester (fall and spring) sequence, beginning each fall.",,[],[],Interdisciplinary and Other
+NAVAL LEADERSHIP & MGMT I,LEC,3,TF,10:00AM,11:50AM,Michael Wisotzkey/Jacqueline M. Bond,Alumni Sports and Rec Center 209,30,13,17,USNA,2024-08-28,2024-12-20,FALL 2024,65140,2030,01,USNA-2030,Naval Leadership & Mgmt I,"Comprehensive study of organization, leadership, and management with emphasis on the naval organization. Survey of the management process. Introduction to individual and small group behavior, decision making, responsibility, authority, and accountability. Extensive study of motivation, leadership, and communication. Application explored by case study and seminar discussions.",,When Offered: Fall term annually.,[],[],Interdisciplinary and Other
+INTRODUCTION TO NAVAL SCIENCE,LEC,3,MR,10:00AM,11:50AM,Kevin BonetLugo,Alumni Sports and Rec Center 209,25,24,1,USNA,2024-08-28,2024-12-20,FALL 2024,65139,1010,01,USNA-1010,Introduction To Naval Science,"The organization of the Department of Defense with emphasis on the Department of the Navy. This course provides a broad overview of all aspects of the operation and administration of today's Navy and Marine Corps. Additionally, the course will introduce naval topics such as rank structure, naval etiquette, naval history, naval warfare platforms and missions as well as basic naval leadership principles. The course will also cover basic military conduct and NROTC rules and regulations. Finally, the course will look at the role of the U.S. military in today's ever changing geopolitical climates and global conflicts.",,When Offered: Spring term annually,[],[],Interdisciplinary and Other
+NAVAL SHIPS SYSTEMS I,LEC,3,MR,8:00AM,9:50AM,Mark Yu Kersey,Alumni Sports and Rec Center 302,40,14,26,USNA,2024-08-28,2024-12-20,FALL 2024,68847,2040,01,USNA-2040,Naval Ships Systems I,"A familiarization course in naval engineering. Study of types, structure, and purpose of naval ships. Elements of ship design to achieve safe operations and ship stability characteristics are examined. Ship compartmentation, propulsion systems, auxiliary power systems, ship control systems, and elements of damage control are included.",,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
+NAVAL OPERATIONS,LEC,3,TF,8:00AM,9:50AM,Zack McLain,Alumni Sports and Rec Center 209,25,8,17,USNA,2024-08-28,2024-12-20,FALL 2024,68848,2060,01,USNA-2060,Naval Operations,"An introduction to the complexities of modern naval operations. Course emphasis includes fleet communications and communication security, naval tactics, relative motion, maneuvering board, and ship operations and control.",,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
diff --git a/rpi_data/modules/no_login.py b/rpi_data/modules/no_login.py
index d6ca8a853..58bbe3ac3 100644
--- a/rpi_data/modules/no_login.py
+++ b/rpi_data/modules/no_login.py
@@ -12,6 +12,7 @@
 import goldy_parse as gold
 import regex as re
 import os
+import sys
 
 '''
 Finds all of the course codes for a given term and subject.
@@ -335,6 +336,7 @@ def no_login_scrape(term: str, num_browsers: int):
     parent = os.path.abspath(os.path.join(dir_path, os.pardir))
     path = os.path.join(parent, number_to_term(term).lower().replace(" ", "-") + ".csv")
     old.writeCSV(courses, path)
+    os.system(f'send_courses_to_api.py {path}')
 
 '''
 Scrapes the prerequisites for multiple courses at once.
@@ -366,9 +368,35 @@ def add_goldy_info(course: Course, goldy_info: dict):
         course.raw = goldy_info[checking]
     else:
         course.raw = "Prerequisites: " + goldy_info[checking]
-        
+
+def get_input():
+    if len(sys.argv) != 3:
+        sys.exit("Not enough or too many arguments (2 expected)")
+    year = sys.argv[2]
+    if not year.isdigit():
+        sys.exit(f"Invalid year: {year}")
+    elif int(year) < 1824 or int(year) > 2100:
+        sys.exit(f"Year is too big or too small: {year}")
+    semester = sys.argv[1]
+    compound = year
+    if semester == 'SPRING':
+        compound += '01'
+    elif semester == 'FALL':
+        compound += '09'
+    elif semester == 'SUMMER':
+        compound += '05'
+    elif semester == 'WINTER':
+        compound += '12'
+    elif semester == 'HARTFORD':
+        compound += '10'
+    else:
+        sys.exit(f"Invalid Semester: {semester}. Valid options are SPRING/FALL/SUMMER/WINTER/HARTFORD")
+    return compound
+
 if __name__ == "__main__":
-    no_login_scrape("202409", 15)
+    compound = get_input()
+    print(compound)
+    no_login_scrape(compound, 15)
     #driver = webdriver.Firefox()
     #print(cs.scrape_single_course(driver, "CSCI", "1100", 202409))
     #print(link_scrape("202409", "https://sis.rpi.edu/rss/bwckctlg.p_disp_listcrse?term_in=202409&subj_in=CHME&crse_in=4980&schd_in=L", "CHME"))
diff --git a/rpi_data/modules/no_login_documentation.txt b/rpi_data/modules/no_login_documentation.txt
new file mode 100644
index 000000000..3a34ad7fc
--- /dev/null
+++ b/rpi_data/modules/no_login_documentation.txt
@@ -0,0 +1,9 @@
+Use:
+
+python no_login.py semester year
+
+Year should be formatted as YYYY (ex: 2024)
+
+Semester is SPRING/FALL/SUMMER/WINTER/HARTFORD. Must be capitalized.
+
+I know nothing about the rest of no_login.py, I didn't write it.
\ No newline at end of file
diff --git a/rpi_data/modules/send_courses_to_api.py b/rpi_data/modules/send_courses_to_api.py
new file mode 100644
index 000000000..fb06e7346
--- /dev/null
+++ b/rpi_data/modules/send_courses_to_api.py
@@ -0,0 +1,15 @@
+import sys
+import requests
+
+csv_loc = sys.argv[1]
+
+url = 'http://localhost:8080/api/bulkCourseUpload'
+
+
+content = {
+        'isPubliclyVisible': (None, "on"),
+        'file': (open(csv_loc, 'rb')),
+    }
+
+response = requests.post(url,files=content)
+print(response.text)
\ No newline at end of file
diff --git a/rpi_data/spring-2024.csv b/rpi_data/spring-2024.csv
new file mode 100644
index 000000000..de645a17a
--- /dev/null
+++ b/rpi_data/spring-2024.csv
@@ -0,0 +1,2532 @@
+course_name,course_type,course_credit_hours,course_days_of_the_week,course_start_time,course_end_time,course_instructor,course_location,course_max_enroll,course_enrolled,course_remained,course_department,course_start_date,course_end_date,semester,course_crn,course_level,course_section,short_name,full_name,description,raw_precoreqs,offer_frequency,prerequisites,corequisites,school
+DIGITAL CONSTRUCTS 4,LEC,2,W,2:00PM,3:50PM,Matthew Joseph Lopez,Darrin Communications Center 308,80,19,61,ARCH,2024-01-08,2024-04-24,SPRING 2024,92977,2550,01,ARCH-2550,Digital Constructs 4,"Building on techniques taught in Digital Constructs 3, this course will expand upon the role of technology in architecture by introducing advanced methods of design analysis and resolution. Students will learn to address issues of optimization, environmental surroundings, structure, and site by using various contemporary analytic software programs. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 4 will be between the Digital Constructs 4 faculty instructor and the second-year architectural design studio coordinator and faculty.",Prerequisite: ARCH 2540; Corequisite: ARCH 2830,When Offered: Spring term annually.,"['ARCH 2540', 'ARCH 2830']","['ARCH 2540', 'ARCH 2830']",Architecture
+DIGITAL CONSTRUCTS 4,LEC,2,W,4:00PM,5:50PM,Edwin Jhinang Liu,Jonsson Engineering Center 4309,25,21,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,93951,2550,02,ARCH-2550,Digital Constructs 4,"Building on techniques taught in Digital Constructs 3, this course will expand upon the role of technology in architecture by introducing advanced methods of design analysis and resolution. Students will learn to address issues of optimization, environmental surroundings, structure, and site by using various contemporary analytic software programs. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 4 will be between the Digital Constructs 4 faculty instructor and the second-year architectural design studio coordinator and faculty.",Prerequisite: ARCH 2540; Corequisite: ARCH 2830,When Offered: Spring term annually.,"['ARCH 2540', 'ARCH 2830']","['ARCH 2540', 'ARCH 2830']",Architecture
+DIGITAL CONSTRUCTS 4,LEC,2,W,2:00PM,3:50PM,Hseng Tai Ja Reng Lintner,Lally Hall 102,25,20,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,94680,2550,03,ARCH-2550,Digital Constructs 4,"Building on techniques taught in Digital Constructs 3, this course will expand upon the role of technology in architecture by introducing advanced methods of design analysis and resolution. Students will learn to address issues of optimization, environmental surroundings, structure, and site by using various contemporary analytic software programs. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 4 will be between the Digital Constructs 4 faculty instructor and the second-year architectural design studio coordinator and faculty.",Prerequisite: ARCH 2540; Corequisite: ARCH 2830,When Offered: Spring term annually.,"['ARCH 2540', 'ARCH 2830']","['ARCH 2540', 'ARCH 2830']",Architecture
+DIGITAL CONSTRUCTS 4,LEC,2,W,4:00PM,5:50PM,Ryosuke Imaeda,Greene Building 120,25,18,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94938,2550,04,ARCH-2550,Digital Constructs 4,"Building on techniques taught in Digital Constructs 3, this course will expand upon the role of technology in architecture by introducing advanced methods of design analysis and resolution. Students will learn to address issues of optimization, environmental surroundings, structure, and site by using various contemporary analytic software programs. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 4 will be between the Digital Constructs 4 faculty instructor and the second-year architectural design studio coordinator and faculty.",Prerequisite: ARCH 2540; Corequisite: ARCH 2830,When Offered: Spring term annually.,"['ARCH 2540', 'ARCH 2830']","['ARCH 2540', 'ARCH 2830']",Architecture
+COMPREHENSIVE DESIGN 2 CMPTNG,LEC,0,W,,,Emily Gruendel,TBA,60,47,13,ARCH,2024-01-08,2024-04-24,SPRING 2024,94940,4964,01,ARCH-4964,Comprehensive Design 2 Cmptng,,,,[],[],Architecture
+PROFESSIONAL PRACTICE 2,LEC,2,T,6:00PM,7:50PM,David Jonathon Pacheco/Adam Francis Petela,Greene Building 120,5,4,1,ARCH,2024-01-08,2024-04-24,SPRING 2024,93167,5390,01,ARCH-5390,Professional Practice 2,"This course covers topics that are essential to developing an effective professional architectural practice. The course will address professional obligations and ethics, contracts, registration, office organization, and management. The course will emphasize effective communication, negotiating, public speaking, and team development. This course is required of all architecture graduate students in the M.Arch. program.",Prerequisite: ARCH 5380,When Offered: Spring term annually.,['ARCH 5380'],['ARCH 5380'],Architecture
+SONICS RESEARCH LAB 2,LEC,2,W,9:00AM,10:50AM,Ning Xiang,Greene Building 204,20,4,16,ARCH,2024-01-08,2024-04-24,SPRING 2024,90379,6880,01,ARCH-6880,Sonics Research Lab 2,"The second semester of the Sonics Research Lab includes advanced acoustical measurement techniques. Another important part of the semester curriculum concerns noise sources, noise control, and vibration measurements. State-of-the-art, commercial software and school research-based software will be used for simulation/analysis/measurement of room acoustics in order to show the students how such technical tools assist in acoustics research and consulting practice for the design of performance and public spaces. The course will also give students a deeper theoretical understanding of architectural acoustics in order to assist them in room acoustics research. There will also be labs to reflect typical measurement procedures and (if time permits) site visits to acoustics research labs and different types of acoustical spaces. The Sonics Research Lab II emphasizes more training on independent hands-on and problem-solving skills (than the SRL I).  B.S. and B.Arch., and other school students can only register for the 4000 level of this course and M.S.Arch. students must register only for the 6000 level of this course.",Prerequisite: ARCH 6870/ARCH 4870 or instructor approval,When Offered: Spring term annually.,"['ARCH 6870', 'ARCH 4870']","['ARCH 6870', 'ARCH 4870']",Architecture
+ARTIF. INTEL. IMAGINING ARCH,LEC,2,T,12:00PM,1:50PM,Ciro Najle,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,95118,6967,01,ARCH-6967,ARTIF. INTEL. Imagining Arch,,,,[],[],Architecture
+BEDFORD SEMINAR,LEC,3,W,12:00PM,1:50PM,James Norman Richardson,Russell Sage Laboratory 3705,10,5,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,92495,4020,01,ARCH-4020,Bedford Seminar,"This interdisciplinary seminar consists of students from both the School of Architecture and Civil Engineering department. Presentation of a variety of structural typologies bears direct relation to practical experience and the necessity for constructive interdisciplinary discourse. Specific structural typologies are examined through historic and contemporary project examples that are critically deconstructed and critically analyzed with respect to their basic engineering principles and architectural concepts. Students will be exposed to the collaborative methods inherent within the architect/engineer relationship. The course consists of lectures concerning each topic, case studies, and presentations of relevant projects, an interdisciplinary design project and discussion of the projects and presentations with respect to interdisciplinary discourse. Content and delivery may vary by instructor. Taught with CIVL 4020.",Prerequisites/Corequisites: ARCH 2330 and ARCH 4330,When Offered: Fall and spring terms annually.,"['ARCH 2330', 'ARCH 4330']","['ARCH 2330', 'ARCH 4330']",Architecture
+STRUCTURES 2,LEC,3,TF,10:00AM,11:20AM,Marc Anthony Tatarsky,Darrin Communications Center 236,10,9,1,ARCH,2024-01-08,2024-04-24,SPRING 2024,94244,4330,01,ARCH-4330,Structures 2,"This course builds on the material presented in Structures 1, with an emphasis on the analysis and design of structures compressed primarily of steel and site cast and pre-cast concrete, with an overview of load-bearing masonry and advanced systems. The theoretical concepts covered in the introduction course form the conceptual basis for work in Structures 2, with relevant new concepts/techniques covered. Innovative, non-normative structural systems are investigated and discussed. Analysis and design will proceed using primarily computer-aided techniques. The course approach will involve in-class presentations, homework and project work, computer lab, field trips, and case studies. WebCT will be used to expand the student's access to course materials and allow for a measure of distance learning. Sustainability: The following notions are introduced as important attributes of sustainable structures and construction: structural robustness, and programmatic flexibility. (Design optimization approaches are introduced and explored as avenues to accomplish more optimum design conditions under increasingly strict design constraints.)","Prerequisites: ARCH 2510 except M.Arch. students, ARCH 2350, ARCH 2330",When Offered: Fall term annually.,"['ARCH 2510', 'ARCH 2350', 'ARCH 2330']","['ARCH 2510', 'ARCH 2350', 'ARCH 2330']",Architecture
+INTEGRATED DESIGN DEVELOPMENT STUDIO,LEC,5,MWR,2:00PM,5:50PM,Lonn J. Combs,Greene Building STU,60,8,52,ARCH,2024-01-08,2024-04-24,SPRING 2024,93192,4830,01,ARCH-4830,Integrated Design Development Studio,"This studio is a technology-based design studio emphasizing the materialization and making of architectural design projects. The integration of building code requirements for fire protection, life safety, accessibility, building environmental systems, structure, construction, and materiality is central to the effective achievement of design intent. Students become aware of how these issues affect and inform design decisions. They learn to integrate technology, systems, and materials in the comprehensive resolution of building design and gain exposure to construction documents and design documentation. Construction and site visits are an integral part of the studio as is an integrated electronic media seminar on CAD applications. This course is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4820,When Offered: Fall and Spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+INTEGRATED DESIGN DEVELOPMENT STUDIO,LEC,5,MWR,2:00PM,5:50PM,Arta Yazdanseta,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,93955,4830,02,ARCH-4830,Integrated Design Development Studio,"This studio is a technology-based design studio emphasizing the materialization and making of architectural design projects. The integration of building code requirements for fire protection, life safety, accessibility, building environmental systems, structure, construction, and materiality is central to the effective achievement of design intent. Students become aware of how these issues affect and inform design decisions. They learn to integrate technology, systems, and materials in the comprehensive resolution of building design and gain exposure to construction documents and design documentation. Construction and site visits are an integral part of the studio as is an integrated electronic media seminar on CAD applications. This course is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4820,When Offered: Fall and Spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+INTEGRATED DESIGN DEVELOPMENT STUDIO,LEC,5,MWR,2:00PM,5:50PM,Michael Todd Stradley,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,93956,4830,03,ARCH-4830,Integrated Design Development Studio,"This studio is a technology-based design studio emphasizing the materialization and making of architectural design projects. The integration of building code requirements for fire protection, life safety, accessibility, building environmental systems, structure, construction, and materiality is central to the effective achievement of design intent. Students become aware of how these issues affect and inform design decisions. They learn to integrate technology, systems, and materials in the comprehensive resolution of building design and gain exposure to construction documents and design documentation. Construction and site visits are an integral part of the studio as is an integrated electronic media seminar on CAD applications. This course is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4820,When Offered: Fall and Spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+INTEGRATED DESIGN DEVELOPMENT STUDIO,LEC,5,MWR,2:00PM,3:50PM,Leandro Piazzi,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94667,4830,04,ARCH-4830,Integrated Design Development Studio,"This studio is a technology-based design studio emphasizing the materialization and making of architectural design projects. The integration of building code requirements for fire protection, life safety, accessibility, building environmental systems, structure, construction, and materiality is central to the effective achievement of design intent. Students become aware of how these issues affect and inform design decisions. They learn to integrate technology, systems, and materials in the comprehensive resolution of building design and gain exposure to construction documents and design documentation. Construction and site visits are an integral part of the studio as is an integrated electronic media seminar on CAD applications. This course is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4820,When Offered: Fall and Spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+INTEGRATED DESIGN DEVELOPMENT STUDIO,LEC,5,MWR,2:00PM,5:50PM,Emily Gruendel,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94951,4830,05,ARCH-4830,Integrated Design Development Studio,"This studio is a technology-based design studio emphasizing the materialization and making of architectural design projects. The integration of building code requirements for fire protection, life safety, accessibility, building environmental systems, structure, construction, and materiality is central to the effective achievement of design intent. Students become aware of how these issues affect and inform design decisions. They learn to integrate technology, systems, and materials in the comprehensive resolution of building design and gain exposure to construction documents and design documentation. Construction and site visits are an integral part of the studio as is an integrated electronic media seminar on CAD applications. This course is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4820,When Offered: Fall and Spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+INTEGRATED DESIGN DEVELOPMENT STUDIO,LEC,5,MWR,2:00PM,3:50PM,Adam Francis Petela,Greene Building STU,15,9,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,94952,4830,06,ARCH-4830,Integrated Design Development Studio,"This studio is a technology-based design studio emphasizing the materialization and making of architectural design projects. The integration of building code requirements for fire protection, life safety, accessibility, building environmental systems, structure, construction, and materiality is central to the effective achievement of design intent. Students become aware of how these issues affect and inform design decisions. They learn to integrate technology, systems, and materials in the comprehensive resolution of building design and gain exposure to construction documents and design documentation. Construction and site visits are an integral part of the studio as is an integrated electronic media seminar on CAD applications. This course is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4820,When Offered: Fall and Spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+RES INVESTIGATIONS: PROJBUILT,LEC,4,F,10:00AM,12:50PM,Joshua William Hugo Draper,TBA,20,9,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,92062,4936,80,ARCH-4936,Res INVESTIGATIONS: Projbuilt,,,,[],[],Architecture
+LIGHTING WORKSHOP,LEC,4,TF,2:00PM,3:50PM,Nadarajah Narendran/Jean Paul Freyssinier/Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,12,5,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94292,4965,01,ARCH-4965,Lighting Workshop,,,,[],[],Architecture
+AURAL ARCHITECTURE,LEC,3,T,10:00AM,12:50PM,Jonas Braasch,Greene Building 204,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,91861,6890,01,ARCH-6890,Aural Architecture,"In this course, design processes in architectural acoustics will be studied from a psychoacoustical perspective. Different concepts to create physical and virtual acoustic spaces will be discussed based on perceptual design goals. Topics include ecological psychoacoustics, sound quality, auditory virtual environments, and auditory computational modeling.",Prerequisite: ARCH 6860,When Offered: Spring term annually.,['ARCH 6860'],['ARCH 6860'],Architecture
+INTERACTIVE OPERA,LEC,2,M,6:30PM,8:30PM,Ted Krueger,Greene Building STU,10,5,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,94944,4966,01,ARCH-4966,Interactive Opera,,,,[],[],Architecture
+BUILT ECOLOGIES 2,LEC,3,F,2:00PM,5:00PM,Emir Aykut Pekdemir,TBA,20,1,19,ARCH,2024-01-08,2024-04-24,SPRING 2024,93709,6330,80,ARCH-6330,Built Ecologies 2,"In this seminar, students develop and analyze an ecologically sensitive built system related to their thesis topic with particular attention to the architectural, social, and political implications of the work and their inter-relationships. An awareness of the political and economic forces that are instrumental in the development of contemporary built ecologies creates opportunities for innovation in the cultures of making. Course taught in New York City.","Prerequisites: ARCH 6310, ARCH 6320, or departmental approval",When Offered: Spring term annually.,"['ARCH 6310', 'ARCH 6320']","['ARCH 6310', 'ARCH 6320']",Architecture
+GRADUATE THESIS SEMINAR,LEC,2,W,2:30PM,4:20PM,Tulay Atak,TBA,10,2,8,ARCH,2024-01-08,2024-04-24,SPRING 2024,92347,6900,80,ARCH-6900,Graduate Thesis Seminar,Readings and discussion of topical materials that are selected to place graduate projects and theses in a comprehensive context.,,When Offered: Fall and spring terms annually.,[],[],Architecture
+RELATIONSHIP BTWN FILM & ARCH,LEC,2,R,12:00PM,1:50PM,Anthony Titus,Troy Building 2015,5,1,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,94023,6969,01,ARCH-6969,Relationship Btwn Film & Arch,,,,[],[],Architecture
+ENVIRONMENTAL AND ECOL SYSTEM,LEC,4,MR,8:00AM,9:50AM,Michael Todd Stradley,Carnegie Building 113,90,44,46,ARCH,2024-01-08,2024-04-24,SPRING 2024,90331,2360,01,ARCH-2360,Environmental And Ecol System,"An exploration of the fundamental principles of human physiology, thermal and luminous comfort, and indoor quality. Emphasis is on bioclimatic and psychrometric climate analysis and its relationship to architectural design, understanding the energy exchange between body in space, the natural meaning of enclosures, and nonstructural materials and systems. The focus is on passive heating, cooling, and daylighting systems and their design. Exercises include vital sign analysis of existing spaces (thermal, air, luminous), forming hypotheses of building performance, using scientific instrumentation, tenant survey techniques, and physical modeling and simulation techniques related to daylighting and shading techniques.",Prerequisites: ARCH 2370 Corequisites: ARCH 2830,When Offered: Spring term annually.,['ARCH 2370'],['ARCH 2370'],Architecture
+ENVIRONMENTAL AND  ECOL SYSTEM,LEC,4,MR,8:00AM,9:50AM,Emir Aykut Pekdemir,Carnegie Building 106,40,35,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,94936,2360,02,ARCH-2360,Environmental And Ecol System,"An exploration of the fundamental principles of human physiology, thermal and luminous comfort, and indoor quality. Emphasis is on bioclimatic and psychrometric climate analysis and its relationship to architectural design, understanding the energy exchange between body in space, the natural meaning of enclosures, and nonstructural materials and systems. The focus is on passive heating, cooling, and daylighting systems and their design. Exercises include vital sign analysis of existing spaces (thermal, air, luminous), forming hypotheses of building performance, using scientific instrumentation, tenant survey techniques, and physical modeling and simulation techniques related to daylighting and shading techniques.",Prerequisites: ARCH 2370 Corequisites: ARCH 2830,When Offered: Spring term annually.,['ARCH 2370'],['ARCH 2370'],Architecture
+ARCHITECTURAL ACOUSTICS 2,LEC,4,F,2:00PM,5:50PM,David William Kahn,Greene Building 204,15,4,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,91446,4850,01,ARCH-4850,Architectural Acoustics 2,"In the spring semester, students will have the opportunity to design their own performance hall. This process will include continued studies of acoustics measurements, simulated sound fields, community noise issues, and professional practice in acoustics consulting. The course will also have detailed lectures on concert hall acoustics, sound quality, and synthesized sound fields. Students will be introduced to a variety of simulation software and measurement equipment in the Acoustics Research Laboratory. After both Architectural Acoustics 1 and 2, the student should be prepared for a basic entry-level position in either acoustics in architecture or in acoustical consulting.",Prerequisite: ARCH 4840 or instructor approval,When Offered: Spring term annually.,['ARCH 4840'],['ARCH 4840'],Architecture
+ARTIF. INTEL. IMAGINING ARCH,LEC,2,T,12:00PM,1:50PM,Ciro Najle,Greene Building STU,10,4,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,94945,4967,01,ARCH-4967,ARTIF. INTEL. Imagining Arch,,,,[],[],Architecture
+GEO-ACTORS II,LEC,3,T,10:00AM,12:50PM,Cathryn M Dwyre,TBA,12,2,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94286,4967,80,ARCH-4967,GEO-ACTORS Ii,,,,[],[],Architecture
+MATERIAL SYSTEMS & PRODUCTIONS,LEC,3,M,10:00AM,1:00PM,Joshua William Hugo Draper,TBA,20,0,20,ARCH,2024-01-08,2024-04-24,SPRING 2024,94666,6340,80,ARCH-6340,Material Systems & Productions,"The goal of Material Systems and Production is threefold: to develop a fundamental understanding of materials through first principles, material classification, material production, and material impacts, to develop material models based on material properties and tests, and to develop criteria to make reasoned choices for the implementation of materials in the built environment. Students will engage in directed research projects through the lens of material with the intent of opportunistically identifying intrinsic material properties, exploiting production forming logics, and developing a prototype detail assembly for testing. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.",,When Offered: Fall term annually.,[],[],Architecture
+DOCTORAL SEMINAR 1,LEC,2,,,,TBA,TBA,5,0,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,93165,6910,01,ARCH-6910,Doctoral Seminar 1,"This seminar introduces a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",,When Offered: Fall and spring terms annually.,[],[],Architecture
+DOCTORAL SEMINAR 1,LEC,2,,,,Nadarajah Narendran,TBA,5,0,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,92647,6910,02,ARCH-6910,Doctoral Seminar 1,"This seminar introduces a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",,When Offered: Fall and spring terms annually.,[],[],Architecture
+DOCTORAL SEMINAR 1,LEC,2,R,6:00PM,7:50PM,Jonas Braasch,Low Center for Industrial Inn. 3116,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,93779,6910,03,ARCH-6910,Doctoral Seminar 1,"This seminar introduces a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",,When Offered: Fall and spring terms annually.,[],[],Architecture
+"ENERGY, COMFORT & ECOLOGY",LEC,2,W,10:00AM,11:50AM,John Clifford Loercher,Carnegie Building 113,90,48,42,ARCH,2024-01-08,2024-04-24,SPRING 2024,92618,2370,01,ARCH-2370,"ENERGY, Comfort & Ecology","This course addresses fundamental principles relating the environmental context to human needs and comfort. Topics include the principles of thermodynamics at the architectural scale, optimization versus variability, principles of building sites and orientations, psychometrics, and human comfort, and an introduction to energy modeling. This course is required of all students in the B.Arch. degree program.",,When Offered: Spring term annually.,[],[],Architecture
+"ENERGY, COMFORT & ECOLOGY",LEC,2,W,10:00AM,11:50AM,Arta Yazdanseta,Pittsburgh Building 5216,40,41,-1,ARCH,2024-01-08,2024-04-24,SPRING 2024,94369,2370,02,ARCH-2370,"ENERGY, Comfort & Ecology","This course addresses fundamental principles relating the environmental context to human needs and comfort. Topics include the principles of thermodynamics at the architectural scale, optimization versus variability, principles of building sites and orientations, psychometrics, and human comfort, and an introduction to energy modeling. This course is required of all students in the B.Arch. degree program.",,When Offered: Spring term annually.,[],[],Architecture
+ARCHITECTURAL CASE STUDIES,LEC,2,T,10:00AM,11:50AM,Yael Erel,Darrin Communications Center 337,90,21,69,ARCH,2024-01-08,2024-04-24,SPRING 2024,92650,4090,01,ARCH-4090,Architectural Case Studies,"Works of architecture embody knowledge, ideas, and imagination that express formally, spatially, and materially the ways of living and values of the civilizations in which they occur. In continuing the inquiry begun in The Ethos of Architecture and employing the skills and values acquired in that course and Architectural Media, the intent of this course is to teach students the means for investigating buildings coherently, rationally, and interpretively to understand the technical and cultural knowledge embedded within works of architecture. A select number of modern and contemporary buildings that represent a high degree of sophistication in the way their architects have approached the breadth of design issues both within and external to the programs of those works will be analyzed critically in order to ascertain the significance and relationships of the multiple systems of order inherent to a work of architecture.","Prerequisites: ARCH 2150, ARCH 2160",When Offered: Spring term annually.,"['ARCH 2150', 'ARCH 2160']","['ARCH 2150', 'ARCH 2160']",Architecture
+ARCHITECTURAL CASE STUDIES,LEC,2,T,10:00AM,11:50AM,Leandro Piazzi,Peoples Ave Complex J 3402,24,18,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,93952,4090,02,ARCH-4090,Architectural Case Studies,"Works of architecture embody knowledge, ideas, and imagination that express formally, spatially, and materially the ways of living and values of the civilizations in which they occur. In continuing the inquiry begun in The Ethos of Architecture and employing the skills and values acquired in that course and Architectural Media, the intent of this course is to teach students the means for investigating buildings coherently, rationally, and interpretively to understand the technical and cultural knowledge embedded within works of architecture. A select number of modern and contemporary buildings that represent a high degree of sophistication in the way their architects have approached the breadth of design issues both within and external to the programs of those works will be analyzed critically in order to ascertain the significance and relationships of the multiple systems of order inherent to a work of architecture.","Prerequisites: ARCH 2150, ARCH 2160",When Offered: Spring term annually.,"['ARCH 2150', 'ARCH 2160']","['ARCH 2150', 'ARCH 2160']",Architecture
+ARCHITECTURAL CASE STUDIES,LEC,2,T,10:00AM,11:50AM,Per S. Svedberg,TBA,24,21,3,ARCH,2024-01-08,2024-04-24,SPRING 2024,94113,4090,03,ARCH-4090,Architectural Case Studies,"Works of architecture embody knowledge, ideas, and imagination that express formally, spatially, and materially the ways of living and values of the civilizations in which they occur. In continuing the inquiry begun in The Ethos of Architecture and employing the skills and values acquired in that course and Architectural Media, the intent of this course is to teach students the means for investigating buildings coherently, rationally, and interpretively to understand the technical and cultural knowledge embedded within works of architecture. A select number of modern and contemporary buildings that represent a high degree of sophistication in the way their architects have approached the breadth of design issues both within and external to the programs of those works will be analyzed critically in order to ascertain the significance and relationships of the multiple systems of order inherent to a work of architecture.","Prerequisites: ARCH 2150, ARCH 2160",When Offered: Spring term annually.,"['ARCH 2150', 'ARCH 2160']","['ARCH 2150', 'ARCH 2160']",Architecture
+ARCHITECTURAL CASE STUDIES,LEC,2,T,10:00AM,11:50AM,Benjamin Vanmuysen,Russell Sage Laboratory 2112,24,20,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,94114,4090,04,ARCH-4090,Architectural Case Studies,"Works of architecture embody knowledge, ideas, and imagination that express formally, spatially, and materially the ways of living and values of the civilizations in which they occur. In continuing the inquiry begun in The Ethos of Architecture and employing the skills and values acquired in that course and Architectural Media, the intent of this course is to teach students the means for investigating buildings coherently, rationally, and interpretively to understand the technical and cultural knowledge embedded within works of architecture. A select number of modern and contemporary buildings that represent a high degree of sophistication in the way their architects have approached the breadth of design issues both within and external to the programs of those works will be analyzed critically in order to ascertain the significance and relationships of the multiple systems of order inherent to a work of architecture.","Prerequisites: ARCH 2150, ARCH 2160",When Offered: Spring term annually.,"['ARCH 2150', 'ARCH 2160']","['ARCH 2150', 'ARCH 2160']",Architecture
+SKIN DEEP,LEC,2,R,10:00AM,11:50AM,Marcus Carter,Greene Building STU,10,5,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,94946,4968,01,ARCH-4968,Skin Deep,,,,[],[],Architecture
+STRUCTURES 2,LEC,3,TF,10:00AM,11:20AM,Marc Anthony Tatarsky,Darrin Communications Center 236,5,1,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,95299,5150,01,ARCH-5150,Structures 2,This is an intermediate course to structures that presents the load transfers of gravity and lateral forces in building systems. The course demonstrates the principles of analyses and design of steel and reinforced concrete elements. The course also outlines the concepts of compression and/or tension structures. Structural principles are reinforced by building physical models.,Prerequisite: ARCH 5140,When Offered: Fall term annually.,['ARCH 5140'],['ARCH 5140'],Architecture
+DOCTORAL SEMINAR 2,LEC,2,,,,Nadarajah Narendran,TBA,5,0,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,92648,6920,02,ARCH-6920,Doctoral Seminar 2,"This seminar builds upon Doctoral Seminar 1 by cultivating a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",Prerequisites/Corequisites: ARCH 6910,When Offered: Spring and fall terms annually.,['ARCH 6910'],['ARCH 6910'],Architecture
+DOCTORAL SEMINAR 2,LEC,2,R,6:00PM,7:50PM,Jonas Braasch,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,93778,6920,03,ARCH-6920,Doctoral Seminar 2,"This seminar builds upon Doctoral Seminar 1 by cultivating a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",Prerequisites/Corequisites: ARCH 6910,When Offered: Spring and fall terms annually.,['ARCH 6910'],['ARCH 6910'],Architecture
+DOCTORAL SEMINAR 2,LEC,2,T,10:00AM,11:50AM,Alexandros Tsamis,Jonsson Engineering Center 3232,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,93967,6920,04,ARCH-6920,Doctoral Seminar 2,"This seminar builds upon Doctoral Seminar 1 by cultivating a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",Prerequisites/Corequisites: ARCH 6910,When Offered: Spring and fall terms annually.,['ARCH 6910'],['ARCH 6910'],Architecture
+DOCTORAL SEMINAR 2,LEC,2,T,10:10AM,12:00PM,Alexandros Tsamis,TBA,10,2,8,ARCH,2024-01-08,2024-04-24,SPRING 2024,94844,6920,80,ARCH-6920,Doctoral Seminar 2,"This seminar builds upon Doctoral Seminar 1 by cultivating a disciplinary-specific approach to the development of research problem definition and research methods. The topics considered will be drawn from and situated within the various fields of study that support doctoral study in architectural sciences, as well as from research activities in related fields in engineering, science, and the humanities. Case studies of prototypical architectural science research will evaluate current practice, identifying state of knowledge with the field and the resources and settings necessary to support the research activity.",Prerequisites/Corequisites: ARCH 6910,When Offered: Spring and fall terms annually.,['ARCH 6910'],['ARCH 6910'],Architecture
+MASTER'S PROJECT,LEC,1-9,F,10:00AM,12:50PM,Joshua William Hugo Draper,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94846,6980,03,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
+MASTER'S PROJECT,LEC,1-9,F,10:00AM,12:50PM,Alexandros Tsamis,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,92374,6980,80,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
+MASTER'S PROJECT,LEC,1-9,MR,2:00PM,5:50PM,Christopher S Perry,TBA,5,1,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,93706,6980,81,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
+AN ARCHITECTURAL GENEALOGY,LEC,3,MR,10:00AM,11:20AM,David H Bell,Greene Building 117,90,80,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,93447,4100,01,ARCH-4100,An Architectural Genealogy,"This course addresses the history of architectural and related developments in selected Western and non-Western civilizations in order to construct a conceptual and strategic understanding of the relationships between architecture, culture, civilization, technology, and thought. In doing so, it will focus on key constructed spatial phenomena of the pre-modern world and, where relevant, elucidate the connection of these works of architecture and their motivating ideals to those of the modern and contemporary world.",Prerequisite: ARCH 2150,When Offered: Spring term annually.,['ARCH 2150'],['ARCH 2150'],Architecture
+RELATIONSHIP BTWN FILM & ARCH,LEC,2,R,12:00PM,1:50PM,Anthony Titus,Troy Building 2015,10,8,2,ARCH,2024-01-08,2024-04-24,SPRING 2024,93003,4969,01,ARCH-4969,Relationship Btwn Film & Arch,,,,[],[],Architecture
+INTERDISCIPLINARY RESEARCH STUDIO,LEC,4,MR,2:30PM,6:20PM,Dennis Robert Shelden,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,93705,6360,80,ARCH-6360,Interdisciplinary Research Studio,"The studio addresses interdisciplinary exchange within research practice, understanding that buildings operate within complex dynamic systems. Buildings and their material systems are composed of interdependent systemic relationships at multiple scales - ‘Built Ecologies' - operating as metabolic systems within and upon existent natural and made systems. Design is a method of research, discovering and developing new systems and strategies transferable to many sites. Course taught in New York City.","Prerequisites: ARCH 6340 or equivalent, ARCH 6350 or equivalent, ARCH 6310 or equivalent, and ARCH 6320 or equivalent",When Offered: Spring term annually.,"['ARCH 6340', 'ARCH 6350', 'ARCH 6310', 'ARCH 6320']","['ARCH 6340', 'ARCH 6350', 'ARCH 6310', 'ARCH 6320']",Architecture
+AURAL ARCHITECTURE,LEC,3,T,10:00AM,12:50PM,Jonas Braasch,Greene Building 204,20,2,18,ARCH,2024-01-08,2024-04-24,SPRING 2024,93452,4880,01,ARCH-4880,Aural Architecture,"In this course, design processes in architectural acoustics will be studied from a psychoacoustical perspective. Different concepts to create physical and virtual acoustic spaces will be discussed based on perceptual design goals. Topics include ecological psychoacoustics, sound quality, auditory virtual environments, and auditory computational modeling.",Prerequisites/Corequisites: ARCH 4860,When Offered: Spring term annually.,['ARCH 4860'],['ARCH 4860'],Architecture
+SYSTEMS PROTOTYPING,LEC,3,R,10:00AM,12:50PM,James Fleet Hower,TBA,20,9,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,93711,4952,80,ARCH-4952,Systems Prototyping,,,,[],[],Architecture
+URBAN DATA II,LEC,3,W,10:00AM,12:50PM,James Fleet Hower,TBA,13,9,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,94304,4970,80,ARCH-4970,Urban Data Ii,,,,[],[],Architecture
+MASTER'S THESIS,LEC,1-12,,,,Ning Xiang,TBA,10,3,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,90442,6990,01,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+MASTER'S THESIS,LEC,1-12,,,,Jonas Braasch,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,90443,6990,02,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+MASTER'S THESIS,LEC,1-12,,,,Dennis Robert Shelden,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94289,6990,03,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+MASTER'S THESIS,LEC,1-12,F,10:00AM,12:50PM,Joshua William Hugo Draper,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94850,6990,05,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+MASTER'S THESIS,LEC,1-12,F,10:00AM,12:50PM,Alexandros Tsamis,TBA,10,2,8,ARCH,2024-01-08,2024-04-24,SPRING 2024,93710,6990,80,ARCH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+CONSTRUCTION INDUSTRY SEMR 2,LEC,2,R,12:00PM,1:50PM,Per S. Svedberg,Greene Building 204,15,2,13,ARCH,2024-01-08,2024-04-24,SPRING 2024,93448,4520,01,ARCH-4520,Construction Industry Semr 2,"This course continues the examination of the diverse and interconnected aspects of the construction industry as an essential context for realizing architecture. It surveys the history and current developments of the people, organizations, and professional and industry groups involved in design, construction, finance, insurance, and regulation of building. Current issues influencing design quality are identified by the class and are explored in a series of student-organized in-depth seminars with industry participants. This is required of all architecture undergraduates in the B.S. in Building Sciences program.",Prerequisite: ARCH 4510,When Offered: Spring term annually.,['ARCH 4510'],['ARCH 4510'],Architecture
+TRAVEL NARRATIVES,LEC,3,,,,Selma Cohen,TBA,9,9,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,95034,4956,90,ARCH-4956,Travel Narratives,,,,[],[],Architecture
+PARAMETRICS OF THE ENVIRONMENT,LEC,3,T,3:35PM,6:25PM,Charles A. Portelli,TBA,14,7,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94308,4971,80,ARCH-4971,Parametrics Of The Environment,,,,[],[],Architecture
+GRADUATE ENVIRONMENTAL PARAMETRICS,LEC,2,T,3:35PM,6:35PM,Charles A. Portelli,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94665,6380,80,ARCH-6380,Graduate Environmental Parametrics,"Environmental Parametrics is an intensive introductory course on visual scripting theory and methodology intended to give incoming students a foundational base in computational and parametric design modeling in order to supplement fall semester courses for new and incoming students into the Built Ecologies and Geofutures post professional programs without prior experience. The techniques presented in this course allow designers to integrate environmental data and simulations fluidly into 3D models and the design process. A new and progressively more complex topic is introduced each week, and each topic is presented with an associated design exercise. This course is taught in a seminar format with some instructor led tutorials and workshop content linked to dedicated breakout time for completing assignments and modeling. A devoted archive folder for downloading and uploading course material and completed exercises will be used for the course. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.",,When Offered: Fall term annually.,[],[],Architecture
+GRADUATE FINAL PROJECT,LEC,6,WR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,2,2,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,93174,6948,01,ARCH-6948,Graduate Final Project,"This design studio is the second required course of the two-semester, 3rd-year Graduate Final Project course sequence in the graduate M.Arch. program. The Graduate Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all third-year architecture graduate students in the M.Arch. program.",,When Offered: Spring term annually.,[],[],Architecture
+GRADUATE FINAL PROJECT,LEC,6,MW,2:00PM,5:50PM,Christopher S Perry,Greene Building STU,7,0,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94947,6948,02,ARCH-6948,Graduate Final Project,"This design studio is the second required course of the two-semester, 3rd-year Graduate Final Project course sequence in the graduate M.Arch. program. The Graduate Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all third-year architecture graduate students in the M.Arch. program.",,When Offered: Spring term annually.,[],[],Architecture
+GRADUATE FINAL PROJECT,LEC,6,MR,2:00PM,5:50PM,Hseng Tai Ja Reng Lintner,Greene Building STU,1,1,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94948,6948,03,ARCH-6948,Graduate Final Project,"This design studio is the second required course of the two-semester, 3rd-year Graduate Final Project course sequence in the graduate M.Arch. program. The Graduate Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all third-year architecture graduate students in the M.Arch. program.",,When Offered: Spring term annually.,[],[],Architecture
+GRADUATE FINAL PROJECT,LEC,6,MW,2:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,1,0,1,ARCH,2024-01-08,2024-04-24,SPRING 2024,94949,6948,04,ARCH-6948,Graduate Final Project,"This design studio is the second required course of the two-semester, 3rd-year Graduate Final Project course sequence in the graduate M.Arch. program. The Graduate Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all third-year architecture graduate students in the M.Arch. program.",,When Offered: Spring term annually.,[],[],Architecture
+GRADUATE FINAL PROJECT,LEC,6,MW,2:00PM,5:50PM,Christianna Grace Bennett,Greene Building STU,1,1,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94950,6948,05,ARCH-6948,Graduate Final Project,"This design studio is the second required course of the two-semester, 3rd-year Graduate Final Project course sequence in the graduate M.Arch. program. The Graduate Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all third-year architecture graduate students in the M.Arch. program.",,When Offered: Spring term annually.,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,M,10:00AM,11:50AM,Dennis Robert Shelden,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,93050,9990,01,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,,,,Ning Xiang,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,91289,9990,02,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,,,,Jonas Braasch,TBA,10,3,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,91082,9990,03,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,,,,Nadarajah Narendran,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,91067,9990,04,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,M,10:00AM,11:50AM,Arta Yazdanseta,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94851,9990,05,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+ARCHITECTURE DISSERTATION,LEC,1-15,M,10:00AM,11:50AM,Alexandros Tsamis,TBA,10,4,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,90499,9990,80,ARCH-9990,Architecture Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Architecture
+BUILDING SCIENCES CAPSTONE,LEC,5,MR,4:00PM,5:50PM,John Clifford Loercher,Greene Building STU,1,1,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94243,4530,01,ARCH-4530,Building Sciences Capstone,"This course offers the students the opportunity to demonstrate a comprehensive knowledge of issues and practices in an important subject within the building sciences through a self-initiated and faculty-directed independent design, research, or research/design project. This is required of all architecture undergraduates in the B.S. in Building Sciences program. This is a communication-intensive course.",Prerequisite or Corequisite: ARCH 4520,When Offered: Spring term annually.,['ARCH 4520'],['ARCH 4520'],Architecture
+LATIN AMERICA ARCH /URBANISM,LEC,3,,,,Selma Cohen,TBA,9,9,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94653,4957,90,ARCH-4957,Latin America Arch /URBANISM,,,,[],[],Architecture
+CONTEMPORARY DESIGN APPROACHES,LEC,3,W,10:00AM,12:50PM,Carla Leitao,Darrin Communications Center 337,90,27,63,ARCH,2024-01-08,2024-04-24,SPRING 2024,93217,4150,01,ARCH-4150,Contemporary Design Approaches,"Reflecting on the knowledge and understandings acquired in all the previous courses in the history, theory, and criticism sequence, this course is a critical inquiry into the principal ideologies and premises of the most substantive architectural practices in the contemporary world. As such, the content of the course must necessarily evolve as the intellectual and cultural parameters of both theory and practice in the contemporary world change. The principal aim of the critique of various contemporary positions is to reinforce in students the importance of developing and critically maintaining their own values, vision, and voice in the design and making of architecture that was initiated in ARCH 2150, The Ethos of Architecture. Fundamental to this process is to encourage the students' awareness of the necessity to challenge their own subjectivities, biases, and presuppositions.",Prerequisite: ARCH 4120,When Offered: Spring term annually.,['ARCH 4120'],['ARCH 4120'],Architecture
+CONTEMPORARY DESIGN APPROACHES,LEC,3,W,10:00AM,12:50PM,Emily Gruendel,Low Center for Industrial Inn. 3116,30,25,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,93953,4150,02,ARCH-4150,Contemporary Design Approaches,"Reflecting on the knowledge and understandings acquired in all the previous courses in the history, theory, and criticism sequence, this course is a critical inquiry into the principal ideologies and premises of the most substantive architectural practices in the contemporary world. As such, the content of the course must necessarily evolve as the intellectual and cultural parameters of both theory and practice in the contemporary world change. The principal aim of the critique of various contemporary positions is to reinforce in students the importance of developing and critically maintaining their own values, vision, and voice in the design and making of architecture that was initiated in ARCH 2150, The Ethos of Architecture. Fundamental to this process is to encourage the students' awareness of the necessity to challenge their own subjectivities, biases, and presuppositions.",Prerequisite: ARCH 4120,When Offered: Spring term annually.,['ARCH 4120'],['ARCH 4120'],Architecture
+CONTEMPORARY DESIGN APPROACHES,LEC,3,W,10:00AM,12:50PM,Edward Jeremy Keller,Low Center for Industrial Inn. 3045,30,21,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94957,4150,03,ARCH-4150,Contemporary Design Approaches,"Reflecting on the knowledge and understandings acquired in all the previous courses in the history, theory, and criticism sequence, this course is a critical inquiry into the principal ideologies and premises of the most substantive architectural practices in the contemporary world. As such, the content of the course must necessarily evolve as the intellectual and cultural parameters of both theory and practice in the contemporary world change. The principal aim of the critique of various contemporary positions is to reinforce in students the importance of developing and critically maintaining their own values, vision, and voice in the design and making of architecture that was initiated in ARCH 2150, The Ethos of Architecture. Fundamental to this process is to encourage the students' awareness of the necessity to challenge their own subjectivities, biases, and presuppositions.",Prerequisite: ARCH 4120,When Offered: Spring term annually.,['ARCH 4120'],['ARCH 4120'],Architecture
+PROFESSIONAL PRACTICE 1,LEC,2,T,6:00PM,7:50PM,Katrina Pacheco,Darrin Communications Center 236,30,18,12,ARCH,2024-01-08,2024-04-24,SPRING 2024,90100,4540,01,ARCH-4540,Professional Practice 1,"An introduction to architectural practice as related to accomplishing design projects. An overview of professional obligations, registration and conduct, architects' roles in project delivery, and office organization and management for delivering professional services. In-depth examination of architects' responsibilities for health, safety, and welfare in design; building code requirements for fire protection, life safety, and accessibility; economics of building systems and assemblies; design and construction contracts; and design documentation.",Prerequisites/Corequisites: Corequisite: ARCH 4820,When Offered: Fall and spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+PROFESSIONAL PRACTICE 1,LEC,2,R,6:00PM,6:50PM,Katrina Pacheco,Darrin Communications Center 236,30,18,12,ARCH,2024-01-08,2024-04-24,SPRING 2024,90100,4540,01,ARCH-4540,Professional Practice 1,"An introduction to architectural practice as related to accomplishing design projects. An overview of professional obligations, registration and conduct, architects' roles in project delivery, and office organization and management for delivering professional services. In-depth examination of architects' responsibilities for health, safety, and welfare in design; building code requirements for fire protection, life safety, and accessibility; economics of building systems and assemblies; design and construction contracts; and design documentation.",Prerequisites/Corequisites: Corequisite: ARCH 4820,When Offered: Fall and spring terms annually.,['ARCH 4820'],['ARCH 4820'],Architecture
+BLDG SYSTEMS AND ENVIRONMENT,LEC,4,MR,8:00AM,9:50AM,John Clifford Loercher,Pittsburgh Building 4114,50,51,-1,ARCH,2024-01-08,2024-04-24,SPRING 2024,90332,4740,01,ARCH-4740,Bldg Systems And Environment,"Design analysis and performance characteristics of building environmental systems, emphasizing heating, cooling, ventilation, and lighting systems. In addition, building electrical systems, acoustics, water, waste, and drainage systems are covered in terms of fundamental theory, designs, and calculations. Case studies, field trips, and system design project work are required.",Prerequisite: ARCH 2360,When Offered: Spring term annually.,['ARCH 2360'],['ARCH 2360'],Architecture
+FINAL PROJECT DESIGN STUDIO,LEC,5,WR,2:00PM,5:50PM,Carla Leitao,Greene Building STU,60,8,52,ARCH,2024-01-08,2024-04-24,SPRING 2024,93193,4920,01,ARCH-4920,Final Project Design Studio,"This design studio is the second required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program. The Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all fifth-year architecture undergraduates in the B.Arch. program. This is a communication-intensive course.",Prerequisites: ARCH 4910 and ARCH 4790,When Offered: Spring term annually.,"['ARCH 4910', 'ARCH 4790']","['ARCH 4910', 'ARCH 4790']",Architecture
+FINAL PROJECT DESIGN STUDIO,LEC,5,MW,2:00PM,5:50PM,Christopher S Perry,Greene Building STU,20,13,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,93194,4920,02,ARCH-4920,Final Project Design Studio,"This design studio is the second required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program. The Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all fifth-year architecture undergraduates in the B.Arch. program. This is a communication-intensive course.",Prerequisites: ARCH 4910 and ARCH 4790,When Offered: Spring term annually.,"['ARCH 4910', 'ARCH 4790']","['ARCH 4910', 'ARCH 4790']",Architecture
+FINAL PROJECT DESIGN STUDIO,LEC,5,MR,2:00PM,5:50PM,Hseng Tai Ja Reng Lintner,Greene Building STU,20,11,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,93195,4920,03,ARCH-4920,Final Project Design Studio,"This design studio is the second required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program. The Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all fifth-year architecture undergraduates in the B.Arch. program. This is a communication-intensive course.",Prerequisites: ARCH 4910 and ARCH 4790,When Offered: Spring term annually.,"['ARCH 4910', 'ARCH 4790']","['ARCH 4910', 'ARCH 4790']",Architecture
+FINAL PROJECT DESIGN STUDIO,LEC,5,MR,2:00PM,5:50PM,Ryosuke Imaeda,Greene Building STU,20,13,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,93196,4920,04,ARCH-4920,Final Project Design Studio,"This design studio is the second required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program. The Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all fifth-year architecture undergraduates in the B.Arch. program. This is a communication-intensive course.",Prerequisites: ARCH 4910 and ARCH 4790,When Offered: Spring term annually.,"['ARCH 4910', 'ARCH 4790']","['ARCH 4910', 'ARCH 4790']",Architecture
+FINAL PROJECT DESIGN STUDIO,LEC,5,MW,2:00PM,5:50PM,Christianna Grace Bennett,Greene Building STU,20,11,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94668,4920,05,ARCH-4920,Final Project Design Studio,"This design studio is the second required course of the two-semester, 5th-year Final Project course sequence in the undergraduate program. The Final Project Design Studio provides a forum for the design and development of a comprehensive architectural proposal pertinent to the Final Project course sequence. This course is required of all fifth-year architecture undergraduates in the B.Arch. program. This is a communication-intensive course.",Prerequisites: ARCH 4910 and ARCH 4790,When Offered: Spring term annually.,"['ARCH 4910', 'ARCH 4790']","['ARCH 4910', 'ARCH 4790']",Architecture
+EXPLORATORY DRAWING,LEC,3,,,,Selma Cohen,TBA,9,9,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,95032,4958,90,ARCH-4958,Exploratory Drawing,,,,[],[],Architecture
+GEO-ACTORS II,LEC,3,T,10:00AM,12:50PM,Cathryn M Dwyre,TBA,12,4,8,ARCH,2024-01-08,2024-04-24,SPRING 2024,93750,6961,80,ARCH-6961,GEO-ACTORS Ii,,,,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,85,8,77,ARCH,2024-01-08,2024-04-24,SPRING 2024,92619,2810,01,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,4:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,85,8,77,ARCH,2024-01-08,2024-04-24,SPRING 2024,92619,2810,01,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Matthew Joseph Lopez,Greene Building STU,20,3,17,ARCH,2024-01-08,2024-04-24,SPRING 2024,92620,2810,02,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,6:00PM,7:50PM,Matthew Joseph Lopez,TBA,20,3,17,ARCH,2024-01-08,2024-04-24,SPRING 2024,92620,2810,02,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Kyle Reese Troyer,Greene Building STU,20,7,13,ARCH,2024-01-08,2024-04-24,SPRING 2024,93189,2810,03,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,4:00PM,5:50PM,Kyle Reese Troyer,TBA,20,7,13,ARCH,2024-01-08,2024-04-24,SPRING 2024,93189,2810,03,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Kyle Reese Troyer,Greene Building STU,20,3,17,ARCH,2024-01-08,2024-04-24,SPRING 2024,92621,2810,04,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,6:00PM,7:50PM,Kyle Reese Troyer,TBA,20,3,17,ARCH,2024-01-08,2024-04-24,SPRING 2024,92621,2810,04,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,93190,2810,05,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,2:00PM,3:50PM,Riley Studebaker,TBA,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,93190,2810,05,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Riley Studebaker,Greene Building STU,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94676,2810,06,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,4:00PM,5:50PM,Riley Studebaker,TBA,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94676,2810,06,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Claire Eileen Moriarty,Greene Building STU,15,4,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,94677,2810,07,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,2:00PM,3:50PM,Claire Eileen Moriarty,TBA,15,4,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,94677,2810,07,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Claire Eileen Moriarty,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94958,2810,08,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,4:00PM,5:50PM,Claire Eileen Moriarty,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94958,2810,08,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Walaid Sehwail,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94959,2810,09,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,2:00PM,3:50PM,Walaid Sehwail,TBA,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94959,2810,09,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Walaid Sehwail,Greene Building STU,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94960,2810,10,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,6:00PM,7:50PM,Walaid Sehwail,TBA,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94960,2810,10,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Benjamin Vanmuysen,Greene Building STU,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94961,2810,11,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,2:00PM,3:50PM,Benjamin Vanmuysen,TBA,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94961,2810,11,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Benjamin Vanmuysen,Greene Building STU,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94962,2810,12,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,4:00PM,5:50PM,Benjamin Vanmuysen,TBA,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94962,2810,12,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,MR,2:00PM,5:50PM,Caleb White,Greene Building STU,15,12,3,ARCH,2024-01-08,2024-04-24,SPRING 2024,94963,2810,13,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,2:00PM,3:50PM,Caleb White,TBA,15,12,3,ARCH,2024-01-08,2024-04-24,SPRING 2024,94963,2810,13,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,2:00PM,5:50PM,Caleb White,Greene Building STU,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94964,2810,14,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+ARCHITECTURAL DESIGN STUDIO 2,LEC,5,W,6:00PM,7:50PM,Caleb White,TBA,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94964,2810,14,ARCH-2810,Architectural Design Studio 2,"This course continues the processes of critical inquiry in relation to design and design creativity through a series of hands-on projects that incorporate fundamental issues of technology, materiality, abstraction, tectonics, and theory that consider the array of architectural issues in the design of built environments that consider architecture in a wider sense that includes its involvement with site, context, situation, and simple program. This course is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2800 and ARCH 2520; Corequisite: ARCH 2530,When Offered: Spring and summer terms annually.,"['ARCH 2800', 'ARCH 2520', 'ARCH 2530']","['ARCH 2800', 'ARCH 2520', 'ARCH 2530']",Architecture
+PROFESSIONAL PRACTICE 2,LEC,2,T,6:00PM,7:50PM,David Jonathon Pacheco/Adam Francis Petela,Greene Building 120,60,36,24,ARCH,2024-01-08,2024-04-24,SPRING 2024,92623,4550,01,ARCH-4550,Professional Practice 2,"This course covers topics that are essential to developing an effective professional architectural practice. The course will address professional obligations and ethics, contracts, registration, office organization, and management. The course will emphasize effective communication, negotiating, public speaking, and team development.",,When Offered: Fall and Spring terms annually.,[],[],Architecture
+LOCAL TECHNOLOGIES & SYSTEMS,LEC,3,,,,Gustavo Enrique Alberto Crembil,TBA,9,9,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,95033,4959,90,ARCH-4959,Local Technologies & Systems,,,,[],[],Architecture
+RESEARCH DESIGN SEMINAR,LEC,2,R,10:00AM,11:50AM,Ning Xiang,Low Center for Industrial Inn. 3130,10,4,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,94120,6810,01,ARCH-6810,Research Design Seminar,The principal objective of this introductory seminar is to provide stude­­­nts with the opportunity to learn the fundamentals of research design. Research design includes: (1) identifying and selecting focused research problems/opportunities/ideas; (2) documenting the state of the art in the selected research area; (3) identifying the critical resources and settings to carry out the research; (4) designing the research program including strategies and tactics for carrying out the research. It is hoped that the knowledge gained in the RD Seminar will assist students in the development of their own individual thesis proposals while they contribute to active research. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.,,When Offered: Fall term annually.,[],[],Architecture
+RESEARCH DESIGN SEMINAR,LEC,2,T,10:00AM,11:50AM,Joshua William Hugo Draper,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94290,6810,80,ARCH-6810,Research Design Seminar,The principal objective of this introductory seminar is to provide stude­­­nts with the opportunity to learn the fundamentals of research design. Research design includes: (1) identifying and selecting focused research problems/opportunities/ideas; (2) documenting the state of the art in the selected research area; (3) identifying the critical resources and settings to carry out the research; (4) designing the research program including strategies and tactics for carrying out the research. It is hoped that the knowledge gained in the RD Seminar will assist students in the development of their own individual thesis proposals while they contribute to active research. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.,,When Offered: Fall term annually.,[],[],Architecture
+URBAN DATA II,LEC,3,W,10:00AM,12:50PM,James Fleet Hower,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94305,6962,80,ARCH-6962,Urban Data Ii,,,,[],[],Architecture
+ENVIRONMENTAL PARAMETRICS,LEC,3,T,3:35PM,6:35PM,Charles A. Portelli,TBA,10,3,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94664,4170,80,ARCH-4170,Environmental Parametrics,"Environmental Parametrics is an intensive introductory course on visual scripting theory and methodology intended to give incoming students a foundational base in computational and parametric design modeling in order to supplement fall semester courses for new and incoming students into the Built Ecologies and Geofutures post professional programs without prior experience. The techniques presented in this course allow designers to integrate environmental data and simulations fluidly into 3D models and the design process. A new and progressively more complex topic is introduced each week, and each topic is presented with an associated design exercise. This course is taught in a seminar format with some instructor led tutorials and workshop content linked to dedicated breakout time for completing assignments and modeling. A devoted archive folder for downloading and uploading course material and completed exercises will be used for the course. B.Arch. students can only register for the 4000 level of this course and M.Arch. students must register only for the 6000 level of this course.",,When Offered: Spring terms annually.,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,30,0,30,ARCH,2024-01-08,2024-04-24,SPRING 2024,92971,4770,01,ARCH-4770,Architectural Design Studio 5,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman/Anthony Titus,Greene Building STU,10,2,8,ARCH,2024-01-08,2024-04-24,SPRING 2024,94955,4770,02,ARCH-4770,Architectural Design Studio 5,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MWR,2:00PM,5:50PM,Marcus Carter,Greene Building STU,10,0,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94956,4770,03,ARCH-4770,Architectural Design Studio 5,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,MR,2:30PM,6:20PM,James Fleet Hower,Greene Building STU,5,0,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,92935,4770,80,ARCH-4770,Architectural Design Studio 5,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+ARCHITECTURAL DESIGN STUDIO 5,LEC,5,,,,Gustavo Enrique Alberto Crembil,TBA,0,0,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94657,4770,90,ARCH-4770,Architectural Design Studio 5,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2830,When Offered: Fall and Spring terms annually.,['ARCH 2830'],['ARCH 2830'],Architecture
+INTENSE ORNAMNT 3D PRINTED MTL,LEC,2,F,10:00AM,11:50AM,Riley Studebaker,Greene Building STU,10,7,3,ARCH,2024-01-08,2024-04-24,SPRING 2024,94941,4960,01,ARCH-4960,Intense Ornamnt 3D Printed Mtl,Experimental courses tried out in one or two terms as the general program requires.,,,[],[],Architecture
+DESIGN PROGRAMMING 2,LEC,3,T,2:00PM,5:00PM,Dennis Robert Shelden,TBA,12,1,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,93453,4960,80,ARCH-4960,Design Programming 2,Experimental courses tried out in one or two terms as the general program requires.,,,[],[],Architecture
+GRADUATE THESIS SEMINAR:ACOUSTICS,LEC,1,T,1:00PM,1:50PM,Ning Xiang,Greene Building 204,10,4,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,91862,6830,01,ARCH-6830,Graduate Thesis SEMINAR:ACOUSTICS,The Graduate Thesis Seminar: Acoustics is designed to provide support to graduate students who are engaged in independent thesis research projects. It is a required course for all graduate students in the Architectural Acoustics programs. This seminar provides a formal opportunity for students and faculty from a range of concentrations to meet together and discuss thesis work in progress.,Prerequisite: ARCH 6810,When Offered: Spring term annually.,['ARCH 6810'],['ARCH 6810'],Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,85,9,76,ARCH,2024-01-08,2024-04-24,SPRING 2024,92969,2830,01,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,4:00PM,5:50PM,Adam Hassan Dayem,TBA,85,9,76,ARCH,2024-01-08,2024-04-24,SPRING 2024,92969,2830,01,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Adam Hassan Dayem,Greene Building STU,15,4,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,92970,2830,02,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,6:00PM,7:50PM,Adam Hassan Dayem,TBA,15,4,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,92970,2830,02,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,David H Bell,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,92976,2830,03,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,2:00PM,3:50PM,David H Bell,TBA,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,92976,2830,03,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,David H Bell,Greene Building STU,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,93487,2830,04,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,4:00PM,5:50PM,David H Bell,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,93487,2830,04,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,15,10,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,93047,2830,05,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,2:00PM,3:50PM,Edwin Jhinang Liu,TBA,15,10,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,93047,2830,05,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Edwin Jhinang Liu,Greene Building STU,15,2,13,ARCH,2024-01-08,2024-04-24,SPRING 2024,94965,2830,06,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,6:00PM,7:50PM,Edwin Jhinang Liu,TBA,15,2,13,ARCH,2024-01-08,2024-04-24,SPRING 2024,94965,2830,06,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Ted Krueger,Greene Building STU,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94968,2830,10,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,2:00PM,3:50PM,Ted Krueger,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94968,2830,10,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Ted Krueger,Greene Building STU,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94969,2830,11,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,4:00PM,5:50PM,Ted Krueger,TBA,15,8,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94969,2830,11,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Ciro Najle,Greene Building STU,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94970,2830,12,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,4:00PM,5:50PM,Ciro Najle,TBA,15,5,10,ARCH,2024-01-08,2024-04-24,SPRING 2024,94970,2830,12,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Ciro Najle,Greene Building STU,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94971,2830,13,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,2:00PM,3:50PM,Ciro Najle,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94971,2830,13,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Per S. Svedberg,Greene Building STU,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94972,2830,14,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,2:00PM,3:50PM,Per S. Svedberg,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94972,2830,14,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,MR,2:00PM,5:50PM,Per S. Svedberg,Greene Building STU,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94975,2830,15,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+ARCHITECTURAL DESIGN STUDIO 4,LEC,5,W,4:00PM,5:50PM,Per S. Svedberg,TBA,15,6,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,94975,2830,15,ARCH-2830,Architectural Design Studio 4,"This design studio builds on prior studios emphasizing projects of greater scale and complexity. Typically, the studio designs large-scale housing developments but other projects of similar complexity may be used. The studio requires the analysis and critique of precedent and the writing of an architectural program. This course is offered in the spring semester and is required of all second-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 2820 and ARCH 2540; Corequisite: ARCH 2550 and ARCH 2360,When Offered: Spring term annually.,"['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']","['ARCH 2820', 'ARCH 2540', 'ARCH 2550', 'ARCH 2360']",Architecture
+PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Matthew Joseph Lopez,Russell Sage Laboratory 2112,20,14,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,94118,4200,01,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth of abilities throughout an architect's career. It is an essential and required document for securing employment and advancement in any architectural field from professional practice to academics. This course introduces students into the design and development of their portfolios that include work from every level of their education and professional experience. The immediate concern of this course is for students who are preparing for their ARCH AWAY experience to be able to demonstrate to potential employers the full spectrum of their architectural design capabilities with graphic clarity  and compositional proficiency.*   *This course supplants the required ADMN 1030 01/02 courses.",,When Offered: When Offered: Fall and spring terms annually.,[],[],Architecture
+PORTFOLIO DEVELOPMENT,LEC,1,W,12:00PM,1:50PM,Claire Eileen Moriarty,Russell Sage Laboratory 2701,20,14,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,94119,4200,02,ARCH-4200,Portfolio Development,"A graphic portfolio of architectural design work is a living document representing the diversity, competence, and growth of abilities throughout an architect's career. It is an essential and required document for securing employment and advancement in any architectural field from professional practice to academics. This course introduces students into the design and development of their portfolios that include work from every level of their education and professional experience. The immediate concern of this course is for students who are preparing for their ARCH AWAY experience to be able to demonstrate to potential employers the full spectrum of their architectural design capabilities with graphic clarity  and compositional proficiency.*   *This course supplants the required ADMN 1030 01/02 courses.",,When Offered: When Offered: Fall and spring terms annually.,[],[],Architecture
+MATERIALS SYSTEMS & PRODUCTION,LEC,3,M,10:00AM,12:50PM,Joshua William Hugo Draper,TBA,20,9,11,ARCH,2024-01-08,2024-04-24,SPRING 2024,92651,4580,80,ARCH-4580,Materials Systems & Production,"The goal of Material Systems and Production is threefold: to develop a fundamental understanding of materials through first principles, classification, production, and impacts, to develop models for material properties and testing, and to develop criteria to make reasoned choices for the implementation of materials in the built environment. Students will engage in directed research projects with the intent of opportunistically identifying intrinsic material properties, exploiting production-forming logics, and developing a prototype detail assembly for testing.  Course taught specifically at CASE in NYC",,When Offered: Spring term annually.,[],[],Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Matt Burgermaster,Greene Building STU,30,7,23,ARCH,2024-01-08,2024-04-24,SPRING 2024,93450,4780,01,ARCH-4780,Architectural Design Studio 6,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,['ARCH 4770'],['ARCH 4770'],Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Michael James Oatman/Anthony Titus,Greene Building STU,12,12,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94953,4780,02,ARCH-4780,Architectural Design Studio 6,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,['ARCH 4770'],['ARCH 4770'],Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MWR,2:00PM,5:50PM,Marcus Carter,Greene Building STU,12,8,4,ARCH,2024-01-08,2024-04-24,SPRING 2024,94954,4780,03,ARCH-4780,Architectural Design Studio 6,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,['ARCH 4770'],['ARCH 4770'],Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,MR,2:30PM,6:20PM,James Fleet Hower,Greene Building STU,15,9,6,ARCH,2024-01-08,2024-04-24,SPRING 2024,93451,4780,80,ARCH-4780,Architectural Design Studio 6,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,['ARCH 4770'],['ARCH 4770'],Architecture
+ARCHITECTURAL DESIGN STUDIO 6,LEC,5,,,,Gustavo Enrique Alberto Crembil,TBA,10,9,1,ARCH,2024-01-08,2024-04-24,SPRING 2024,94658,4780,90,ARCH-4780,Architectural Design Studio 6,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall and spring semesters and is required of all architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4770,When Offered: Fall and Spring terms annually.,['ARCH 4770'],['ARCH 4770'],Architecture
+DEEP VIEWING: HITCHCOCK,LEC,2,M,7:00PM,8:50PM,Michael James Oatman,Greene Building STU,10,8,2,ARCH,2024-01-08,2024-04-24,SPRING 2024,94942,4961,01,ARCH-4961,Deep VIEWING: Hitchcock,,,,[],[],Architecture
+DIGITAL CONSTRUCTS 2,LEC,2,W,2:00PM,3:50PM,Adam Hassan Dayem,Carnegie Building 113,90,20,70,ARCH,2024-01-08,2024-04-24,SPRING 2024,92622,2530,01,ARCH-2530,Digital Constructs 2,This course builds upon topics covered in Digital Constructs 1 by focusing upon contemporary means of producing and communicating architectural ideas. Students will use digital methodologies through all phases of a project as well as advanced representation and digital fabrication techniques. The use of digital modeling as a sketch and iterative tool will be emphasized. Tools taught in Digital Constructs 2 will build upon those software programs taught in Digital Constructs 1. This course is required of all first-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 2 will be between the Digital Constructs 2 faculty instructor and the first-year architectural design studio coordinator and faculty.,Prerequisite: ARCH 2520 Corequisites: ARCH 2810,When Offered: Spring term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+DIGITAL CONSTRUCTS 2,LEC,2,W,4:00PM,5:50PM,Caleb White,Carnegie Building 208,25,20,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,94116,2530,02,ARCH-2530,Digital Constructs 2,This course builds upon topics covered in Digital Constructs 1 by focusing upon contemporary means of producing and communicating architectural ideas. Students will use digital methodologies through all phases of a project as well as advanced representation and digital fabrication techniques. The use of digital modeling as a sketch and iterative tool will be emphasized. Tools taught in Digital Constructs 2 will build upon those software programs taught in Digital Constructs 1. This course is required of all first-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 2 will be between the Digital Constructs 2 faculty instructor and the first-year architectural design studio coordinator and faculty.,Prerequisite: ARCH 2520 Corequisites: ARCH 2810,When Offered: Spring term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+DIGITAL CONSTRUCTS 2,LEC,2,W,2:00PM,3:50PM,Kyle Reese Troyer,Carnegie Building 201,25,18,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94681,2530,03,ARCH-2530,Digital Constructs 2,This course builds upon topics covered in Digital Constructs 1 by focusing upon contemporary means of producing and communicating architectural ideas. Students will use digital methodologies through all phases of a project as well as advanced representation and digital fabrication techniques. The use of digital modeling as a sketch and iterative tool will be emphasized. Tools taught in Digital Constructs 2 will build upon those software programs taught in Digital Constructs 1. This course is required of all first-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 2 will be between the Digital Constructs 2 faculty instructor and the first-year architectural design studio coordinator and faculty.,Prerequisite: ARCH 2520 Corequisites: ARCH 2810,When Offered: Spring term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+DIGITAL CONSTRUCTS 2,LEC,2,W,4:00PM,5:50PM,Walaid Sehwail,Carnegie Building 106,25,18,7,ARCH,2024-01-08,2024-04-24,SPRING 2024,94700,2530,04,ARCH-2530,Digital Constructs 2,This course builds upon topics covered in Digital Constructs 1 by focusing upon contemporary means of producing and communicating architectural ideas. Students will use digital methodologies through all phases of a project as well as advanced representation and digital fabrication techniques. The use of digital modeling as a sketch and iterative tool will be emphasized. Tools taught in Digital Constructs 2 will build upon those software programs taught in Digital Constructs 1. This course is required of all first-year architecture undergraduates in the B.Arch. program. Coordination of the relationship of course content to Architectural Design Studio 2 will be between the Digital Constructs 2 faculty instructor and the first-year architectural design studio coordinator and faculty.,Prerequisite: ARCH 2520 Corequisites: ARCH 2810,When Offered: Spring term annually.,['ARCH 2520'],['ARCH 2520'],Architecture
+ENTREPRENEURSHIP &ARCHITECTURE,LEC,2,M,12:00PM,1:50PM,Alec Walker/Daniel Stratford,Russell Sage Laboratory 3704,40,40,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,93449,4590,01,ARCH-4590,Entrepreneurship &ARCHITECTURE,"This course addresses the range of economic issues related to the practice of architecture. Topics will include economic cycles and building construction, globalization of architectural practice, case studies of models of practice, setting and negotiation of fees for services, economic relationships of architects and consultants, cost estimation.",none.,When Offered: Spring term annually.,[],[],Architecture
+ARCHITECTURAL DESGIN STUDIO 7,LEC,5,,,,Gustavo Enrique Alberto Crembil,TBA,0,0,0,ARCH,2024-01-08,2024-04-24,SPRING 2024,94659,4790,90,ARCH-4790,Architectural Desgin Studio 7,"This is an upper division architectural design studio that explores topics of contemporary interest to the discipline. Students apply for this studio based on their personal interest and professional objectives. Three such studios: Architectural Design Studio 5, Architectural Design Studio 6, and Architectural Design Studio 7, are required for the degree. This course is offered in the fall semester and is required of all first-year architecture undergraduates in the B.Arch. program.",Prerequisite: ARCH 4780,When Offered: Fall term annually.,['ARCH 4780'],['ARCH 4780'],Architecture
+THE ART OF STRUCTURE,LEC,2,TF,12:00PM,1:20PM,Marc Anthony Tatarsky,Darrin Communications Center 236,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,93469,4962,01,ARCH-4962,The Art Of Structure,,,,[],[],Architecture
+LIGHTING WORKSHOP,LEC,4,TF,2:00PM,3:50PM,Nadarajah Narendran/Jean Paul Freyssinier/Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,5,0,5,ARCH,2024-01-08,2024-04-24,SPRING 2024,94293,6965,01,ARCH-6965,Lighting Workshop,,,,[],[],Architecture
+CERAMIC UPHOLSTERY,LEC,2,F,1:00PM,2:50PM,John Rhett Russo,Greene Building STU,10,2,8,ARCH,2024-01-08,2024-04-24,SPRING 2024,94943,4963,01,ARCH-4963,Ceramic Upholstery,,,,[],[],Architecture
+DESIGN PROGRAMMING 2,LEC,3,T,2:00PM,5:00PM,Dennis Robert Shelden,TBA,10,1,9,ARCH,2024-01-08,2024-04-24,SPRING 2024,95123,6966,80,ARCH-6966,Design Programming 2,,,,[],[],Architecture
+LIGHTING LEADERSHIP SEMINAR,LEC,4,MR,2:00PM,3:50PM,Jean Paul Freyssinier,Gurley Building ,15,3,12,LGHT,2024-01-08,2024-04-24,SPRING 2024,94859,6780,01,LGHT-6780,Lighting Leadership Seminar,"A series of topics and case studies to prepare students for leadership roles in the lighting industry. Topics relate to product innovation and factors influencing changes of policy and processes in the lighting industry and involve lecture and discussion sessions and reading assignments. Case studies examine selected topics in greater depth, using actual situations to illustrate interactions of technology and business forces.",,When Offered: Spring term annually.,[],[],Architecture
+LIGHTING TECHNOLOGIES AND APPLICATIONS,LEC,4,TF,10:00AM,11:50AM,Jean Paul Freyssinier,Gurley Building ,15,9,6,LGHT,2024-01-08,2024-04-24,SPRING 2024,94860,4770,01,LGHT-4770,Lighting Technologies And Applications,"This course provides students with an in-depth understanding of the components of advanced lighting systems and enables them to critically explore applications of those components. Through lectures, readings, assignments, and application projects, students acquire working knowledge of the relevant products and techniques for lighting application and develop solutions to lighting problems. Students will undertake practical applications of advanced lighting technologies and develop skills in the application of photometric data, use of manual and computer-based lighting calculations, and the development of lighting specifications.",,When Offered: Spring term annually.,[],[],Architecture
+MASTER'S PROJECT,LEC,3,,,,Jean Paul Freyssinier/Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,15,3,12,LGHT,2024-01-08,2024-04-24,SPRING 2024,94861,6980,01,LGHT-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Architecture
+LIGHTING WORKSHOP,LEC,4,MR,10:00AM,11:50AM,Jean Paul Freyssinier/Ukwatte Lokuliyanage Indika Upendra Perera,Gurley Building ,15,3,12,LGHT,2024-01-08,2024-04-24,SPRING 2024,94857,6760,01,LGHT-6760,Lighting Workshop,"The Lighting Workshop is a research and design studio integrating scholarship, technology, design, policy, and communication in an intensive, project specific context. The course includes a number of topics, selected each year by faculty. These topics are selected to emphasize scholarship; require a variety of written and verbal presentation techniques; increase synthesizing skills in design, applications, and visualization software; and require teamwork and individual efforts. The Lighting Workshop emphasizes studio and seminar work supplemented with lecture, class discussions, and individual and group research, design, writing, and reading assignments.",Prerequisite: LGHT 4230.,When Offered: Spring term annually.,['LGHT 4230'],['LGHT 4230'],Architecture
+PROGRAMMING FOR BIOMED ENGR,LEC,3,MR,10:00AM,11:50AM,George Jiren Lee,Jonsson-Rowland Science Center 2C13,27,28,-1,BMED,2024-01-08,2024-04-24,SPRING 2024,94215,2050,01,BMED-2050,Programming For Biomed Engr,"Introduction of number systems - decimal, binary and hexadecimal -; variable types including Boolean, integer, float, character and string; general overview of computer architecture and software, programming in ""C/C++"" including input/output, control statements, operators, functions, arrays, strings, classes, objects, inheritance, pointers, references, file processing, exceptions and operator overloading; overview of other programming languages including Matlab, R and Python; design of algorithms for applications that are relevant for biomedical engineering applications.",Prerequisites: ENGR 1100,When Offered: Fall and Spring terms annually,['ENGR 1100'],['ENGR 1100'],Engineering
+PROGRAMMING FOR BIOMED ENGR,LEC,3,TF,10:00AM,11:50AM,Monica Agarwal,Russell Sage Laboratory 2704,27,25,2,BMED,2024-01-08,2024-04-24,SPRING 2024,94217,2050,02,BMED-2050,Programming For Biomed Engr,"Introduction of number systems - decimal, binary and hexadecimal -; variable types including Boolean, integer, float, character and string; general overview of computer architecture and software, programming in ""C/C++"" including input/output, control statements, operators, functions, arrays, strings, classes, objects, inheritance, pointers, references, file processing, exceptions and operator overloading; overview of other programming languages including Matlab, R and Python; design of algorithms for applications that are relevant for biomedical engineering applications.",Prerequisites: ENGR 1100,When Offered: Fall and Spring terms annually,['ENGR 1100'],['ENGR 1100'],Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,11,1,BMED,2024-01-08,2024-04-24,SPRING 2024,92224,4010,01,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,W,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,12,11,1,BMED,2024-01-08,2024-04-24,SPRING 2024,92224,4010,01,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,7,5,BMED,2024-01-08,2024-04-24,SPRING 2024,92357,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,R,9:00AM,11:50AM,Monica Agarwal,Jonsson Engineering Center 5213,12,7,5,BMED,2024-01-08,2024-04-24,SPRING 2024,92357,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,W,10:00AM,11:50AM,Monica Agarwal,Folsom Library 107,12,4,8,BMED,2024-01-08,2024-04-24,SPRING 2024,94758,4010,03,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,R,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,12,4,8,BMED,2024-01-08,2024-04-24,SPRING 2024,94758,4010,03,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOPHOTONICS,LEC,3,MR,12:00PM,1:20PM,Xavier R. M. Intes,Amos Eaton Hall 216,15,9,6,BMED,2024-01-08,2024-04-24,SPRING 2024,93188,6440,01,BMED-6440,Biophotonics,"Biophotonics, or biomedical optics, is a newly developing field, dealing with the application of optical science and technology to biomedical problems, including clinical applications. The course introduces students to the fundamentals in modern and classical optics, light-matter interaction and provides them with a broad overview of current topics and contemporary research in the area of optics and lasers in medicine and biology.",None.,When Offered: Spring term annually.,[],[],Engineering
+DISCUSSIONS IN GRADUATE RESEARCH,LEC,0,W,12:00PM,12:50PM,Elizabeth Blaber,Low Center for Industrial Inn. 3051,65,54,11,BMED,2024-01-08,2024-04-24,SPRING 2024,92635,6800,01,BMED-6800,Discussions In Graduate Research,"This is a seminar based graduate level course that provides (a) a broad exposure to contemporary topics of research in biomedical engineering by recognized experts in the field and; (b) hands-on exposure on various aspects of professional development to Ph.D. students including conference/thesis presentations, writing scientific manuscripts and pre-doctoral and post-doctoral fellowship grant applications. Students are required to attend and participate in the departmental seminar and present their own research and grant proposals.",Graduate student status required.,When Offered: Fall and spring terms annually.,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Juergen Hahn,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,91462,6990,01,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,David Thomas Corr,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,91463,6990,02,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Robert J. Linhardt,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92258,6990,03,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Eric Howard Ledet,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,91295,6990,04,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Xavier R. M. Intes,TBA,25,0,25,BMED,2024-01-08,2024-04-24,SPRING 2024,91464,6990,05,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Mariah Somer Hahn,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92557,6990,06,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Deanna Marie Thompson,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,91465,6990,07,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Pingkun Yan,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,91296,6990,08,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Deepak Vashishth,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,91466,6990,09,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Ryan James Gilbert,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,92032,6990,10,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Qun Wan,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92672,6990,13,BMED-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+BIOMATERIALS SCI & ENGINEERING,LEC,4,MR,12:00PM,1:50PM,Mariah Somer Hahn,Russell Sage Laboratory 3101,50,48,2,BMED,2024-01-08,2024-04-24,SPRING 2024,92223,2100,02,BMED-2100,Biomaterials Sci & Engineering,"Presents structure-property relationships of implant materials including metals, polymers, ceramics, and composites, with an emphasis on mechanical and surface properties in the broader context of implant design. Biological performance of biomaterials, case studies of traditional implants-as well as emerging, tissue-engineered materials- are emphasized.",,When Offered: Spring term annually.,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Suvranu De,TBA,5,0,5,BMED,2024-01-08,2024-04-24,SPRING 2024,90133,9990,01,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Qun Wan,TBA,10,5,5,BMED,2024-01-08,2024-04-24,SPRING 2024,92377,9990,02,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Stanley M. Dunn,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,91467,9990,03,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Deanna Marie Thompson,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,90537,9990,04,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Xavier R. M. Intes,TBA,10,7,3,BMED,2024-01-08,2024-04-24,SPRING 2024,91297,9990,05,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Deepak Vashishth,TBA,10,6,4,BMED,2024-01-08,2024-04-24,SPRING 2024,90384,9990,06,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Robert J. Linhardt,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,93229,9990,07,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Eric Howard Ledet,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,90487,9990,08,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Ryan James Gilbert,TBA,10,4,6,BMED,2024-01-08,2024-04-24,SPRING 2024,92031,9990,09,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Elizabeth Blaber,TBA,10,5,5,BMED,2024-01-08,2024-04-24,SPRING 2024,91514,9990,10,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Edmund Francis Palermo,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,92519,9990,11,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Pingkun Yan,TBA,10,7,3,BMED,2024-01-08,2024-04-24,SPRING 2024,93465,9990,12,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Douglas Martin Swank,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,92034,9990,13,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Mariah Somer Hahn,TBA,10,3,7,BMED,2024-01-08,2024-04-24,SPRING 2024,92368,9990,14,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Juergen Hahn,TBA,10,4,6,BMED,2024-01-08,2024-04-24,SPRING 2024,92369,9990,15,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Ge Wang,TBA,10,2,8,BMED,2024-01-08,2024-04-24,SPRING 2024,92550,9990,16,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Jonathan Dordick,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,94649,9990,17,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,David Thomas Corr,TBA,10,4,6,BMED,2024-01-08,2024-04-24,SPRING 2024,91087,9990,21,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Uwe Kruger,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,94507,9990,22,BMED-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+BIOIMAGING/ BIOINSTRUMENTATION,LEC,4,TF,2:00PM,3:50PM,Hisham S. Mohamed,Low Center for Industrial Inn. 4050,35,36,-1,BMED,2024-01-08,2024-04-24,SPRING 2024,92490,2300,01,BMED-2300,BIOIMAGING/ Bioinstrumentation,"This course serves as an introduction to biomedical instrumentation and imaging with focus on the acquisition and monitoring of vital signals. Basic principles for the selection and appropriate use of instruments for solving bioengineering and medical problems such as microscopy, magnetic resonance imaging, and ultrasounds, among others are addressed.",Prerequisite: PHYS 1200,When Offered: Spring term annually.,['PHYS 1200'],['PHYS 1200'],Engineering
+BIOIMAGING/ BIOINSTRUMENTATION,LEC,4,TF,2:00PM,3:50PM,Ge Wang,Carnegie Building 206,35,34,1,BMED,2024-01-08,2024-04-24,SPRING 2024,92981,2300,02,BMED-2300,BIOIMAGING/ Bioinstrumentation,"This course serves as an introduction to biomedical instrumentation and imaging with focus on the acquisition and monitoring of vital signals. Basic principles for the selection and appropriate use of instruments for solving bioengineering and medical problems such as microscopy, magnetic resonance imaging, and ultrasounds, among others are addressed.",Prerequisite: PHYS 1200,When Offered: Spring term annually.,['PHYS 1200'],['PHYS 1200'],Engineering
+INVESTIGATIVE MEDICINE II,LEC,1,,,,Douglas Martin Swank,TBA,5,0,5,BMED,2024-01-08,2024-04-24,SPRING 2024,93466,4120,01,BMED-4120,Investigative Medicine Ii,Students will be exposed to several clinical experiences at a level typically found in college graduates/post graduates who are entering medical school.,Prerequisites/Corequisites: BIOL 4110 or BMED 4110. Restricted to 3rd Year RPI students who are in the combined B.S./M.D. Physician Scientist Program with Albany Medical College or 4th Year RPI students who are in the B.S./M.D. Physician Engineer Program with Albany Medical College.,When Offered: Spring term annually.,"['BIOL 4110', 'BMED 4110']","['BIOL 4110', 'BMED 4110']",Engineering
+BIOMEDICAL DATA SCIENCE,LEC,4,TF,8:00AM,9:50AM,Uwe Kruger,Low Center for Industrial Inn. 3039,15,5,10,BMED,2024-01-08,2024-04-24,SPRING 2024,93769,4480,01,BMED-4480,Biomedical Data Science,"Introduction of multivariate statistical methods to model and analyze recorded data from physiological systems in biomedical engineering. Statistical approaches related to applied multivariate statistics, classification and regression. Associated linear methods include principal component analysis, Fisher discriminant analysis, partial least squares, canonical correlation analysis and their nonlinear counterparts. Descriptive tools include scatter diagrams, Hotelling's T2 statistics and contribution plots. The course has a strong emphasis on biomedical applications.",Prerequisites: MATH 2010 and ENGR 2600,When Offered: Spring term annually.,"['MATH 2010', 'ENGR 2600']","['MATH 2010', 'ENGR 2600']",Engineering
+BIOLOGICAL IMAGE ANALYSIS,LEC,3,TF,2:00PM,3:20PM,Pingkun Yan,Jonsson Engineering Center 4304,20,9,11,BMED,2024-01-08,2024-04-24,SPRING 2024,92634,6460,01,BMED-6460,Biological Image Analysis,"Survey of image analysis applications in biology and biotechnology; introduction to biological microscopy and selected biomedical imaging systems; image reconstruction and pre-processing; grayscale and geometric corrections; image segmentation; blob analysis, cell/colony counting, and cell morphometry; vessel and neuron tracing algorithms with applications to neurobiology and medicine; feature extraction, pattern analysis, cluster analysis and classification; image registration algorithms with applications to mosaicing, spatial referencing, motion estimation, and change detection.",,When Offered: Spring term annually.,[],[],Engineering
+BIOMECHANICS,LEC,4,MR,10:00AM,11:50AM,Qun Wan,Carnegie Building 206,35,16,19,BMED,2024-01-08,2024-04-24,SPRING 2024,92358,2540,01,BMED-2540,Biomechanics,"Application of mechanics to the study of normal, diseased, and traumatized musculo-skeletal system. Areas covered include determination of joint and muscle forces, mechanical properties of biological tissues, and structural analysis of bone-implant systems. Case studies are discussed to illustrate the role of biomechanics and biomaterials in the design of implants.",Prerequisite: ENGR 1100,When Offered: Spring term annually.,['ENGR 1100'],['ENGR 1100'],Engineering
+BIOMECHANICS,LEC,4,MR,10:00AM,11:50AM,Uwe Kruger/Xun Wang,Voorhees Computing Center SO,35,33,2,BMED,2024-01-08,2024-04-24,SPRING 2024,93186,2540,02,BMED-2540,Biomechanics,"Application of mechanics to the study of normal, diseased, and traumatized musculo-skeletal system. Areas covered include determination of joint and muscle forces, mechanical properties of biological tissues, and structural analysis of bone-implant systems. Case studies are discussed to illustrate the role of biomechanics and biomaterials in the design of implants.",Prerequisite: ENGR 1100,When Offered: Spring term annually.,['ENGR 1100'],['ENGR 1100'],Engineering
+BIOMEDICAL RESEARCH,LEC,6,,,,Douglas Martin Swank,Jonsson-Rowland Science Center 1W01,16,0,16,BMED,2024-01-08,2024-04-24,SPRING 2024,93467,4130,01,BMED-4130,Biomedical Research,"Independent research in health sciences, supervised by a faculty member, for the purpose of developing research skills. Such skills include defining a research project, both as a written and oral exercise for a scientific and general audience, and gathering preliminary research data enabling both a written and oral description of the project in the form of a research proposal and an oral defense. This is a communication-intensive course.",Restricted to 3rd Year RPI students who are in the combined B.S./M.D. Physician Scientist Program with Albany Medical College. Permission of instructor.,When Offered: Spring term annually.,[],[],Engineering
+ADV SYSTEMS PHYSIOLOGY,LEC,4,MR,2:00PM,3:50PM,Juergen Hahn/Peter Vincent,Carnegie Building 101,39,32,7,BMED,2024-01-08,2024-04-24,SPRING 2024,90043,4500,01,BMED-4500,Adv Systems Physiology,"Applications of control theory and systems techniques to physiology. Emphasis is on entire systems and their interactions rather than isolated phenomena. Areas covered include cardiac, respiratory, renal, and gastrointestinal systems. Includes laboratory on the application of engineering techniques in the study of physiological systems. This course is taught at Albany Medical Center and enrollment is limited to BME students.",Prerequisite: BIOL 2120 or equivalent,When Offered: Fall and spring terms annually.,['BIOL 2120'],['BIOL 2120'],Engineering
+ADV SYSTEMS PHYSIOLOGY,LEC,4,R,4:00PM,6:50PM,Juergen Hahn/Peter Vincent,Carnegie Building 101,39,32,7,BMED,2024-01-08,2024-04-24,SPRING 2024,90043,4500,01,BMED-4500,Adv Systems Physiology,"Applications of control theory and systems techniques to physiology. Emphasis is on entire systems and their interactions rather than isolated phenomena. Areas covered include cardiac, respiratory, renal, and gastrointestinal systems. Includes laboratory on the application of engineering techniques in the study of physiological systems. This course is taught at Albany Medical Center and enrollment is limited to BME students.",Prerequisite: BIOL 2120 or equivalent,When Offered: Fall and spring terms annually.,['BIOL 2120'],['BIOL 2120'],Engineering
+AI FOR BIOMEDICAL APPLICATIONS,LEC,3,MR,8:30AM,9:50AM,Uwe Kruger,Jonsson Engineering Center 4309,20,9,11,BMED,2024-01-08,2024-04-24,SPRING 2024,93742,4960,01,BMED-4960,Ai For Biomedical Applications,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+AI FOR BIOMEDICAL APPLICATIONS,LEC,3,MR,8:30AM,9:50AM,Uwe Kruger,Jonsson Engineering Center 4309,20,11,9,BMED,2024-01-08,2024-04-24,SPRING 2024,93743,6960,01,BMED-6960,Ai For Biomedical Applications,New courses or special course offerings are given under this number from time to time. Graduate students in biomedical engineering may pursue special interests under this number when sponsored by a biomedical engineering faculty member and with the permission of the department.,,When Offered: By individual arrangement.,[],[],Engineering
+MODELING OF BIOMEDICAL SYSTEMS,LEC,3,MR,10:00AM,11:50AM,FNU Rahul,Amos Eaton Hall 216,35,15,20,BMED,2024-01-08,2024-04-24,SPRING 2024,94759,4200,01,BMED-4200,Modeling Of Biomedical Systems,"Introduction of mathematical and computational methods to model physiological systems in biomedical engineering. Mathematical methods include solution techniques for systems of algebraic equations, systems of partial and partial differential equations. Computational methods include finite difference, finite element, and lumped parameter methods. Computational methods are programmed using commercial programming software.","Prerequisites: BMED 2050, MATH 2400 and PHYS 1200","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2050', 'MATH 2400', 'PHYS 1200']","['BMED 2050', 'MATH 2400', 'PHYS 1200']",Engineering
+DATA SCIENCE & ALZHEIMER'S,LEC,1,W,3:00PM,4:20PM,Jennifer Marie Hurley,TBA,0,0,0,BMED,2024-01-08,2024-04-24,SPRING 2024,93965,6961,01,BMED-6961,Data Science & ALZHEIMER'S,,,,[],[],Engineering
+PROTECT& COMMERCIAL YOUR INNOV,LEC,2,T,4:30PM,6:00PM,Johan Maharjan,TBA,15,2,13,BMED,2024-01-08,2024-04-24,SPRING 2024,94355,6961,02,BMED-6961,PROTECT& Commercial Your Innov,,,,[],[],Engineering
+BME SEMINAR,LEC,1,R,2:00PM,3:50PM,FNU Rahul,Ricketts Building 208,20,2,18,BMED,2024-01-08,2024-04-24,SPRING 2024,92633,4962,01,BMED-4962,Bme Seminar,,,,[],[],Engineering
+BIOMEDICAL DATA SCIENCE,LEC,4,TF,8:00AM,9:50AM,Uwe Kruger,Low Center for Industrial Inn. 3039,20,15,5,BMED,2024-01-08,2024-04-24,SPRING 2024,93770,6480,01,BMED-6480,Biomedical Data Science,"Introduction of multivariate statistical methods to model and analyze recorded data from physiological systems in biomedical engineering. Statistical approaches related to applied multivariate statistics, classification, and regression. Associated linear methods include principal component analysis, Fisher discriminant analysis, partial least squares, canonical correlation analysis and their nonlinear counterparts. Descriptive tools include scatter diagrams, Hotelling's T2 statistics and contribution plots. The course has a strong emphasis on biomedical applications.",,When Offered: Spring term annually.,[],[],Engineering
+BME SEMINAR,LEC,1,R,2:00PM,3:50PM,FNU Rahul,Ricketts Building 208,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,92657,6962,01,BMED-6962,Bme Seminar,,,,[],[],Engineering
+BIOMED TRANSPORT PHENOMENA,LEC,4,MR,12:00PM,1:50PM,Deanna Marie Thompson,Jonsson-Rowland Science Center 2C25,30,26,4,BMED,2024-01-08,2024-04-24,SPRING 2024,94218,4250,01,BMED-4250,Biomed Transport Phenomena,"Quantitative analysis of transport phenomena in physiological systems, including fluid mechanics, thermodynamics, and mass transfer. Fluid statics, mass and energy conservation, laminar and turbulent flow, microscale and macroscale analytical methods, mass transport with biochemical reactions, applications to transport in tissue and organs will be introduced.","Prerequisites: ENGR 1100, PHYS 1100, MATH 2400","When Offered: Fall, Spring, and Summer terms annually","['ENGR 1100', 'PHYS 1100', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'MATH 2400']",Engineering
+BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,T,12:00PM,1:50PM,Hisham S. Mohamed,Jonsson Engineering Center 4304,35,5,30,BMED,2024-01-08,2024-04-24,SPRING 2024,93434,4260,01,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+BIOMEDICAL PRODUCT DEVELOPMENT & COMMERCIALIZATION,LEC,3,F,12:00PM,12:50PM,Hisham S. Mohamed,Jonsson Engineering Center 4304,35,5,30,BMED,2024-01-08,2024-04-24,SPRING 2024,93434,4260,01,BMED-4260,Biomedical Product Development & Commercialization,"Students are introduced to the major biomedical industries, markets, and stakeholders, with an emphasis on biomedical devices. Market drivers and hurdles are covered including regulatory, intellectual property, and reimbursement. The interactive class format includes case studies and industry experts providing a practical perspective. Students select topic areas for design projects and begin work toward the goal of developing functional design solutions to practical biomedical problems.",Prerequisites: Senior BME status and ENGR 2050,When Offered: Fall and Spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+BIOMEMS,LEC,3,MR,8:30AM,9:50AM,Deanna Marie Thompson,Jonsson Engineering Center 4304,20,24,-4,BMED,2024-01-08,2024-04-24,SPRING 2024,93435,4410,01,BMED-4410,Biomems,"This course discusses state-of-the-art techniques in patterning biomolecules, biosensors, machining three-dimensional microstructures, and building microfluidic devices (Lab-on-a-Chip). Seminal and current literature will be used to discuss topics in BioMEMs ranging from device fabrication to applications in cell biology and medicine.",Junior/senior standing.,When Offered: Spring term annually.,[],[],Engineering
+BIOMEDICAL ENGR DESIGN,LEC,3,T,10:00AM,11:50AM,George Jiren Lee,Troy Building 2018,34,35,-1,BMED,2024-01-08,2024-04-24,SPRING 2024,90044,4600,01,BMED-4600,Biomedical Engr Design,A guided approach to development of design skills. Students work individually and in teams to tackle a biomedical design problem using methods drawn as necessary from engineering and from the physical and mathematical sciences. Discussion sessions involve students in presentations of work. This is a communication-intensive course.,Prerequisite: BMED 4260 or permission of instructor,When Offered: Fall and Spring terms annually.,['BMED 4260'],['BMED 4260'],Engineering
+BIOMEDICAL ENGR DESIGN,LEC,3,F,10:00AM,10:50AM,George Jiren Lee,Troy Building 2018,34,35,-1,BMED,2024-01-08,2024-04-24,SPRING 2024,90044,4600,01,BMED-4600,Biomedical Engr Design,A guided approach to development of design skills. Students work individually and in teams to tackle a biomedical design problem using methods drawn as necessary from engineering and from the physical and mathematical sciences. Discussion sessions involve students in presentations of work. This is a communication-intensive course.,Prerequisite: BMED 4260 or permission of instructor,When Offered: Fall and Spring terms annually.,['BMED 4260'],['BMED 4260'],Engineering
+BIOMEDICAL ENGR DESIGN,LEC,3,T,10:00AM,11:50AM,Hisham S. Mohamed,Troy Building 2018,34,23,11,BMED,2024-01-08,2024-04-24,SPRING 2024,92225,4600,02,BMED-4600,Biomedical Engr Design,A guided approach to development of design skills. Students work individually and in teams to tackle a biomedical design problem using methods drawn as necessary from engineering and from the physical and mathematical sciences. Discussion sessions involve students in presentations of work. This is a communication-intensive course.,Prerequisite: BMED 4260 or permission of instructor,When Offered: Fall and Spring terms annually.,['BMED 4260'],['BMED 4260'],Engineering
+BIOMEDICAL ENGR DESIGN,LEC,3,F,10:00AM,10:50AM,Hisham S. Mohamed,Troy Building 2018,34,23,11,BMED,2024-01-08,2024-04-24,SPRING 2024,92225,4600,02,BMED-4600,Biomedical Engr Design,A guided approach to development of design skills. Students work individually and in teams to tackle a biomedical design problem using methods drawn as necessary from engineering and from the physical and mathematical sciences. Discussion sessions involve students in presentations of work. This is a communication-intensive course.,Prerequisite: BMED 4260 or permission of instructor,When Offered: Fall and Spring terms annually.,['BMED 4260'],['BMED 4260'],Engineering
+INTRO TO CELL AND TISSUE ENG,LEC,3,MR,10:00AM,11:20AM,Mariah Somer Hahn/Elizabeth Blaber,Ricketts Building 212,20,18,2,BMED,2024-01-08,2024-04-24,SPRING 2024,91269,4650,01,BMED-4650,Intro To Cell And Tissue Eng,"The principles and practice of tissue engineering are taught in this course. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and biomechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Bioreactors, enabling technology and biomimetic approach for fabricating tissue-engineered products and devices for implantation are taught.","Prerequisites: a basic course in mechanics (ENGR 2530 or BMED 2540 ), and a basic course in transport phenomena or fluid dynamics (BMED 4250 or ENGR 2250 or equivalent), or permission of instructor.",When Offered: Spring term annually.,"['ENGR 2530', 'BMED 2540', 'BMED 4250', 'ENGR 2250']","['ENGR 2530', 'BMED 2540', 'BMED 4250', 'ENGR 2250']",Engineering
+INTRO TO CELL AND TISSUE ENGR,LEC,3,MR,10:00AM,11:20AM,Mariah Somer Hahn/Elizabeth Blaber,Ricketts Building 212,15,15,0,BMED,2024-01-08,2024-04-24,SPRING 2024,92491,6650,01,BMED-6650,Intro To Cell And Tissue Engr,"The principles and practice of tissue engineering are taught in this course. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and biomechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Bioreactor, enabling technology, and biomimetic approach for fabricating tissue-engineered products and devices for implantation are taught.","Prerequisites: a basic course in mechanics (ENGR 2530 or BMED 2540 ), and a basic course in transport phenomena or fluid dynamics (ENGR 2250 or equivalent) or permission of instructor.",When Offered: Spring term annually.,"['ENGR 2530', 'BMED 2540', 'ENGR 2250']","['ENGR 2530', 'BMED 2540', 'ENGR 2250']",Engineering
+BIOPHOTONICS,LEC,3,MR,12:00PM,1:20PM,Xavier R. M. Intes,Amos Eaton Hall 216,20,7,13,BMED,2024-01-08,2024-04-24,SPRING 2024,93187,4440,01,BMED-4440,Biophotonics,"Biophotonics, or biomedical optics, is a newly developing field, dealing with the application of optical science and technology to biomedical problems, including clinical applications. The course introduces students to the fundamentals in modern and classical optics, light-matter interaction and provides them with a broad overview of current topics and contemporary research in the area of optics and lasers in medicine and biology.",None.,When Offered: Fall term annually.,[],[],Engineering
+ETHICAL ISSUES IN BIOTECHNOLOGY,LEC,3,MR,10:00AM,11:20AM,Deepak Vashishth,TBA,25,3,22,BMED,2024-01-08,2024-04-24,SPRING 2024,94472,6700,01,BMED-6700,Ethical Issues In Biotechnology,"This discussion course reviews the principles of ethical behavior and responsible conduct of research and then discusses specific areas of biotechnology research, medical research, and societal issues in the context of these principles. Representative topics include genetic engineering, stem cell research, assisted reproduction, human subjects, animal research, and nanotechnology. Class performance is dependent on active participation and discussion, student presentations, and the submission of analytical essays.",,When Offered: Fall term annually.,[],[],Engineering
+BIOLOGICAL IMAGE ANALYSIS,LEC,3,TF,2:00PM,3:20PM,Pingkun Yan,Jonsson Engineering Center 4304,15,12,3,BMED,2024-01-08,2024-04-24,SPRING 2024,92632,4460,01,BMED-4460,Biological Image Analysis,"Survey of image analysis applications in biology and biotechnology; introduction to biological microscopy and selected biomedical imaging systems; image reconstruction and pre-processing; grayscale and geometric corrections; image segmentation; blob analysis, cell/colony counting, and cell morphometry; vessel and neuron tracing algorithms with applications to neurobiology and medicine; feature extraction, pattern analysis, cluster analysis and classification; image registration algorithms with applications to mosaicing, spatial referencing, motion estimation, and change detection.",Prerequisites: BMED 2300,When Offered: Spring term annually.,['BMED 2300'],['BMED 2300'],Engineering
+BIOMEMS,LEC,3,MR,8:30AM,9:50AM,Deanna Marie Thompson,Jonsson Engineering Center 4304,15,8,7,BMED,2024-01-08,2024-04-24,SPRING 2024,93436,6410,01,BMED-6410,Biomems,"This course discusses state-of-the-art techniques in patterning biomolecules, biosensors, machining three-dimensional microstructures and building microfluidic devices (Lab-on-a-Chip). Seminal and current literature will be used to discuss topics in BioMEMs ranging from device fabrication to applications in cell biology and medicine.",,When Offered: Spring term annually.,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Xavier R. M. Intes,TBA,25,0,25,BMED,2024-01-08,2024-04-24,SPRING 2024,91293,6980,01,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,David Thomas Corr,TBA,25,1,24,BMED,2024-01-08,2024-04-24,SPRING 2024,91294,6980,02,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Eric Howard Ledet,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92281,6980,03,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Deanna Marie Thompson,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92321,6980,04,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Qun Wan,TBA,10,1,9,BMED,2024-01-08,2024-04-24,SPRING 2024,92395,6980,06,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Pingkun Yan,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92475,6980,07,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Ryan James Gilbert,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92499,6980,08,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Mariah Somer Hahn,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92514,6980,10,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Juergen Hahn,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92515,6980,11,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Ge Wang,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,92516,6980,12,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Deepak Vashishth,TBA,10,0,10,BMED,2024-01-08,2024-04-24,SPRING 2024,93347,6980,14,BMED-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+CHEM ENGR LAB II,LEC,3,M,9:00AM,9:50AM,Ronald C. Hedden,Jonsson-Rowland Science Center 2C25,16,13,3,CHME,2024-01-08,2024-04-24,SPRING 2024,91456,4160,01,CHME-4160,Chem Engr Lab Ii,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4150, CHME 4040, and CHME 4500.","When Offered: Spring term annually, Fall term upon availability of instructor.","['CHME 4150', 'CHME 4040', 'CHME 4500']","['CHME 4150', 'CHME 4040', 'CHME 4500']",Engineering
+CHEM ENGR LAB II,LEC,3,T,2:00PM,5:50PM,Ronald C. Hedden,Ricketts Building 008A,16,13,3,CHME,2024-01-08,2024-04-24,SPRING 2024,91456,4160,01,CHME-4160,Chem Engr Lab Ii,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4150, CHME 4040, and CHME 4500.","When Offered: Spring term annually, Fall term upon availability of instructor.","['CHME 4150', 'CHME 4040', 'CHME 4500']","['CHME 4150', 'CHME 4040', 'CHME 4500']",Engineering
+CHEM ENGR LAB II,LEC,3,M,9:00AM,9:50AM,Ronald C. Hedden,Jonsson-Rowland Science Center 2C25,12,7,5,CHME,2024-01-08,2024-04-24,SPRING 2024,91457,4160,02,CHME-4160,Chem Engr Lab Ii,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4150, CHME 4040, and CHME 4500.","When Offered: Spring term annually, Fall term upon availability of instructor.","['CHME 4150', 'CHME 4040', 'CHME 4500']","['CHME 4150', 'CHME 4040', 'CHME 4500']",Engineering
+CHEM ENGR LAB II,LEC,3,R,2:00PM,5:50PM,Ronald C. Hedden,Ricketts Building 008A,12,7,5,CHME,2024-01-08,2024-04-24,SPRING 2024,91457,4160,02,CHME-4160,Chem Engr Lab Ii,"A two-term laboratory course on experimental analysis of the operations and processes of chemical engineering. Emphasis is placed on planning of experiments, data evaluation, and report writing.","Prerequisites: CHME 4150, CHME 4040, and CHME 4500.","When Offered: Spring term annually, Fall term upon availability of instructor.","['CHME 4150', 'CHME 4040', 'CHME 4500']","['CHME 4150', 'CHME 4040', 'CHME 4500']",Engineering
+COLLOID & INTERFACE SCIENCE,LEC,3,MR,4:00PM,5:50PM,Sangwoo Lee,Materials Research Center 136,15,7,8,CHME,2024-01-08,2024-04-24,SPRING 2024,93429,6961,01,CHME-6961,Colloid & Interface Science,,,,[],[],Engineering
+BIOTECHNOL & BIOPROCESSING LAB,LEC,3,M,9:00AM,9:50AM,Jason Mark Warner/Runye H. Zha,Low Center for Industrial Inn. 3039,14,13,1,CHME,2024-01-08,2024-04-24,SPRING 2024,91455,4170,01,CHME-4170,Biotechnol & Bioprocessing Lab,"A one-term laboratory course covering the fundamentals of biotechnology and bioprocessing including molecular biology, fermentation, and protein purification.",Prerequisite: senior standing in chemical and biological engineering. CHME 4430 strongly recommended.,When Offered: Spring term annually; fall term upon availability of instructor.,['CHME 4430'],['CHME 4430'],Engineering
+BIOTECHNOL & BIOPROCESSING LAB,LEC,3,W,2:00PM,5:50PM,Runye H. Zha,Walker Laboratory 2214,14,13,1,CHME,2024-01-08,2024-04-24,SPRING 2024,91455,4170,01,CHME-4170,Biotechnol & Bioprocessing Lab,"A one-term laboratory course covering the fundamentals of biotechnology and bioprocessing including molecular biology, fermentation, and protein purification.",Prerequisite: senior standing in chemical and biological engineering. CHME 4430 strongly recommended.,When Offered: Spring term annually; fall term upon availability of instructor.,['CHME 4430'],['CHME 4430'],Engineering
+BIOTECHNOL & BIOPROCESSING LAB,LEC,3,M,9:00AM,9:50AM,Runye H. Zha/Jason Mark Warner,Low Center for Industrial Inn. 3039,14,14,0,CHME,2024-01-08,2024-04-24,SPRING 2024,93246,4170,02,CHME-4170,Biotechnol & Bioprocessing Lab,"A one-term laboratory course covering the fundamentals of biotechnology and bioprocessing including molecular biology, fermentation, and protein purification.",Prerequisite: senior standing in chemical and biological engineering. CHME 4430 strongly recommended.,When Offered: Spring term annually; fall term upon availability of instructor.,['CHME 4430'],['CHME 4430'],Engineering
+BIOTECHNOL & BIOPROCESSING LAB,LEC,3,R,2:00PM,5:50PM,Runye H. Zha,Walker Laboratory 2214,14,14,0,CHME,2024-01-08,2024-04-24,SPRING 2024,93246,4170,02,CHME-4170,Biotechnol & Bioprocessing Lab,"A one-term laboratory course covering the fundamentals of biotechnology and bioprocessing including molecular biology, fermentation, and protein purification.",Prerequisite: senior standing in chemical and biological engineering. CHME 4430 strongly recommended.,When Offered: Spring term annually; fall term upon availability of instructor.,['CHME 4430'],['CHME 4430'],Engineering
+CHROMATOGRAPHY SEPARATION PROC,LEC,3,MR,12:00PM,1:50PM,Steven Cramer,Jonsson-Rowland Science Center 2C13,15,4,11,CHME,2024-01-08,2024-04-24,SPRING 2024,91059,4400,01,CHME-4400,Chromatography Separation Proc,"Theory and practice of chromatographic separation processes. Topics include chromatographic dispersion, adsorption isotherms, solute movement analysis, chromatographic techniques (reversed-phase, HIC, ion exchange, affinity, and size exclusion), modes of operation (gradient, elution, displacement, and continuous systems), novel morphologies and chromatographic applications in biotechnology. Includes critical reviews of the current literature and computer simulations. Suitable for graduate students in chemical engineering, chemistry, biology, and biomedical engineering.",Prerequisite: senior or graduate standing in chemical engineering or permission of instructor.,When Offered: Spring term annually.,[],[],Engineering
+ChBE SEMINAR,LEC,1,W,9:00AM,10:50AM,Vidhya Chakrapani,Ricketts Building 203,75,53,22,CHME,2024-01-08,2024-04-24,SPRING 2024,91528,6963,01,CHME-6963,Chbe Seminar,,,,[],[],Engineering
+SEMICONDUCTOR ELECTROCHEMISTRY,LEC,3,MR,12:00PM,1:20PM,Vidhya Chakrapani,Ricketts Building 208,15,7,8,CHME,2024-01-08,2024-04-24,SPRING 2024,94525,6011,01,CHME-6011,Semiconductor Electrochemistry,"An interdisciplinary course focusing on the fundamentals and applications of semiconductor electrochemistry, and will serve as a bridge between classical electrochemistry and solid state physics. Topics include fundamentals of semiconductor physics, principles of electrochemistry, nature of semiconductor/electrolyte interfaces, current flow, and the applications of above principles to environment remediation and renewable energy devices such as solar cells, photocatalysis, and battery technologies.",none.,When Offered: Spring term annually.,[],[],Engineering
+PERSPECTIVES IN BMS & ENG,LEC,0,W,3:00PM,3:50PM,Deepak Vashishth,Biotechnology and Interdis Bld ,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,93526,6966,01,CHME-6966,Perspectives In Bms & Eng,,,,[],[],Engineering
+PERSPECTIVES IN ALZ RESEARCH,LEC,0,W,,,TBA,TBA,20,0,20,CHME,2024-01-08,2024-04-24,SPRING 2024,93752,6966,02,CHME-6966,Perspectives In Alz Research,,,,[],[],Engineering
+TRANSPORT PHENOMENA I,LEC,4,MR,10:00AM,11:50AM,Corey Christopher Woodcock,Russell Sage Laboratory 5510,65,48,17,CHME,2024-01-08,2024-04-24,SPRING 2024,92686,4010,01,CHME-4010,Transport Phenomena I,"An introductory course in transport phenomena covering fluid statics, and one-dimensional diffusive processes including laminar flow, heat conduction, and mass diffusion. Course focuses on developing the equations of change, introducing sum-of-resistance concepts and couple fluid flow, heat transfer, and mass transfer problems. The concept of extended surfaces as a means of enhancing transport process is included. The course introduces numerical simulation concepts for solving simple, one-dimensional transport problems. Credit not allowed for both this course and ENGR 2250.",Prerequisite: MATH 2400 and CHME 2010.,"When Offered: Spring term annually, fall and summer terms upon availability of instructor.","['MATH 2400', 'CHME 2010']","['MATH 2400', 'CHME 2010']",Engineering
+CHEMICAL REACTOR DESIGN,LEC,3,MR,10:00AM,11:50AM,Ronald C. Hedden,Jonsson-Rowland Science Center 2C25,30,28,2,CHME,2024-01-08,2024-04-24,SPRING 2024,94790,4500,01,CHME-4500,Chemical Reactor Design,"Principles of kinetics, reactor design, and analysis for both homogeneous and heterogeneous (catalytic) systems. Topics include design for multiple reaction networks (optimum selectivity), analysis of simple reactor combinations, and design of isothermal, adiabatic, and optimum temperature profile reactor.","Prerequisites: CHME 2010, CHME 2020, CHME 4010, and CHME 4020.","When Offered: Fall and Spring terms annually, Summer term upon availability of instructor.","['CHME 2010', 'CHME 2020', 'CHME 4010', 'CHME 4020']","['CHME 2010', 'CHME 2020', 'CHME 4010', 'CHME 4020']",Engineering
+SEMICONDUCTOR ELECTROCHEMISTRY,LEC,3,MR,12:00PM,1:20PM,Vidhya Chakrapani,Ricketts Building 208,15,15,0,CHME,2024-01-08,2024-04-24,SPRING 2024,94522,4011,01,CHME-4011,Semiconductor Electrochemistry,"An interdisciplinary course focusing on the fundamentals and applications of semiconductor electrochemistry, and will serve as a bridge between classical electrochemistry and solid state physics. Topics include fundamentals of semiconductor physics, principles of electrochemistry, nature of semiconductor/electrolyte interfaces, current flow, and the applications of above principles to environment remediation and renewable energy devices such as solar cells, photocatalysis, and battery technologies.",None.,When Offered: Spring term annually.,[],[],Engineering
+TRANSPORT PHENOMENA II,LEC,4,MR,12:00PM,1:50PM,Joel Plawsky,Darrin Communications Center 235,30,6,24,CHME,2024-01-08,2024-04-24,SPRING 2024,91454,4020,01,CHME-4020,Transport Phenomena Ii,"A continuation of CHME 4010. Course includes topics on multi-dimensional transport processes, potential, boundary layer and turbulent fluid flows, convective heat and mass transfer processes, friction factors and drag in and around solid objects, heat and mass exchangers, and radiation heat transfer. The course extends the use of numerical methods to apply to multidimensional problems, convective heat and mass transfer problems, and the simulation of more complicated fluid flows including turbulence approximations. Credit not allowed for both this course and ENGR 2250.",Prerequisite: MATH 2400 and CHME 4010.,"When Offered: Fall and Spring term annually, Summer term upon availability of the instructor.","['CHME 4010', 'MATH 2400', 'CHME 4010']","['CHME 4010', 'MATH 2400', 'CHME 4010']",Engineering
+CHROMATOGRAPHIC SEPARATION PROCESSES,LEC,3,MR,12:00PM,1:50PM,Steven Cramer,Jonsson-Rowland Science Center 2C13,15,5,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92500,6440,01,CHME-6440,Chromatographic Separation Processes,"Theory and practice of chromatographic separation processes. Topics include chromatographic dispersion, adsorption isotherms, solute movement analysis, chromatographic techniques (reversed-phase, HIC, ion exchange, affinity, and size exclusion), modes of operation (gradient, elution, displacement, and continuous systems), novel morphologies and chromatographic applications in biotechnology. Includes critical reviews of the current literature and computer simulations. Suitable for graduate students in chemical engineering, chemistry, biology, and biomedical engineering.",,When Offered: Spring term annually.,[],[],Engineering
+"ENERGY, ENTROPY, & EQUILIBRIUM",LEC,3,TF,2:00PM,3:50PM,Pankaj Karande/Ji Young Kim,Low Center for Industrial Inn. 3051,35,34,1,CHME,2024-01-08,2024-04-24,SPRING 2024,93716,2020,01,CHME-2020,"ENERGY, ENTROPY, & Equilibrium","A continuation of CHME 2010. Topics include process flowsheeting, solution thermodynamics, phase equilibria, chemical-reaction equilibria, and applications of thermodynamics to problems in chemical-process design.",Prerequisites: CHME 2010 and MATH 2400 or equivalent.,When Offered: Spring term annually; fall and summer terms availability of the instructor.,"['CHME 2010', 'CHME 2010', 'MATH 2400']","['CHME 2010', 'CHME 2010', 'MATH 2400']",Engineering
+"ENERGY, ENTROPY, & EQUILIBRIUM",LEC,3,TF,2:00PM,3:50PM,Pankaj Karande/Ji Young Kim,Low Center for Industrial Inn. 3051,35,21,14,CHME,2024-01-08,2024-04-24,SPRING 2024,94788,2020,02,CHME-2020,"ENERGY, ENTROPY, & Equilibrium","A continuation of CHME 2010. Topics include process flowsheeting, solution thermodynamics, phase equilibria, chemical-reaction equilibria, and applications of thermodynamics to problems in chemical-process design.",Prerequisites: CHME 2010 and MATH 2400 or equivalent.,When Offered: Spring term annually; fall and summer terms availability of the instructor.,"['CHME 2010', 'CHME 2010', 'MATH 2400']","['CHME 2010', 'CHME 2010', 'MATH 2400']",Engineering
+INTRODUCTION TO COMPUTATIONAL CHEMICAL ENGINEERING,LEC,3,MR,2:00PM,3:50PM,Nihat Baysal,Ricketts Building 212,30,16,14,CHME,2024-01-08,2024-04-24,SPRING 2024,93726,2050,01,CHME-2050,Introduction To Computational Chemical Engineering,"This course introduces common computational techniques that are used in Chemical Engineering. Topics include solving algebraic equations, data analysis, numerical differentiation and integration, and numerical solutions of differential equations applied to chemical engineering problems. Multiple numerical approaches will be used, including an introduction to computer programming.",Prerequisites/Corequisites: MATH 2400 as a prerequisite only.,"When Offered: Summer term annually, Fall and Spring terms upon availability of the instructor.",['MATH 2400'],['MATH 2400'],Engineering
+CHEMICAL ENG SEPARATIONS,LEC,3,TF,12:30PM,1:50PM,Todd Przybycien,Russell Sage Laboratory 3101,50,30,20,CHME,2024-01-08,2024-04-24,SPRING 2024,94789,4040,01,CHME-4040,Chemical Eng Separations,"The application of the fundamentals of chemistry, thermodynamics, mathematics, and transport phenomena to the design and evaluation of stage-wise and continuous contacting apparatus and systems for separating and purifying chemical materials. Steady-state and transient processes are studied.","Prerequisites: CHME 2020, CHME 4010, and CHME 4020.",When Offered: Fall and spring terms annually; summer term upon availability of instructor.,"['CHME 2020', 'CHME 4010', 'CHME 4020']","['CHME 2020', 'CHME 4010', 'CHME 4020']",Engineering
+MASTERS PROJECT,LEC,1-16,,,,Steven Cramer,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92128,6980,02,CHME-6980,Masters Project,,,,[],[],Engineering
+FUNDMTLS OF CHEMICAL ENGR,LEC,4,MR,10:00AM,11:50AM,Nihat Baysal/Mattheos Koffas,Folsom Library 107,25,24,1,CHME,2024-01-08,2024-04-24,SPRING 2024,94300,1100,01,CHME-1100,Fundmtls Of Chemical Engr,"Problem solving and analysis techniques focused on chemical engineering applications. Principles of steady state material balance calculations, introduction to chemical engineering design and process flowsheeting. The use of software packages to solve algebraic equation systems.",,"When Offered: Spring term annually, fall and summer upon availability of instructor.",[],[],Engineering
+FUNDMTLS OF CHEMICAL ENGR,LEC,4,MR,10:00AM,11:50AM,Nihat Baysal/Mattheos Koffas,Folsom Library 107,25,14,11,CHME,2024-01-08,2024-04-24,SPRING 2024,94301,1100,02,CHME-1100,Fundmtls Of Chemical Engr,"Problem solving and analysis techniques focused on chemical engineering applications. Principles of steady state material balance calculations, introduction to chemical engineering design and process flowsheeting. The use of software packages to solve algebraic equation systems.",,"When Offered: Spring term annually, fall and summer upon availability of instructor.",[],[],Engineering
+CHEMICAL PROCESS SAFETY,LEC,0,,,,Joel Plawsky,Online ,30,32,-2,CHME,2024-01-08,2024-04-24,SPRING 2024,94521,2100,01,CHME-2100,Chemical Process Safety,This is a course designed to supplement RPI's personal lab safety courses and covers the safety protocols and practices associated with chemical process plants. It is designed to provide information necessary for an ABET accredited degree and to assist students in finding an internship and a job. The course uses material offered on-line by the American Institute of Chemical Engineers. It is part of the Safety and Chemical Engineering (SAChE) Certificate program offered by the society and provides continuing education credits for working engineers.,Prerequisite: CHME 2020,"When Offered: Fall, Spring, annually, Summer term upon availability of the instructor.",['CHME 2020'],['CHME 2020'],Engineering
+CHEMICAL PROCESS DSGN: FDMTL,LEC,3,TF,10:00AM,11:50AM,Nihat Baysal/B Wayne Bequette,Pittsburgh Building 4114,27,27,0,CHME,2024-01-08,2024-04-24,SPRING 2024,94457,4050,01,CHME-4050,Chemical Process DSGN: Fdmtl,"The design of equipment, processes, and systems of interest in chemical engineering through application of scientific, technological, and economic principles. The concepts of product design, design for the environment, and the ethical and safety issues of design are introduced. Emphasis is placed on problem formulation and the conceptual, analytical, and decision aspects of open-ended design situations. The work integrates knowledge and skills gained in previous and concurrent courses. This is a communication-intensive course.","Prerequisites: CHME 2100, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring upon availability of instructor.,"['CHME 2100', 'CHME 4040', 'CHME 4500']","['CHME 2100', 'CHME 4040', 'CHME 4500']",Engineering
+CHEMICAL PROCESS DSGN: FDMTL,LEC,3,TF,10:00AM,11:50AM,Nihat Baysal/B Wayne Bequette,Pittsburgh Building 4114,27,18,9,CHME,2024-01-08,2024-04-24,SPRING 2024,94458,4050,02,CHME-4050,Chemical Process DSGN: Fdmtl,"The design of equipment, processes, and systems of interest in chemical engineering through application of scientific, technological, and economic principles. The concepts of product design, design for the environment, and the ethical and safety issues of design are introduced. Emphasis is placed on problem formulation and the conceptual, analytical, and decision aspects of open-ended design situations. The work integrates knowledge and skills gained in previous and concurrent courses. This is a communication-intensive course.","Prerequisites: CHME 2100, CHME 4040, and CHME 4500.",When Offered: Fall term annually; spring upon availability of instructor.,"['CHME 2100', 'CHME 4040', 'CHME 4500']","['CHME 2100', 'CHME 4040', 'CHME 4500']",Engineering
+MASTER'S THESIS,LEC,1-12,,,,Georges Belfort,TBA,5,0,5,CHME,2024-01-08,2024-04-24,SPRING 2024,91437,6990,01,CHME-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Joel Plawsky,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,91824,6990,03,CHME-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Steven Cramer,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92116,6990,04,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Patrick T. Underhill,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92435,6990,05,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Robert J. Linhardt,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92689,6990,06,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Sangwoo Lee,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92536,6990,07,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Runye H. Zha,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,93516,6990,08,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Mattheos Koffas,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92592,6990,10,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Todd Przybycien,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,93978,6990,11,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Vidhya Chakrapani,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,93979,6990,12,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Pankaj Karande,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92946,6990,25,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+CHEMICAL PROCESS DSGN: APPS,LEC,3,,,,Nihat Baysal,TBA,10,6,4,CHME,2024-01-08,2024-04-24,SPRING 2024,95003,4060,01,CHME-4060,Chemical Process DSGN: Apps,"A continuation of CHME 4050. Topics include chemical plant design including full economic analysis, implementation of safety protocols, plant layout design, and complete feasibility study. Projects can be chosen from a wide variety of chemical and bioprocesses to study different aspects of chemical industry.",Prerequisite- CHME 4050,When Offered: Spring term annually Fall term upon availability of the instructor.,"['CHME 4050', 'CHME 4050']","['CHME 4050', 'CHME 4050']",Engineering
+CHEMICAL PROCESS DESIGN,LEC,1,,,,Nihat Baysal,TBA,60,39,21,CHME,2024-01-08,2024-04-24,SPRING 2024,94555,4960,01,CHME-4960,Chemical Process Design,,,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Todd Przybycien,TBA,10,8,2,CHME,2024-01-08,2024-04-24,SPRING 2024,91278,9990,01,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Pankaj Karande,TBA,10,1,9,CHME,2024-01-08,2024-04-24,SPRING 2024,91334,9990,02,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Patrick T. Underhill,TBA,10,4,6,CHME,2024-01-08,2024-04-24,SPRING 2024,91458,9990,03,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Liping Huang,TBA,10,1,9,CHME,2024-01-08,2024-04-24,SPRING 2024,90137,9990,04,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Georges Belfort,TBA,10,3,7,CHME,2024-01-08,2024-04-24,SPRING 2024,90138,9990,05,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Sangwoo Lee,TBA,10,3,7,CHME,2024-01-08,2024-04-24,SPRING 2024,91106,9990,07,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Shekhar S Garde,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,90139,9990,08,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Steven Cramer,TBA,15,9,6,CHME,2024-01-08,2024-04-24,SPRING 2024,90140,9990,09,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Juergen Hahn,TBA,10,1,9,CHME,2024-01-08,2024-04-24,SPRING 2024,91483,9990,10,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jonathan Dordick,TBA,10,5,5,CHME,2024-01-08,2024-04-24,SPRING 2024,90218,9990,11,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Joel Plawsky,TBA,10,1,9,CHME,2024-01-08,2024-04-24,SPRING 2024,90257,9990,12,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Esther Alexandra Wertz,TBA,1,1,0,CHME,2024-01-08,2024-04-24,SPRING 2024,91489,9990,13,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Juergen Hahn,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92351,9990,14,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,B Wayne Bequette,TBA,10,3,7,CHME,2024-01-08,2024-04-24,SPRING 2024,90388,9990,16,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Vidhya Chakrapani,TBA,10,1,9,CHME,2024-01-08,2024-04-24,SPRING 2024,92383,9990,17,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Richard Alan Gross,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,92705,9990,18,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Sufei Shi,TBA,10,1,9,CHME,2024-01-08,2024-04-24,SPRING 2024,93034,9990,19,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Runye H. Zha,TBA,10,4,6,CHME,2024-01-08,2024-04-24,SPRING 2024,93518,9990,20,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Robert J. Linhardt,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,90423,9990,21,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Theodorian Borca-Tasciuc,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,90575,9990,24,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Diana Andra Borca Tasciuc,TBA,10,0,10,CHME,2024-01-08,2024-04-24,SPRING 2024,90979,9990,26,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Mattheos Koffas,TBA,10,5,5,CHME,2024-01-08,2024-04-24,SPRING 2024,92180,9990,29,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+FINITE ELEMENT MODELING,LEC,3,M,3:00PM,3:50PM,Corey Christopher Woodcock,Materials Research Center 136,15,11,4,CHME,2024-01-08,2024-04-24,SPRING 2024,94524,4100,01,CHME-4100,Finite Element Modeling,"This course presents how solutions to problems in transport phenomena can be obtained using the finite element method. The fundamentals of numerical simulation for coupled heat, mass, and momentum transport are presented. Finite difference methods in 1D and 2D are discussed too. Simulations are performed in multiphysics software for 1D, 2D and 3D systems. The course covers the fundamentals of numerical simulation, formulating user-inspired problems, writing user-defined functions and variables, processing results, and extraction and analysis of simulation data.","Prerequisites - CHME 4020, CHME 2050, MATH 2400",When Offered: Spring term annually.,"['CHME 4020', 'CHME 2050', 'MATH 2400']","['CHME 4020', 'CHME 2050', 'MATH 2400']",Engineering
+FINITE ELEMENT MODELING,LEC,3,F,2:00PM,3:50PM,Corey Christopher Woodcock,Materials Research Center 136,15,11,4,CHME,2024-01-08,2024-04-24,SPRING 2024,94524,4100,01,CHME-4100,Finite Element Modeling,"This course presents how solutions to problems in transport phenomena can be obtained using the finite element method. The fundamentals of numerical simulation for coupled heat, mass, and momentum transport are presented. Finite difference methods in 1D and 2D are discussed too. Simulations are performed in multiphysics software for 1D, 2D and 3D systems. The course covers the fundamentals of numerical simulation, formulating user-inspired problems, writing user-defined functions and variables, processing results, and extraction and analysis of simulation data.","Prerequisites - CHME 4020, CHME 2050, MATH 2400",When Offered: Spring term annually.,"['CHME 4020', 'CHME 2050', 'MATH 2400']","['CHME 4020', 'CHME 2050', 'MATH 2400']",Engineering
+COLLOID & INTERFACE SCIENCE,LEC,3,MR,4:00PM,5:50PM,Sangwoo Lee,Materials Research Center 136,15,1,14,CHME,2024-01-08,2024-04-24,SPRING 2024,93428,4961,01,CHME-4961,Colloid & Interface Science,,,,[],[],Engineering
+ADV TRANSPORT PHENOMENA I,LEC,3,MR,10:00AM,11:50AM,Patrick T. Underhill,Low Center for Industrial Inn. 4040,20,17,3,CHME,2024-01-08,2024-04-24,SPRING 2024,90281,6510,01,CHME-6510,Adv Transport Phenomena I,"Continuity, momentum, and energy equations for continuous fluids; constitutive relations. Kinematics of fluid motion; vorticity and circulation. Potential flow. Navier-Stokes equations. Boundary layer theory. Turbulence. Multicomponent reacting systems. Selected applications.",Prerequisites: CHME 4010 and CHME 4020,When Offered: Spring term annually.,"['CHME 4010', 'CHME 4020']","['CHME 4010', 'CHME 4020']",Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,M,2:00PM,3:50PM,Julia D Carroll,Jonsson Engineering Center 1042F,14,13,1,CIVL,2024-01-08,2024-04-24,SPRING 2024,93654,2670,01,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,TF,12:00PM,1:50PM,Julia D Carroll,Low Center for Industrial Inn. 3051,14,13,1,CIVL,2024-01-08,2024-04-24,SPRING 2024,93654,2670,01,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,TF,12:00PM,1:50PM,Julia D Carroll,Low Center for Industrial Inn. 3051,14,14,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93656,2670,02,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,W,10:00AM,11:50AM,Julia D Carroll,Jonsson Engineering Center 1042F,14,14,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93656,2670,02,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,TF,12:00PM,1:50PM,Julia D Carroll,Low Center for Industrial Inn. 3051,14,14,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93657,2670,03,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,T,10:00AM,11:50AM,Julia D Carroll,Jonsson Engineering Center 1042F,14,14,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93657,2670,03,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,TF,12:00PM,1:50PM,Julia D Carroll,Low Center for Industrial Inn. 3051,14,14,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93658,2670,04,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,R,2:00PM,3:50PM,Julia D Carroll,Jonsson Engineering Center 1042F,14,14,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93658,2670,04,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,TF,12:00PM,1:50PM,Julia D Carroll,Low Center for Industrial Inn. 3051,14,10,4,CIVL,2024-01-08,2024-04-24,SPRING 2024,93659,2670,05,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO STRUCTURAL ENG,LEC,4,W,2:00PM,3:50PM,Julia D Carroll,Jonsson Engineering Center 1042F,14,10,4,CIVL,2024-01-08,2024-04-24,SPRING 2024,93659,2670,05,CIVL-2670,Intro To Structural Eng,Introduction to the elastic behavior of structural components. Analysis of statically determinate systems. Deflection calculations by virtual work and elastic load methods. Analysis of simple statically indeterminate structures. Influence lines. Interaction of structural components. Typical structural engineering loads.,Prerequisite: ENGR 2530 or equivalent.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+MASS TRANSIT SYSTEMS,LEC,3,MR,2:00PM,3:50PM,John M. Reilly,Amos Eaton Hall 215,20,12,8,CIVL,2024-01-08,2024-04-24,SPRING 2024,94115,4620,01,CIVL-4620,Mass Transit Systems,"The basic concepts of planning, design, and operation of urban mass transit systems. Topics include travel demand, network configurations, communication and control systems, power systems, vehicle technology, guideway and vehicle support, and guidance technology, routing, and scheduling, operating practice, marketing and financing of transit service, interface design, and implementation. These topics are discussed with relation to bus transit systems, guided transit systems, and several new systems. Several case studies examined.",Prerequisite: CIVL 2030.,When Offered: Spring term annually,['CIVL 2030'],['CIVL 2030'],Engineering
+BEDFORD SEMINAR,LEC,3,W,12:00PM,1:50PM,James Norman Richardson,Russell Sage Laboratory 3705,12,5,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,92343,4020,01,CIVL-4020,Bedford Seminar,The seminar will be interdisciplinary with students from both architecture and civil engineering departments. The content of the lectures bears direct relation to practical experience and is considered to be supplementary to the other courses in the respective engineering and architecture schools. Specific types of structures will be examined with the help of suitable existing project examples clarifying and critically analyzing the basic engineering principles behind them. Students will be exposed to the collaborative methods inherent within the architect/engineer relationship.,,When Offered: Fall and spring terms annually.,[],[],Engineering
+CIVL AND ENVIRONMENTAL ENGINEERING GRADUATE SEMINAR,LEC,1,W,12:00PM,1:50PM,Shun Uchida,Ricketts Building 208,15,4,11,CIVL,2024-01-08,2024-04-24,SPRING 2024,90091,6900,01,CIVL-6900,Civl And Environmental Engineering Graduate Seminar,"Civil and environmental engineering graduate students present seminars about their research to an audience composed of students and faculty, and participate in discussions about the research of others. The course consists of one-hour weekly meetings. The faculty member in charge of the course helps the students develop their presentation and communication skills. M.S. and Ph.D. students are required to take this course once before completion of their terminal degree. This course is not required for M. Eng. students not doing a thesis or project.",,When Offered: Spring term annually.,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Marianne C. Nyman,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,92249,6980,01,CIVL-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Julia D Carroll,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,91515,6990,01,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Michael Symans,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,91926,6990,02,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jose E. Holguin-Veras,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,90143,6990,03,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Christopher W Letchford,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,92408,6990,07,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Tarek H Abdoun,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,90444,6990,08,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Xiaokun Wang,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,92405,6990,09,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Mourad Zeghal,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,92413,6990,10,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Victoria Gene Bennett,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,92545,6990,12,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+CONCRETE DESIGN,LEC,4,TF,2:00PM,3:50PM,Christos Varsamis,Darrin Communications Center 236,10,10,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,94450,4080,01,CIVL-4080,Concrete Design,"Analysis and design of reinforced concrete structures using ultimate strength methods. Design of beams, columns, slabs, and footings. Development and anchorage of reinforcing bars. Laboratory testing of hardened concrete mechanical properties.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+CONCRETE DESIGN,LEC,4,T,4:00PM,6:00PM,Christos Varsamis,Darrin Communications Center 236,10,10,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,94450,4080,01,CIVL-4080,Concrete Design,"Analysis and design of reinforced concrete structures using ultimate strength methods. Design of beams, columns, slabs, and footings. Development and anchorage of reinforcing bars. Laboratory testing of hardened concrete mechanical properties.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+CONCRETE DESIGN,LEC,4,TF,2:00PM,3:50PM,Christos Varsamis,Darrin Communications Center 236,10,10,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,94451,4080,02,CIVL-4080,Concrete Design,"Analysis and design of reinforced concrete structures using ultimate strength methods. Design of beams, columns, slabs, and footings. Development and anchorage of reinforcing bars. Laboratory testing of hardened concrete mechanical properties.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+CONCRETE DESIGN,LEC,4,W,4:00PM,6:00PM,Christos Varsamis,Carnegie Building 205,10,10,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,94451,4080,02,CIVL-4080,Concrete Design,"Analysis and design of reinforced concrete structures using ultimate strength methods. Design of beams, columns, slabs, and footings. Development and anchorage of reinforcing bars. Laboratory testing of hardened concrete mechanical properties.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+CONCRETE DESIGN,LEC,4,TF,2:00PM,3:50PM,Christos Varsamis,Darrin Communications Center 236,10,9,1,CIVL,2024-01-08,2024-04-24,SPRING 2024,94452,4080,03,CIVL-4080,Concrete Design,"Analysis and design of reinforced concrete structures using ultimate strength methods. Design of beams, columns, slabs, and footings. Development and anchorage of reinforcing bars. Laboratory testing of hardened concrete mechanical properties.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+CONCRETE DESIGN,LEC,4,F,4:00PM,6:00PM,Christos Varsamis,Darrin Communications Center 236,10,9,1,CIVL,2024-01-08,2024-04-24,SPRING 2024,94452,4080,03,CIVL-4080,Concrete Design,"Analysis and design of reinforced concrete structures using ultimate strength methods. Design of beams, columns, slabs, and footings. Development and anchorage of reinforcing bars. Laboratory testing of hardened concrete mechanical properties.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+DISSERTATION,LEC,1-15,,,,Michael Symans,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,90141,9990,01,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Xiaozheng He,TBA,10,2,8,CIVL,2024-01-08,2024-04-24,SPRING 2024,91288,9990,02,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jose E. Holguin-Veras,TBA,10,3,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,90142,9990,03,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Christopher W Letchford,TBA,10,4,6,CIVL,2024-01-08,2024-04-24,SPRING 2024,92244,9990,04,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Ruimin Ke,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,90145,9990,05,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Mourad Zeghal,TBA,10,3,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,90147,9990,06,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Xiaokun Wang,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,92245,9990,07,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Tarek H Abdoun,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,90409,9990,08,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Min Li,TBA,10,0,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,90410,9990,09,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Victoria Gene Bennett,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,92668,9990,13,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Shun Uchida,TBA,10,1,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,93218,9990,15,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+CIVIL ENGINEERING CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,John M. Reilly/Julia D Carroll,Amos Eaton Hall 215,50,47,3,CIVL,2024-01-08,2024-04-24,SPRING 2024,90285,4920,01,CIVL-4920,Civil Engineering Capstone Design,"Open-ended design project in which students work in teams. Oral presentations and written reports cover alternates considered, design assumptions, cost, safety, and feasibility. This is a communication-intensive course.",Prerequisites: senior status and 6 credit hours of civil engineering design electives in one focus area. Core course - ENGR 2050.* Concentrations and associated design electives are:1) Structural: CIVL 4070 and CIVL 4080; or2) Geotechnical: CIVL 4010 and either CIVL 4140 or CIVL 4150; or3) Transportation: two of the following courses: CIVL 4620 or CIVL 4640 or CIVL 4660 or CIVL 4670; or4) Water Resources: two of the following courses: CIVL 4140 or CIVL 4670 or ENVE 4710. *,When Offered: Spring term annually.,"['ENGR 2050', 'CIVL 4070', 'CIVL 4080', 'CIVL 4010', 'CIVL 4140', 'CIVL 4150', 'CIVL 4620', 'CIVL 4640', 'CIVL 4660', 'CIVL 4670', 'CIVL 4140', 'CIVL 4670', 'ENVE 4710']","['ENGR 2050', 'CIVL 4070', 'CIVL 4080', 'CIVL 4010', 'CIVL 4140', 'CIVL 4150', 'CIVL 4620', 'CIVL 4640', 'CIVL 4660', 'CIVL 4670', 'CIVL 4140', 'CIVL 4670', 'ENVE 4710']",Engineering
+GEOTECHNICAL DESIGN,LEC,4,MR,10:00AM,11:50AM,Omar Osama El-Shafee,Low Center for Industrial Inn. 3116,14,0,14,CIVL,2024-01-08,2024-04-24,SPRING 2024,90102,4150,01,CIVL-4150,Geotechnical Design,"Second course in geotechnical engineering, emphasizing the use of Laboratory obtained soil properties (consolidation, compressibility, and shear strength) in the design of geotechnical systems such as slope stability, soil structure systems, foundation settlement, etc.",Prerequisite: CIVL 2630 or equivalent.,When Offered: Spring term annually.,['CIVL 2630'],['CIVL 2630'],Engineering
+GEOTECHNICAL DESIGN,LEC,4,T,12:00PM,1:50PM,Omar Osama El-Shafee,Jonsson Engineering Center 1302,14,0,14,CIVL,2024-01-08,2024-04-24,SPRING 2024,90102,4150,01,CIVL-4150,Geotechnical Design,"Second course in geotechnical engineering, emphasizing the use of Laboratory obtained soil properties (consolidation, compressibility, and shear strength) in the design of geotechnical systems such as slope stability, soil structure systems, foundation settlement, etc.",Prerequisite: CIVL 2630 or equivalent.,When Offered: Spring term annually.,['CIVL 2630'],['CIVL 2630'],Engineering
+GEOTECHNICAL DESIGN,LEC,4,MR,10:00AM,11:50AM,Omar Osama El-Shafee,Low Center for Industrial Inn. 3116,14,5,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,93762,4150,02,CIVL-4150,Geotechnical Design,"Second course in geotechnical engineering, emphasizing the use of Laboratory obtained soil properties (consolidation, compressibility, and shear strength) in the design of geotechnical systems such as slope stability, soil structure systems, foundation settlement, etc.",Prerequisite: CIVL 2630 or equivalent.,When Offered: Spring term annually.,['CIVL 2630'],['CIVL 2630'],Engineering
+GEOTECHNICAL DESIGN,LEC,4,W,12:00PM,1:50PM,Omar Osama El-Shafee,Jonsson Engineering Center 1302,14,5,9,CIVL,2024-01-08,2024-04-24,SPRING 2024,93762,4150,02,CIVL-4150,Geotechnical Design,"Second course in geotechnical engineering, emphasizing the use of Laboratory obtained soil properties (consolidation, compressibility, and shear strength) in the design of geotechnical systems such as slope stability, soil structure systems, foundation settlement, etc.",Prerequisite: CIVL 2630 or equivalent.,When Offered: Spring term annually.,['CIVL 2630'],['CIVL 2630'],Engineering
+EARTHQUAKE ENGR,LEC,3,MR,2:00PM,3:50PM,Christos Varsamis,Low Center for Industrial Inn. 3116,15,12,3,CIVL,2024-01-08,2024-04-24,SPRING 2024,94726,6490,01,CIVL-6490,Earthquake Engr,Measurement and characterization of earthquake ground motion and structural response in time and frequency domains. Linear and nonlinear response history and response spectrum analysis of structures subject to earthquake loading. Seismic analysis and design of structural systems using building codes and design specifications.,Prerequisite: CIVL 6450.,"When Offered: Spring term, even-numbered years.",['CIVL 6450'],['CIVL 6450'],Engineering
+STRUCTURAL RELIABILITY,LEC,3,MR,10:00AM,11:50AM,Min Li,Low Center for Industrial Inn. 3112,15,10,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,94724,6960,01,CIVL-6960,Structural Reliability,,,,[],[],Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MR,8:00AM,9:50AM,Kartik Josyula,Troy Building 2018,5,0,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,93182,4240,01,CIVL-4240,Intro To Finite Elements,"An introductory course in use of the Finite Element Method (FEM) to solve one-and two-dimensional problems in fluid mechanics, heat transfer, and elasticity. The methods are developed using weighted residuals. Algorithms for the construction and solution of the governing equations are also covered. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2250 or ENGR 2530 and senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2250', 'ENGR 2530']","['ENGR 2250', 'ENGR 2530']",Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MR,10:00AM,11:50AM,Mark S Shephard,Russell Sage Laboratory 3101,5,2,3,CIVL,2024-01-08,2024-04-24,SPRING 2024,93689,4240,02,CIVL-4240,Intro To Finite Elements,"An introductory course in use of the Finite Element Method (FEM) to solve one-and two-dimensional problems in fluid mechanics, heat transfer, and elasticity. The methods are developed using weighted residuals. Algorithms for the construction and solution of the governing equations are also covered. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2250 or ENGR 2530 and senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2250', 'ENGR 2530']","['ENGR 2250', 'ENGR 2530']",Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MR,12:00PM,1:50PM,Ali Shahsavari,Pittsburgh Building 5216,5,1,4,CIVL,2024-01-08,2024-04-24,SPRING 2024,93880,4240,03,CIVL-4240,Intro To Finite Elements,"An introductory course in use of the Finite Element Method (FEM) to solve one-and two-dimensional problems in fluid mechanics, heat transfer, and elasticity. The methods are developed using weighted residuals. Algorithms for the construction and solution of the governing equations are also covered. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2250 or ENGR 2530 and senior standing.,When Offered: Fall and spring terms annually.,"['ENGR 2250', 'ENGR 2530']","['ENGR 2250', 'ENGR 2530']",Engineering
+CONSTRUCTION MANAGEMENT,LEC,3,MW,6:00PM,7:50PM,Paul McCoy,Carnegie Building 113,25,25,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,90129,4270,01,CIVL-4270,Construction Management,"Application of engineering principles to planning construction operations. Network scheduling (CPM, PERT), resource allocation. Cost engineering and control.",Senior standing.,When Offered: Spring term annually.,[],[],Engineering
+DESIGN FOR CONSTRUCTABILITY,LEC,3,MR,4:00PM,5:50PM,Steven Paul Hagy,Jonsson Engineering Center 4304,25,8,17,CIVL,2024-01-08,2024-04-24,SPRING 2024,92968,4280,01,CIVL-4280,Design For Constructability,"Design of systems to consider foundations, structures, and constructability; foundation alternatives; structural design to simplify erection; prefabrication, modulation of structures; material handling on a construction site; crane selection and placement; temporary works.",Prerequisites: CIVL 4070 or CIVL 4080 or permission of instructor.,When Offered: Spring term annually.,"['CIVL 4070', 'CIVL 4080']","['CIVL 4070', 'CIVL 4080']",Engineering
+BEDFORD DIGITAL TOOLS DEV.,LEC,1,W,12:00PM,1:50PM,Jillian Marie Crandall,Greene Building 201,25,0,25,CIVL,2024-01-08,2024-04-24,SPRING 2024,93445,4961,01,CIVL-4961,Bedford Digital Tools DEV.,,,,[],[],Engineering
+"ADV SEEPAGE, DRAINAGE, GRNDWTR",LEC,3,TF,2:00PM,3:50PM,Shun Uchida,Darrin Communications Center 239,15,4,11,CIVL,2024-01-08,2024-04-24,SPRING 2024,94430,6530,01,CIVL-6530,"Adv SEEPAGE, DRAINAGE, Grndwtr","Introduction to groundwater hydrology, permeability, seepage, transient flow, hdro-mechanical analysis, consolidation, and practical applications, including design of earth structures.",Prerequisite: CIVL 2060 and CIVL 2630 or equivalent.,"When Offered: Spring term, even-numbered years.","['CIVL 2060', 'CIVL 2630']","['CIVL 2060', 'CIVL 2630']",Engineering
+INTRODUCTION TO CIVIL AND ENVIRONMENTAL ENGINEERING,LEC,1,R,6:00PM,7:50PM,Christos Varsamis,Carnegie Building 113,92,82,10,CIVL,2024-01-08,2024-04-24,SPRING 2024,92348,1100,01,CIVL-1100,Introduction To Civil And Environmental Engineering,"Deals with the practice of civil and environmental engineering. Not a highly analytical course, as the course is primarily intended for first year students. Some topics include: history of civil engineering; present practice; typical employers; typical projects; design philosophy; professional topics including organizations, registrations, ethics. Discuss case histories, bring in outside speakers. Students attend CE Capstone presentations.",,When Offered: Spring term annually.,[],[],Engineering
+INTRO TRANSPORTATION ENGINEERI,LEC,4,TF,2:00PM,3:50PM,Ruimin Ke,Ricketts Building 211,75,68,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,93649,2030,01,CIVL-2030,Intro Transportation Engineeri,"Introduction to basic concepts in transportation engineering including planning, design, and operations. Introduces the challenges and issues in modeling transportation problems. Studies of various concepts related to the design of highway facilities, level of service, and demand for transportation services. Concepts related to signal optimization. Policy implications. Basics of transportation planning.",,When Offered: Spring term annually.,[],[],Engineering
+MATRIX STRUCTURAL ANALYSIS,LEC,3,TF,10:00AM,11:50AM,Michael Symans,Russell Sage Laboratory 2701,25,18,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,91843,4440,01,CIVL-4440,Matrix Structural Analysis,"Principles of displacement-based structural analysis; development of element and structure stiffness matrices; direct stiffness method for matrix structural analysis of trusses, beams, and frames; computer analysis of structures; introduction to finite element method.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+CONCEPTUAL STRUCTURAL SYSTEMS,LEC,3,TF,12:00PM,1:20PM,Marc Anthony Tatarsky,Darrin Communications Center 236,25,14,11,CIVL,2024-01-08,2024-04-24,SPRING 2024,92349,4450,01,CIVL-4450,Conceptual Structural Systems,"This course covers concepts of structural systems. The course is aimed at understanding behavior of different structural systems and how they respond to various loading conditions. The concept of load transfer, shaping, and form finding is of particular interest. This concept is reinforced through analytical, digital, and physical modeling intended to foster intuitive thinking. The course includes the following: approximate analyses of statically indeterminate beams, rigid frames, and vierendeel frames; cable suspended structures, arch supported structures; masonry structures, space frame, and folded plate structures; spherical, cylindrical, and hyperbolic shells; net and tent structures; air-supported and air-inflated structures, and hybrid structural systems. The course includes guest lectures, project, computer simulation, and testing physical models.",Prerequisite: CIVL 2670.,When Offered: Spring term annually.,['CIVL 2670'],['CIVL 2670'],Engineering
+ADV STEEL DESIGN,LEC,3,MR,6:00PM,8:50PM,Mark C. Kanonik,Carnegie Building 205,25,10,15,CIVL,2024-01-08,2024-04-24,SPRING 2024,90522,6320,01,CIVL-6320,Adv Steel Design,"Advanced analysis and design of complex metal structures. Flexible, semi-rigid, and rigid connections. Plate girders, torsional design. Effects of semi-rigid connections on structural stability.",Prerequisite: CIVL 4070 or equivalent.,When Offered: Spring term annually.,['CIVL 4070'],['CIVL 4070'],Engineering
+BEG PROGRAM CIVL & ENVIR ENGR,LEC,1,TF,8:00AM,9:50AM,Xiaozheng He,Darrin Communications Center 337,75,71,4,CIVL,2024-01-08,2024-02-28,SPRING 2024,94309,1300,01,CIVL-1300,Beg Program Civl & Envir Engr,"This course teaches elementary programming concepts using the Python environment. Students are expected to have little or no prior programming experience. Topics include Python language syntax, variables, looping, function calls, manipulating arrays, performing statistical calculations, and plotting results.",None,When Offered: Spring terms annually,[],[],Engineering
+BEDFORD DESIGN STUDIO,LEC,3,W,2:00PM,5:50PM,James Norman Richardson,Russell Sage Laboratory 3705,10,8,2,CIVL,2024-01-08,2024-04-24,SPRING 2024,92344,6340,01,CIVL-6340,Bedford Design Studio,"Open-ended design project in which students work in teams of four (two engineers and two architects) to replicate the Architecture/Structural Engineering integrated design of buildings. Oral presentations and written reports and studio critics cover alternatives considered, design assumptions, and cost estimates. This is a communication-intensive course.","Prerequisites: CIVL 4020/ARCH 4020, CIVL 6310 and CIVL 6320.",When Offered: Fall and spring terms annually.,"['CIVL 4020', 'ARCH 4020', 'CIVL 6310', 'CIVL 6320']","['CIVL 4020', 'ARCH 4020', 'CIVL 6310', 'CIVL 6320']",Engineering
+INTRO WATER RESOURCE ENG,LEC,4,MR,10:00AM,11:50AM,Daniel Chapman Lander,Carnegie Building 113,30,25,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,94121,2060,01,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,W,8:00AM,9:50AM,TBA,Jonsson Engineering Center 1034,30,25,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,94121,2060,01,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 1034,30,25,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,94121,2060,01,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,MR,10:00AM,11:50AM,Daniel Chapman Lander,Carnegie Building 113,30,27,3,CIVL,2024-01-08,2024-04-24,SPRING 2024,94357,2060,02,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,W,10:00AM,11:50AM,Daniel Chapman Lander,Jonsson Engineering Center 1034,30,27,3,CIVL,2024-01-08,2024-04-24,SPRING 2024,94357,2060,02,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 1034,30,27,3,CIVL,2024-01-08,2024-04-24,SPRING 2024,94357,2060,02,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,MR,10:00AM,11:50AM,Daniel Chapman Lander,Carnegie Building 113,30,24,6,CIVL,2024-01-08,2024-04-24,SPRING 2024,94429,2060,03,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,W,12:00PM,1:50PM,TBA,Jonsson Engineering Center 1034,30,24,6,CIVL,2024-01-08,2024-04-24,SPRING 2024,94429,2060,03,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+INTRO WATER RESOURCE ENG,LEC,4,W,2:00PM,3:50PM,Daniel Chapman Lander,Jonsson Engineering Center 1034,30,24,6,CIVL,2024-01-08,2024-04-24,SPRING 2024,94429,2060,03,CIVL-2060,Intro Water Resource Eng,"This course provides a foundational treatment of water resources engineering through theory, analysis and design. Hydrologic cycle, water resources sustainability, and water resources planning. Pipe flow and pipe networks, with application to distribution systems. Hydraulics of open-channel flow and control structures such as culverts, gates, weirs, spillways and stilling basins. Reservoir routing and design of storage. Contemporary issues including green infrastructure, storm surge and climate change. Experimental laboratory sessions reinforce lectures and provide hands‐on learning opportunities.",Prerequisites: CIVL 2050 or other fluid mechanics course approved by the instructor.,When Offered: Spring term annually.,['CIVL 2050'],['CIVL 2050'],Engineering
+"SEEPAGE, DRAINAGE, GROUNDWATER",LEC,3,TF,2:00PM,3:50PM,Shun Uchida,Darrin Communications Center 239,15,4,11,CIVL,2024-01-08,2024-04-24,SPRING 2024,94717,4530,01,CIVL-4530,"SEEPAGE, DRAINAGE, Groundwater","Introduction to groundwater hydrology, permeability, seepage, transient flow, hydro-mechanical analysis, consolidation, and simple analytical solutions.",Prerequisites: CIVL 2060 and CIVL 2630 or equivalent.,"When Offered: Spring term, even-numbered years.","['CIVL 2060', 'CIVL 2630']","['CIVL 2060', 'CIVL 2630']",Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,MR,12:00PM,1:50PM,Victoria Gene Bennett,Carnegie Building 113,15,15,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93660,2630,01,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,M,2:00PM,3:50PM,Victoria Gene Bennett,Jonsson Engineering Center 1302,15,15,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93660,2630,01,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,MR,12:00PM,1:50PM,Victoria Gene Bennett,Carnegie Building 113,15,10,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,93661,2630,02,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,W,10:00AM,11:50AM,Victoria Gene Bennett,Jonsson Engineering Center 1302,15,10,5,CIVL,2024-01-08,2024-04-24,SPRING 2024,93661,2630,02,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,MR,12:00PM,1:50PM,Victoria Gene Bennett,Carnegie Building 113,15,15,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93662,2630,03,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,T,10:00AM,11:50AM,Victoria Gene Bennett,Jonsson Engineering Center 1302,15,15,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93662,2630,03,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,MR,12:00PM,1:50PM,Victoria Gene Bennett,Carnegie Building 113,10,10,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93663,2630,04,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,R,2:00PM,3:50PM,Victoria Gene Bennett,Jonsson Engineering Center 1302,10,10,0,CIVL,2024-01-08,2024-04-24,SPRING 2024,93663,2630,04,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,MR,12:00PM,1:50PM,Victoria Gene Bennett,Carnegie Building 113,15,8,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,93665,2630,05,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+INTRO TO GEOTECHNICAL ENGR,LEC,4,W,2:00PM,3:50PM,Victoria Gene Bennett,Jonsson Engineering Center 1302,15,8,7,CIVL,2024-01-08,2024-04-24,SPRING 2024,93665,2630,05,CIVL-2630,Intro To Geotechnical Engr,"The application of the basic laws and phenomena of science to particulate matter, specifically soils. Basic physical and mechanical structural characteristics of soil. Equilibrium and movement of water. Flow through porous media. Effective stress. Stress-strain-time relations. Basic laboratory work as related to practice.",Prerequisite: ENGR 2530.,When Offered: Spring term annually.,['ENGR 2530'],['ENGR 2530'],Engineering
+SYSTEM MODELING FOR CIVL & ENV,LEC,3,TF,12:00PM,1:50PM,Tathagata Bhaduri,Low Center for Industrial Inn. 3112,10,4,6,CIVL,2024-01-08,2024-04-24,SPRING 2024,94122,4570,01,CIVL-4570,System Modeling For Civl & Env,"This course is an applications-oriented course covering basic analytical tools for modeling and optimization of large-scale civil and environmental engineering systems. Application domains that will be discussed include: scheduling in large systems, construction management, multi-purpose reservoir operation, transportation and logistics planning, as well as other civil and environmental engineering systems. An overview of different optimization techniques, with a particular focus on network flow problems and introductory stochastic analysis will be provided. Software to solve these problems will be used throughout the course.",none.,When Offered: Fall term annually.,[],[],Engineering
+CPTR COMPONENTS & OPER,LEC,4,TF,12:00PM,1:50PM,James D. Rees,Academy Hall AUD,40,40,0,ECSE,2024-01-08,2024-04-24,SPRING 2024,90103,2610,01,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,W,12:00PM,1:50PM,James D. Rees,Jonsson Engineering Center 6309,40,40,0,ECSE,2024-01-08,2024-04-24,SPRING 2024,90103,2610,01,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,TF,12:00PM,1:50PM,James D. Rees,Academy Hall AUD,40,40,0,ECSE,2024-01-08,2024-04-24,SPRING 2024,91863,2610,02,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,W,3:00PM,4:50PM,James D. Rees,Jonsson Engineering Center 6309,40,40,0,ECSE,2024-01-08,2024-04-24,SPRING 2024,91863,2610,02,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,TF,12:00PM,1:50PM,James D. Rees,Academy Hall AUD,36,34,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,90104,2610,03,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+CPTR COMPONENTS & OPER,LEC,4,W,5:00PM,6:50PM,James D. Rees,Jonsson Engineering Center 6309,36,34,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,90104,2610,03,ECSE-2610,Cptr Components & Oper,"Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools.",Prerequisite: CSCI 1100.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+ADVANCED ELECTRONIC CIRCUITS,LEC,3,MR,10:00AM,11:20AM,Kyle Richard Wilt,Jonsson Engineering Center 4104,36,7,29,ECSE,2024-01-08,2024-04-24,SPRING 2024,92662,4050,01,ECSE-4050,Advanced Electronic Circuits,"Linear and non-linear applications of operational amplifiers, with an emphasis on circuit design. Non-ideal operational amplifier behavior, including both static and dynamic characteristics. Amplifier stability and frequency compensation techniques. Operational amplifier-based oscillators. Circuit noise.",Prerequisite: ECSE 2050.,When Offered: Spring term annually.,['ECSE 2050'],['ECSE 2050'],Engineering
+FDMTLS OF RF/MICROWAVE ENGR,LEC,3,MR,2:00PM,3:20PM,Mona Mostafa Hella,Jonsson Engineering Center 4107,15,2,13,ECSE,2024-01-08,2024-04-24,SPRING 2024,94311,6310,01,ECSE-6310,Fdmtls Of RF/MICROWAVE Engr,"Study of transmission lines, impedance matching, passive and active microwave systems. Work with S-parameters and experiment with the use of Smith chart. Introduction to microwave CAD tools for 2D electromagnetic (EM) simulations and microwave testing. Emphasis on physical understanding, quantitative performance evaluation using both hand calculations and EM simulations.",Prerequisites ECSE 4030 or permission of instructor.,When Offered: Spring term annually,['ECSE 4030'],['ECSE 4030'],Engineering
+MODERN COMMUNICATION SYS,LEC,3,TF,10:00AM,11:20AM,Koushik Kar,Jonsson Engineering Center 4104,10,5,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,93395,6560,01,ECSE-6560,Modern Communication Sys,"A broad introduction to modern communication systems, with applications to emerging wireless communication technologies. Fundamental principles of wireless channel modeling; performance limits of communication systems; analog and digital modulation techniques; source and channel coding; multi-antenna communication systems; multi-carrier modulation; multi-user communication systems. Emerging wireless technologies such as MIMO and OFDM, with applications to cellular and wireless LAN communication standards. Complemented with computational exercises.",Prerequisites: ECSE 2410 and ECSE 2500 or equivalent.,When Offered: Fall term annually.,"['ECSE 2410', 'ECSE 2500']","['ECSE 2410', 'ECSE 2500']",Engineering
+DISTRIB. OPTIMIZ. & LEARNING,LEC,3,MR,12:30PM,1:50PM,Tianyi Chen,Ricketts Building 212,15,8,7,ECSE,2024-01-08,2024-04-24,SPRING 2024,93200,6964,01,ECSE-6964,DISTRIB. OPTIMIZ. & Learning,,,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Eric Fred Schubert,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90157,9990,01,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Jianqiang Lu,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91333,9990,02,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Partha S. Dutta,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90158,9990,03,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Richard J Radke,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90159,9990,04,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Sandipan Mishra,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93749,9990,05,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Alex Algernon Theodore Gittens,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,90160,9990,06,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Zheyu Zhang,TBA,10,4,6,ECSE,2024-01-08,2024-04-24,SPRING 2024,90161,9990,07,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Ge Wang,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,91472,9990,08,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,John Wen,TBA,10,4,6,ECSE,2024-01-08,2024-04-24,SPRING 2024,90164,9990,11,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Santiago Paternain,TBA,10,5,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,91344,9990,12,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Tat-Sing Chow,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90165,9990,13,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Moussa Ngom,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90166,9990,14,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Shayla Maya Sawyer,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,91500,9990,15,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Ishwara B Bhat,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90167,9990,16,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Stacy Elizabeth Patterson,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90168,9990,17,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Tianyi Chen,TBA,10,8,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,91507,9990,19,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Tong Zhang,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90207,9990,20,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Michael Shur,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90211,9990,21,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Alhussein A Abouzeid,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90216,9990,22,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Qiang Ji,TBA,10,7,3,ECSE,2024-01-08,2024-04-24,SPRING 2024,90217,9990,23,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Esen Yel,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90330,9990,24,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,W. Randolph Franklin,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92390,9990,25,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Paul Matthew Schoch,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91524,9990,26,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Birsen Yazici,TBA,10,3,7,ECSE,2024-01-08,2024-04-24,SPRING 2024,90389,9990,27,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92086,9990,28,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Luigi Vanfretti,TBA,10,5,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,93557,9990,29,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90391,9990,30,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Joe H Chow,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91888,9990,31,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Koushik Kar,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90419,9990,32,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93741,9990,33,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90420,9990,34,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91726,9990,35,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Anak Agung Julius,TBA,10,5,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,91883,9990,36,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Tong Zhang,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,90430,9990,37,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91536,9990,38,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93045,9990,39,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Jian Sun,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,90486,9990,40,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90496,9990,41,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Ali Tajer,TBA,10,8,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,92670,9990,42,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91091,9990,43,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Jian Shi,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,94616,9990,44,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Alhussein A Abouzeid,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,90562,9990,45,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Zhaoran Huang,TBA,10,4,6,ECSE,2024-01-08,2024-04-24,SPRING 2024,90568,9990,46,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Mona Mostafa Hella,TBA,10,5,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,90673,9990,47,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91526,9990,48,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Liu Liu,TBA,10,4,6,ECSE,2024-01-08,2024-04-24,SPRING 2024,94634,9990,49,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Robert Frank Karlicek,TBA,3,1,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,92318,9990,51,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,5,0,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,92454,9990,52,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Meng Wang,TBA,10,7,3,ECSE,2024-01-08,2024-04-24,SPRING 2024,92529,9990,53,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,15,0,15,ECSE,2024-01-08,2024-04-24,SPRING 2024,92531,9990,55,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,0,0,0,ECSE,2024-01-08,2024-04-24,SPRING 2024,93065,9990,56,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Sufei Shi,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93225,9990,58,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Bulent Yener,TBA,10,3,7,ECSE,2024-01-08,2024-04-24,SPRING 2024,93233,9990,59,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MECHATRONICS,LEC,3,MR,12:00PM,1:50PM,Sandipan Mishra,Jonsson Engineering Center 4304,12,9,3,ECSE,2024-01-08,2024-04-24,SPRING 2024,93007,4090,01,ECSE-4090,Mechatronics,"The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design.",Prerequisites: MANE 4500 or ECSE 2410.,When Offered: Fall and spring terms annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
+FAB TECH f SEMICONDUCTOR MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Darrin Communications Center 337,100,43,57,ECSE,2024-01-08,2024-04-24,SPRING 2024,94474,4961,01,ECSE-4961,Fab Tech F Semiconductor Mfg,,,,[],[],Engineering
+FUND OF OPTOELECTRONICS TECH,LEC,3,MR,12:30PM,1:50PM,Zhaoran Huang,Russell Sage Laboratory 2715,20,17,3,ECSE,2024-01-08,2024-04-24,SPRING 2024,94733,4962,01,ECSE-4962,Fund Of Optoelectronics Tech,,,,[],[],Engineering
+ECSE ENRICHMENT SEMINAR,LEC,1,T,4:00PM,4:50PM,Robert Frank Karlicek,Darrin Communications Center 337,110,101,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,92661,2900,01,ECSE-2900,Ecse Enrichment Seminar,"This seminar course addresses a range of issues involving engineering and public policy, innovation systems and economic development, and the National Academy's Engineering Grand Challenges for the 21st Century.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+ROBOTICS II,LEC,3,MR,4:00PM,5:20PM,Esen Yel,Jonsson Engineering Center 4104,15,11,4,ECSE,2024-01-08,2024-04-24,SPRING 2024,94171,4490,01,ECSE-4490,Robotics Ii,"This course introduces methods that leverage the basic analysis techniques learned in Robotics I to develop numerical and algorithmic techniques needed to endow robots with the ""intelligence"" to devise strategies to solve problems they will encounter. Once these abilities are sufficiently well developed, robots will become safe and autonomous, thus paving the way for pervasive personal robots. Topics include: configuration space representation, cell decomposition, roadmap methods, rapidly-exploring random trees, simultaneous localization and mapping, contact modeling, grasping, and dexterous manipulation.",,When Offered: Upon availability of instructor.,[],[],Engineering
+ADVANCED POWER ELECTRONICS,LEC,3,MR,12:30PM,1:50PM,Zheyu Zhang,Jonsson Engineering Center 4107,20,1,19,ECSE,2024-01-08,2024-04-24,SPRING 2024,94735,4963,01,ECSE-4963,Advanced Power Electronics,,,,[],[],Engineering
+EPE LAB,LEC,4,W,12:00PM,3:50PM,Meng Wang,Jonsson Engineering Center 3108,18,3,15,ECSE,2024-01-08,2024-04-24,SPRING 2024,91868,4130,01,ECSE-4130,Epe Lab,"A laboratory based examination of static and rotating energy conversion equipment. Topics include the experimental study of the physical phenomena and characteristics of magnetic circuits, transformers, electric machines, rectifiers, DC/DC converters, and inverters. The interaction between static power converters and electric machines is emphasized.",Prerequisite: ECSE 4080 or ECSE 4110 or ECSE 4120 or permission of instructor.,When Offered: Spring term annually.,"['ECSE 4080', 'ECSE 4110', 'ECSE 4120']","['ECSE 4080', 'ECSE 4110', 'ECSE 4120']",Engineering
+REAL-TIME APPLICATIONS IN CONTROL AND COMMUNICATIONS,LEC,3,MWR,,,Anak Agung Julius/Russell P. Kraft,Jonsson Engineering Center 6309,30,6,24,ECSE,2024-01-08,2024-04-24,SPRING 2024,90040,4760,01,ECSE-4760,REAL-TIME Applications In Control And Communications,"Experiments and lectures demonstrate the design and use of microcomputers as both decision tools and on-line real-time system components in control and communications. Topics include the basic operations of microcomputers, data I/O, analog and digital process control, voice processing, digital filter design, digital communication, and optimal LQR control.",Prerequisites: ECSE 4440 or ECSE 4560.,When Offered: Spring term annually.,"['ECSE 4440', 'ECSE 4560']","['ECSE 4440', 'ECSE 4560']",Engineering
+REAL-TIME APPLICATIONS IN CONTROL AND COMMUNICATIONS,LEC,3,MR,12:00PM,1:50PM,Russell P. Kraft/Anak Agung Julius,Jonsson Engineering Center 6309,30,6,24,ECSE,2024-01-08,2024-04-24,SPRING 2024,90040,4760,01,ECSE-4760,REAL-TIME Applications In Control And Communications,"Experiments and lectures demonstrate the design and use of microcomputers as both decision tools and on-line real-time system components in control and communications. Topics include the basic operations of microcomputers, data I/O, analog and digital process control, voice processing, digital filter design, digital communication, and optimal LQR control.",Prerequisites: ECSE 4440 or ECSE 4560.,When Offered: Spring term annually.,"['ECSE 4440', 'ECSE 4560']","['ECSE 4440', 'ECSE 4560']",Engineering
+DISTRIB. OPTIMIZ. & LEARNING,LEC,3,MR,12:30PM,1:50PM,Tianyi Chen,Ricketts Building 212,15,10,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,93199,4964,01,ECSE-4964,DISTRIB. OPTIMIZ. & Learning,,,,[],[],Engineering
+RENEWABLE POWER GENERATION,LEC,3,MR,4:00PM,5:20PM,Jian Sun,Darrin Communications Center 236,30,3,27,ECSE,2024-01-08,2024-04-24,SPRING 2024,94462,4141,01,ECSE-4141,Renewable Power Generation,"Generation of electric power from renewable sources and its integration into the power grid. Topics include fundamentals of photovoltaic and wind energy; power converters and their control for renewable energy conversion and grid integration; solar power plants, solar inverters, and their control; wind turbines based on synchronous generators, wind turbines based on doubly-fed induction generators (DFIG), wind power plants, and offshore wind; operation and control of power systems with renewables.",Prerequisite: ECSE 2110,When Offered: Spring term annually,['ECSE 2110'],['ECSE 2110'],Engineering
+INTRO TO ROBOT PROGRAMMING,LEC,3,TF,12:30PM,1:50PM,Kimberly Irene Oakes,Troy Building 2012,30,20,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,94736,4965,01,ECSE-4965,Intro To Robot Programming,,,,[],[],Engineering
+ADVANCE DEVICE CONCEPTS,LEC,3,W,9:00AM,11:50AM,Michael Shur,Carnegie Building 106,20,1,19,ECSE,2024-01-08,2024-04-24,SPRING 2024,93634,6210,01,ECSE-6210,Advance Device Concepts,"An introduction to emerging electronic and optoelectronics technology. Topics cover cutting edge technologies and novel device concepts, such as quantum devices, silicon-on-insulators (SOI), compound semiconductor devices and technologies, thin film transistors (TFTs), wide band gap semiconductor devices and technologies, Si-Ge devices, solar cells, photodetectors, semiconductor lasers, opto-electronic ICs, optical interconnects, and display technologies.",Prerequisite: ECSE 2210 or equivalent.,When Offered: Upon availability of instructor,['ECSE 2210'],['ECSE 2210'],Engineering
+ADVANCED COMPUTER HARDWARE DESIGN,LEC,3,TF,10:00AM,11:20AM,Liu Liu,Jonsson Engineering Center 6309,26,8,18,ECSE,2024-01-08,2024-04-24,SPRING 2024,94732,4780,01,ECSE-4780,Advanced Computer Hardware Design,"Design methodologies include register transfer modules and firmware microprogrammed design. ""Bit-slice"" philosophy of design. LSI microprocessors as design elements in larger digital systems such as high-speed channels and special purpose computers. Detailed discussion of the structure of several computers at the chip and board level. Specification of custom IC digital systems. FPGA based design implementation using VHDL.",Prerequisite: ECSE 4770,When Offered: Upon availability of instructor,['ECSE 4770'],['ECSE 4770'],Engineering
+ADVANCED COMPUTER HARDWARE DESIGN,LEC,3,W,1:00PM,3:50PM,TBA,Jonsson Engineering Center 4309,26,8,18,ECSE,2024-01-08,2024-04-24,SPRING 2024,94732,4780,01,ECSE-4780,Advanced Computer Hardware Design,"Design methodologies include register transfer modules and firmware microprogrammed design. ""Bit-slice"" philosophy of design. LSI microprocessors as design elements in larger digital systems such as high-speed channels and special purpose computers. Detailed discussion of the structure of several computers at the chip and board level. Specification of custom IC digital systems. FPGA based design implementation using VHDL.",Prerequisite: ECSE 4770,When Offered: Upon availability of instructor,['ECSE 4770'],['ECSE 4770'],Engineering
+ADVANCE DEVICE CONCEPTS,LEC,3,W,9:00AM,11:50AM,Michael Shur,Carnegie Building 106,20,4,16,ECSE,2024-01-08,2024-04-24,SPRING 2024,94494,4966,01,ECSE-4966,Advance Device Concepts,,,,[],[],Engineering
+MULTIVARIABLE CONTROL SYSTEMS,LEC,3,MR,10:00AM,11:20AM,John Wen,Jonsson Engineering Center 6309,36,2,34,ECSE,2024-01-08,2024-04-24,SPRING 2024,93868,6460,01,ECSE-6460,Multivariable Control Systems,"Tools and methods for the analysis and design of linear multivariable feedback systems. Topics include the connection between frequency domain and state space models and methods, model identification, model reduction, model uncertainty and closed loop performance, convex analysis and design methods, optimal controller synthesis using H2, H-infinity, and structured singular value criteria.",Prerequisite: ECSE 6400.,When Offered: Upon availability of instructor.,['ECSE 6400'],['ECSE 6400'],Engineering
+INTRO TO DEEP LEARNING,LEC,3,MR,2:00PM,3:20PM,Qiang Ji,Russell Sage Laboratory 5510,30,21,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,93731,6850,01,ECSE-6850,Intro To Deep Learning,"Deep learning fundamentals and applications in artificial intelligence. Topics include machine learning foundation, linear regression and classification, deep neural networks, convolutional neural networks, recurrent neural networks, generative adversary neural networks, Bayesian neural networks, deep Boltzmann machine, deep Bayesian networks, and deep reinforcement learning.","Prerequisites: ECSE 2500, MATH 2010, and CSCI 1200.",When Offered: Spring term annually.,"['ECSE 2500', 'MATH 2010', 'CSCI 1200']","['ECSE 2500', 'MATH 2010', 'CSCI 1200']",Engineering
+ELECTRIC CIRCUITS,LEC,4,MR,4:00PM,5:50PM,Alex Patterson/Shayla Maya Sawyer,Academy Hall AUD,60,51,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,90075,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,T,7:00PM,8:50PM,TBA,Academy Hall AUD,60,51,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,90075,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,W,9:00AM,11:50AM,TBA,Jonsson Engineering Center 4201,60,51,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,90075,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,MR,4:00PM,5:50PM,Alex Patterson/Shayla Maya Sawyer,Academy Hall AUD,60,70,-10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90078,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,T,7:00PM,8:50PM,TBA,Academy Hall AUD,60,70,-10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90078,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,W,2:00PM,4:50PM,TBA,Jonsson Engineering Center 4201,60,70,-10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90078,2010,02,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+PRACTICUM-COLLEGE TEACHING I,LEC,1,,,,Jianqiang Lu,TBA,10,7,3,ECSE,2024-01-08,2024-04-24,SPRING 2024,93668,2960,01,ECSE-2960,PRACTICUM-COLLEGE Teaching I,,,,[],[],Engineering
+PRACTICUM-COLLEGE TEACHING II,LEC,2,,,,Jianqiang Lu,TBA,15,4,11,ECSE,2024-01-08,2024-04-24,SPRING 2024,93669,2960,02,ECSE-2960,PRACTICUM-COLLEGE Teaching Ii,,,,[],[],Engineering
+INTRO TO QUANTUM ELEC DEVICES,LEC,3,TF,12:30PM,1:50PM,Alex Patterson,Low Center for Industrial Inn. 3116,30,12,18,ECSE,2024-01-08,2024-04-24,SPRING 2024,94738,4967,01,ECSE-4967,Intro To Quantum Elec Devices,,,,[],[],Engineering
+ADVANCED ELECTRONIC CIRCUITS,LEC,3,MR,10:00AM,11:20AM,Kyle Richard Wilt,Jonsson Engineering Center 4104,36,2,34,ECSE,2024-01-08,2024-04-24,SPRING 2024,92663,6050,01,ECSE-6050,Advanced Electronic Circuits,"Linear and non-linear applications of operational amplifiers, with an emphasis on circuit design. Non-ideal operational amplifier behavior, including both static and dynamic characteristics. Amplifier stability and frequency compensation techniques. Operational amplifier-based oscillators. Circuit noise.",Prerequisite: ECSE 2050.,When Offered: Spring term annually.,['ECSE 2050'],['ECSE 2050'],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Robert Frank Karlicek,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91820,6980,01,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Kyle Richard Wilt,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90153,6980,02,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Bulent Yener,TBA,20,0,20,ECSE,2024-01-08,2024-04-24,SPRING 2024,90171,6980,03,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Luigi Vanfretti,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90220,6980,04,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Richard J Radke,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92727,6980,05,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Ali Tajer,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93299,6980,06,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Tong Zhang,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93627,6980,07,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Santiago Paternain,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,93759,6980,08,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Tianyi Chen,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93995,6980,09,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Alhussein A Abouzeid,TBA,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,94015,6980,10,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Koushik Kar,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93142,6980,11,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Mona Mostafa Hella,TBA,20,0,20,ECSE,2024-01-08,2024-04-24,SPRING 2024,90431,6980,17,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Esen Yel,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90501,6980,20,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,MR,12:00PM,1:50PM,Eric Fred Schubert,Academy Hall AUD,40,36,4,ECSE,2024-01-08,2024-04-24,SPRING 2024,90081,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,T,7:00PM,8:50PM,TBA,Low Center for Industrial Inn. 4050,40,36,4,ECSE,2024-01-08,2024-04-24,SPRING 2024,90081,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,W,9:00AM,11:50AM,TBA,Jonsson Engineering Center 4104,40,36,4,ECSE,2024-01-08,2024-04-24,SPRING 2024,90081,2050,01,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,MR,12:00PM,1:50PM,Eric Fred Schubert,Academy Hall AUD,40,25,15,ECSE,2024-01-08,2024-04-24,SPRING 2024,93001,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,T,7:00PM,8:50PM,TBA,Low Center for Industrial Inn. 4050,40,25,15,ECSE,2024-01-08,2024-04-24,SPRING 2024,93001,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+INTRODUCTION TO ELECTRONICS,LEC,4,W,12:00PM,2:50PM,TBA,Jonsson Engineering Center 4104,40,25,15,ECSE,2024-01-08,2024-04-24,SPRING 2024,93001,2050,02,ECSE-2050,Introduction To Electronics,"The physics and operation of semiconductor diodes, bipolar junction transistors, and field-effect transistors in elementary analog circuits. Non-ideal operational amplifier characteristics. Amplifier biasing, small-signal analysis, and frequency response. Elementary bipolar and MOSFET digital circuits.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+VLSI DESIGN,LEC,3,TF,2:00PM,3:20PM,Russell P. Kraft,Russell Sage Laboratory 3713,40,39,1,ECSE,2024-01-08,2024-04-24,SPRING 2024,90338,4220,01,ECSE-4220,Vlsi Design,"Introduction to VLSI design. The fabrication, device, circuit, and system aspects of VLSI design are covered in an integrated fashion. Emphasis is placed on NMOS and CMOS technology. Laboratory experiments focus on layout analysis, computer-aided layout, and logic and timing simulation. Project on digital design with standard cells.",Prerequisites: ECSE 2050 and ECSE 2610; ECSE 2210 recommended.,When Offered: Fall and spring terms annually.,"['ECSE 2050', 'ECSE 2610', 'ECSE 2210']","['ECSE 2050', 'ECSE 2610', 'ECSE 2210']",Engineering
+ADVANCED POWER ELECTRONICS,LEC,3,MR,12:30PM,1:50PM,Zheyu Zhang,Jonsson Engineering Center 4107,10,9,1,ECSE,2024-01-08,2024-04-24,SPRING 2024,93410,6090,01,ECSE-6090,Advanced Power Electronics,"Advanced power electronic circuits and systems, as well as their modeling and control. Topics include advanced dc-dc converters, modeling by averaging and sampled-data methods, discontinuous conduction modes, linear and nonlinear current control methods and design, spectral and dynamic characteristics of pulse-width modulation, ac-dc converters with active power factor correction, resonant and soft-switching converters, and EMI filter design, as well as autonomous and distributed power systems. Course assignments include laboratory projects involving simulation, hardware design, and measurement.",Prerequisite: ECSE 4080 or permission of instructor.,When Offered: Upon availability of instructor.,"['ECSE 4080', 'ECSE 4080']","['ECSE 4080', 'ECSE 4080']",Engineering
+INTERNETWORKING OF THINGS,LEC,3,TF,2:00PM,3:20PM,Koushik Kar,Jonsson Engineering Center 4104,20,10,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,94199,6660,01,ECSE-6660,Internetworking Of Things,"In-depth hands-on study of the technologies and protocols involved in building the Internet-of-Things (IoT), with specific focus on networking at the edge of the Internet. Topics include wireless communication and link layer technologies, multi-access and scheduling mechanisms, mobility models, routing in disconnected networks, energy-efficient edge networking, loss tolerant transport protocols, IoT security, data aggregation, and their applications to emerging areas such as vehicular networks, RFID systems and smart buildings.   Laboratory-Intensive course.",Prerequisite: ECSE 2660 or CSCI 2500 or equivalent or permission of instructor.,When Offered: Spring term annually.,"['ECSE 2660', 'CSCI 2500']","['ECSE 2660', 'CSCI 2500']",Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jian Sun,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90155,6990,03,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Ge Wang,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91300,6990,04,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,W. Randolph Franklin,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90172,6990,08,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,John Wen,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90254,6990,11,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Tat-Sing Chow,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90258,6990,13,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jianqiang Lu,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91340,6990,16,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Michael Shur,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91301,6990,18,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Mona Mostafa Hella,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91343,6990,19,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Paul Matthew Schoch,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91359,6990,21,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Alhussein A Abouzeid,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90492,6990,22,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Christian M. Wetzel,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91635,6990,24,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Ishwara B Bhat,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91826,6990,25,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Richard J Radke,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91879,6990,26,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Qiang Ji,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92061,6990,28,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Anak Agung Julius,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,91882,6990,29,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Koushik Kar,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,91908,6990,30,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Joe H Chow,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92056,6990,31,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Shayla Maya Sawyer,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92066,6990,32,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Partha S. Dutta,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92100,6990,33,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Luigi Vanfretti,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93556,6990,36,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Tong Zhang,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,90429,6990,37,ECSE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Sandipan Mishra,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93748,6990,39,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Ali Tajer,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,92669,6990,41,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Meng Wang,TBA,20,0,20,ECSE,2024-01-08,2024-04-24,SPRING 2024,92528,6990,53,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Esen Yel,TBA,10,1,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,92530,6990,55,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Bulent Yener,TBA,10,0,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,92610,6990,56,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,TBA,TBA,1,0,1,ECSE,2024-01-08,2024-04-24,SPRING 2024,92959,6990,60,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+INTRODUCTION TO ECSE,LEC,4,MR,12:00PM,1:50PM,Santiago Paternain,Russell Sage Laboratory 3510,80,34,46,ECSE,2024-01-08,2024-04-24,SPRING 2024,93197,1010,01,ECSE-1010,Introduction To Ecse,"An experiment-centric development of the basic analysis tools of Electrical, Computer, and Systems Engineering, emphasizing the concepts and mathematics of analog and digital circuits and electronics, programming, data generation and analysis, and system model development using paper and pencil analysis, simulation, and experiment. Problems, applications, and projects are chosen to lay a solid foundation for core EE and CSE courses.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+FIELDS AND WAVES I,LEC,4,MR,10:00AM,11:50AM,James D. Rees,Low Center for Industrial Inn. 3039,36,42,-6,ECSE,2024-01-08,2024-04-24,SPRING 2024,90041,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and MATH 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+FIELDS AND WAVES I,LEC,4,W,2:00PM,3:50PM,TBA,Jonsson Engineering Center 4107,36,42,-6,ECSE,2024-01-08,2024-04-24,SPRING 2024,90041,2100,01,ECSE-2100,Fields And Waves I,"Development and application of Maxwell's equations in free space and within materials. Introduction to vector calculus and computer-aided analysis and design methods in electromagnetics. Applications include calculation of lumped circuit elements from field theory, plane wave propagation in various materials, and reflection from boundaries. Transmission line concepts, Smith charts, and other design tools for distributed circuits.",Prerequisites: ECSE 2010 and MATH 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'MATH 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'MATH 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+MODERN COMMUNICATION SYS,LEC,3,TF,10:00AM,11:20AM,Koushik Kar,Jonsson Engineering Center 4104,30,5,25,ECSE,2024-01-08,2024-04-24,SPRING 2024,93394,4560,01,ECSE-4560,Modern Communication Sys,"A broad introduction to modern communication systems, with applications to emerging wireless communication technologies. Fundamental principles of wireless channel modeling; performance limits of communication systems; analog and digital modulation techniques; source and channel coding; multi-antenna communication systems; multi-carrier modulation; multi-user communication systems. Emerging wireless technologies such as MIMO and OFDM, with applications to cellular and wireless LAN communication standards. Complemented with computational exercises.",Prerequisites: ECSE 2410 and ECSE 2500 or equivalent.,When Offered: Spring term annually.,"['ECSE 2410', 'ECSE 2500']","['ECSE 2410', 'ECSE 2500']",Engineering
+ROBOTICS II,LEC,3,MR,4:00PM,5:20PM,Esen Yel,Jonsson Engineering Center 4104,15,6,9,ECSE,2024-01-08,2024-04-24,SPRING 2024,94172,6490,01,ECSE-6490,Robotics Ii,"This course introduces methods to develop numerical and algorithmic techniques needed to endow robots with the ""intelligence"" to devise strategies to solve problems they will encounter. Once these abilities are sufficiently well developed, robots will become safe and autonomous, thus paving the way for pervasive personal robots. Topics include: configuration space representation, cell decomposition, roadmap methods, rapidly-exploring random trees, simultaneous localization and mapping, contact modeling, grasping, and dexterous manipulation.",,When Offered: Upon availability of instructor,[],[],Engineering
+SEMINAR in ECSE,LEC,0,W,4:00PM,5:00PM,Tianyi Chen,Low Center for Industrial Inn. 4050,120,92,28,ECSE,2024-01-08,2024-04-24,SPRING 2024,93202,6900,01,ECSE-6900,Seminar In Ecse,,,,[],[],Engineering
+ELECTRICAL ENERGY SYSTEMS,LEC,3,TF,12:30PM,1:50PM,Prabhakar Neti,Carnegie Building 201,45,40,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,93198,2110,01,ECSE-2110,Electrical Energy Systems,"This course introduces the major components of today's power system such as transformers, electric machines, and transmission lines. Renewable energy sources and systems are discussed, including wind and solar energy. Integration of energy sources with the grid is addressed.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+ADVANCED VLSI DESIGN,LEC,3,MR,2:00PM,3:20PM,Tong Zhang,Jonsson Engineering Center 4104,36,12,24,ECSE,2024-01-08,2024-04-24,SPRING 2024,93412,6680,01,ECSE-6680,Advanced Vlsi Design,"Introduction to VLSI architecture design approaches and methodologies for digital signal processing systems, digital memory circuits and architectures, and computer VLSI arithmetic. Topics include: pipelining, parallel processing, timing and clocking, systolic architectures, digital filter architectures, Viterbi decoder architectures, SRAM, DRAM, flash memory, high-speed adder and multiplier architectures. Laboratory experiments involve the use of commercial EDA tools with hardware description language (HDL).",Prerequisite: ECSE 4220.,When Offered: Upon availability of instructor.,['ECSE 4220'],['ECSE 4220'],Engineering
+SEMICONDUCTOR POWER DEVICE,LEC,3,,,,Tat-Sing Chow,TBA,1,1,0,ECSE,2024-01-08,2024-04-24,SPRING 2024,95378,6940,04,ECSE-6940,Semiconductor Power Device,"Supervised reading and problems, by individual arrangement.",,,[],[],Engineering
+MICROELECTRONICS TECHNOLOGY,LEC,3,TF,10:00AM,11:50AM,Zhaoran Huang/Salih Muhsin Celik,Jonsson Engineering Center 4309,36,31,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,91864,2210,01,ECSE-2210,Microelectronics Technology,"An introductory survey of microelectronics technology emphasizing physical properties of semiconductors, device and circuit fabrication, semiconductor device operation. Topics include semiconductor crystals; energy bands; electrons and holes; dopant impurities; fabrication and operation of diodes, bipolar junction transistors, and field-effect transistors.",Prerequisites: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+MICROELECTRONICS TECHNOLOGY,LEC,3,W,7:00PM,8:50PM,TBA,Jonsson Engineering Center 4309,36,31,5,ECSE,2024-01-08,2024-04-24,SPRING 2024,91864,2210,01,ECSE-2210,Microelectronics Technology,"An introductory survey of microelectronics technology emphasizing physical properties of semiconductors, device and circuit fabrication, semiconductor device operation. Topics include semiconductor crystals; energy bands; electrons and holes; dopant impurities; fabrication and operation of diodes, bipolar junction transistors, and field-effect transistors.",Prerequisites: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,When Offered: Fall and spring terms annually.,"['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+FDMTLS OF RF/MICROWAVE ENGR,LEC,3,MR,2:00PM,3:20PM,Mona Mostafa Hella,Jonsson Engineering Center 4107,15,7,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,94310,4310,01,ECSE-4310,Fdmtls Of RF/MICROWAVE Engr,"Study of transmission lines, impedance matching, passive and active microwave systems. Work with S-parameters and experiment with the use of Smith chart. Introduction to microwave CAD tools for 2D electromagnetic (EM) simulations and microwave testing. Emphasis on physical understanding, quantitative performance evaluation using both hand calculations and EM simulations.",Prerequisite ECSE 2050,When Offered: Spring term annually,['ECSE 2050'],['ECSE 2050'],Engineering
+INTRODUCTION TO DEEP LEARNING,LEC,3,MR,2:00PM,3:20PM,Qiang Ji,Russell Sage Laboratory 5510,35,10,25,ECSE,2024-01-08,2024-04-24,SPRING 2024,93730,4850,01,ECSE-4850,Introduction To Deep Learning,"Deep learning fundamentals and applications in artificial intelligence. Topics include machine learning foundation, linear regression and classification, deep neural networks, convolutional neural networks, recurrent neural networks, generative adversary neural networks, Bayesian neural networks, deep Boltzmann machine, deep Bayesian networks, and deep reinforcement learning.","Prerequisites: ECSE 2500, MATH 2010, and CSCI 1200.",When Offered: Spring term annually.,"['ECSE 2500', 'MATH 2010', 'CSCI 1200']","['ECSE 2500', 'MATH 2010', 'CSCI 1200']",Engineering
+COMPUTER ARCHITECTURE PROTOTYPING WITH FPGA'S,LEC,3,TF,10:00AM,11:20AM,Liu Liu,Jonsson Engineering Center 6309,10,8,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,93528,6700,01,ECSE-6700,Computer Architecture Prototyping With FPGA'S,"An advanced design and laboratory course. Design methodologies include register transfer modules and firmware microprogrammed design. Advanced microprocessor topics. ""Bit-slice"" philosophy of design. LSI microprocessors as design elements in larger digital systems such as high-speed channels and special purpose computers. Detailed discussion of the structure of several computers at the chip and board level. Emphasis on high-speed ECL and Schottky circuits. Specification of custom IC digital systems. FPGA based design implementation using VHDL.",Prerequisite: ECSE 4770.,When Offered: Upon availability of instructor.,['ECSE 4770'],['ECSE 4770'],Engineering
+COMPUTER ARCHITECTURE PROTOTYPING WITH FPGA'S,LEC,3,W,1:00PM,3:50PM,TBA,Jonsson Engineering Center 4309,10,8,2,ECSE,2024-01-08,2024-04-24,SPRING 2024,93528,6700,01,ECSE-6700,Computer Architecture Prototyping With FPGA'S,"An advanced design and laboratory course. Design methodologies include register transfer modules and firmware microprogrammed design. Advanced microprocessor topics. ""Bit-slice"" philosophy of design. LSI microprocessors as design elements in larger digital systems such as high-speed channels and special purpose computers. Detailed discussion of the structure of several computers at the chip and board level. Emphasis on high-speed ECL and Schottky circuits. Specification of custom IC digital systems. FPGA based design implementation using VHDL.",Prerequisite: ECSE 4770.,When Offered: Upon availability of instructor.,['ECSE 4770'],['ECSE 4770'],Engineering
+SIGNALS AND SYSTEMS,LEC,3,TF,10:00AM,11:20AM,Kimberly Irene Oakes,Russell Sage Laboratory 5510,60,49,11,ECSE,2024-01-08,2024-04-24,SPRING 2024,91866,2410,01,ECSE-2410,Signals And Systems,"Time and frequency-domain representation of continuous- and discrete-time signals and systems. Response of linear, time-invariant systems. Convolution, Fourier series, Fourier transform, Laplace transform, and z-transform. Applications in communication, feedback control, and filtering.",Prerequisite: ECSE 2010,When Offered: Fall and spring terms annually.,['ECSE 2010'],['ECSE 2010'],Engineering
+SIGNALS AND SYSTEMS,LEC,3,R,7:00PM,8:50PM,TBA,Russell Sage Laboratory 5510,60,49,11,ECSE,2024-01-08,2024-04-24,SPRING 2024,91866,2410,01,ECSE-2410,Signals And Systems,"Time and frequency-domain representation of continuous- and discrete-time signals and systems. Response of linear, time-invariant systems. Convolution, Fourier series, Fourier transform, Laplace transform, and z-transform. Applications in communication, feedback control, and filtering.",Prerequisite: ECSE 2010,When Offered: Fall and spring terms annually.,['ECSE 2010'],['ECSE 2010'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,17,-17,ECSE,2024-01-08,2024-04-24,SPRING 2024,90305,4900,01,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,24,-24,ECSE,2024-01-08,2024-04-24,SPRING 2024,90448,4900,02,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,12,-12,ECSE,2024-01-08,2024-04-24,SPRING 2024,90524,4900,03,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,11,-11,ECSE,2024-01-08,2024-04-24,SPRING 2024,91460,4900,04,ECSE-4900,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer and systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisites: ENGR 2050 and senior status.,When Offered: Fall and spring terms annually.,['ENGR 2050'],['ENGR 2050'],Engineering
+DETECTION & EST THEORY,LEC,3,TF,12:30PM,1:50PM,Birsen Yazici,Jonsson Engineering Center 4107,20,10,10,ECSE,2024-01-08,2024-04-24,SPRING 2024,93869,6520,01,ECSE-6520,Detection & Est Theory,"Classical statistical decision theory, decision criteria, binary and composite hypothesis tests. Statistical models of signals and noise. Detection of known signals in Gaussian noise. Receiver operating characteristics and error probability. Applications to radar and communications. Detection of signals with unknown or random parameters, detection of stochastic signals, nonparametric detection techniques. Statistical estimation theory, performance measures. Cramer-Rao bounds, estimation of unknown signal parameters, optimum demodulation, signal design.",Prerequisites: probability theory and ECSE 6510.,When Offered: Spring term even-numbered years and upon availability of instructor.,['ECSE 6510'],['ECSE 6510'],Engineering
+FAB TECH f SEMICONDUCTOR MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Darrin Communications Center 337,100,6,94,ECSE,2024-01-08,2024-04-24,SPRING 2024,94475,6961,01,ECSE-6961,Fab Tech F Semiconductor Mfg,,,,[],[],Engineering
+ENGINEERING PROBABILITY,LEC,3,MR,2:00PM,3:20PM,Richard J Radke,Darrin Communications Center 337,100,87,13,ECSE,2024-01-08,2024-04-24,SPRING 2024,92497,2500,01,ECSE-2500,Engineering Probability,"Axioms of probability, joint and conditional probability, random variables, probability density, mass, and distribution functions, functions of one and two random variables, characteristic functions, sequences of independent random variables, central limit theorem, and laws of large numbers. Applications to electrical and computer engineering problems.",Prerequisite: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+DIGITAL ELECTRONICS,LEC,3,TF,12:00PM,1:20PM,Tat-Sing Chow,Jonsson Engineering Center 4104,36,10,26,ECSE,2024-01-08,2024-04-24,SPRING 2024,91275,4040,01,ECSE-4040,Digital Electronics,"Analysis and design of switching-mode circuits: NMOS, CMOS, RTL, DTL, TTL, and ECL digital-logic families. Topics include: basic logic gates (voltage-transfer characteristics, noise margin, fan out, propagation delay, power dissipation), flip flops, Schmitt triggers, oscillators, timers, memories, A/D and D/A converters, and optional advanced topics.",Prerequisites: ECSE 2050 and ECSE 2610.,When Offered: Spring term annually.,"['ECSE 2050', 'ECSE 2610']","['ECSE 2050', 'ECSE 2610']",Engineering
+DIGITAL ELECTRONICS,LEC,3,W,9:00AM,11:50AM,TBA,Low Center for Industrial Inn. 3130,36,10,26,ECSE,2024-01-08,2024-04-24,SPRING 2024,91275,4040,01,ECSE-4040,Digital Electronics,"Analysis and design of switching-mode circuits: NMOS, CMOS, RTL, DTL, TTL, and ECL digital-logic families. Topics include: basic logic gates (voltage-transfer characteristics, noise margin, fan out, propagation delay, power dissipation), flip flops, Schmitt triggers, oscillators, timers, memories, A/D and D/A converters, and optional advanced topics.",Prerequisites: ECSE 2050 and ECSE 2610.,When Offered: Spring term annually.,"['ECSE 2050', 'ECSE 2610']","['ECSE 2050', 'ECSE 2610']",Engineering
+INTERNETWORKING OF THINGS,LEC,3,TF,2:00PM,3:20PM,Koushik Kar,Jonsson Engineering Center 4104,30,29,1,ECSE,2024-01-08,2024-04-24,SPRING 2024,94198,4660,01,ECSE-4660,Internetworking Of Things,"In-depth hands-on study of the technologies and protocols involved in building the Internet-of-Things (IoT), with specific focus on networking at the edge of the Internet. Topics include wireless communication and link layer technologies, multi-access and scheduling mechanisms, mobility models, routing in disconnected networks, energy-efficient edge networking, loss tolerant transport protocols, IoT security, data aggregation, and their applications to emerging areas such as vehicular networks, RFID systems and smart buildings.   Laboratory-Intensive course.",Prerequisite: ECSE 2660 or CSCI 2500 or equivalent or permission of instructor.,When Offered: Spring term annually,"['ECSE 2660', 'CSCI 2500']","['ECSE 2660', 'CSCI 2500']",Engineering
+RENEWABLE POWER GENERATION,LEC,3,MR,4:00PM,5:20PM,Jian Sun,Darrin Communications Center 236,30,2,28,ECSE,2024-01-08,2024-04-24,SPRING 2024,94463,6141,01,ECSE-6141,Renewable Power Generation,"Generation of electric power from renewable sources and its integration into the power grid. Topics include fundamentals of photovoltaic and wind energy; power converters and their control for renewable energy conversion and grid integration; solar power plants, solar inverters, and their control; wind turbines based on synchronous generators, wind turbines based on doubly-fed induction generators (DFIG), wind power plants, and offshore wind; operation and control of power systems with renewables.",Prerequisites: ECSE 2110 and ECSE 4080.,When Offered: Spring term annually.,"['ECSE 2110', 'ECSE 4080']","['ECSE 2110', 'ECSE 4080']",Engineering
+IC FABRICATION LAB,LEC,3,M,10:00AM,11:50AM,Jianqiang Lu,Low Center for Industrial Inn. 3130,24,8,16,ECSE,2024-01-08,2024-04-24,SPRING 2024,90306,6300,01,ECSE-6300,Ic Fabrication Lab,"Theory and practice of IC fabrication in a research laboratory environment. Test chips are fabricated and the resulting devices and circuits evaluated. Processes and fabrication equipment studied and used include oxidation/diffusion, CVD reactors, photolithography, plasma etching, vacuum evaporator, ion implantation, etc. Instruments used in process monitoring and final testing include thin film profilometer, ellipsometer, resistivity probe, scanning electron microscope, capacitance-voltage system, etc. The fundamentals of hazardous material handling and clean room procedures are studied.",Prerequisite: ECSE 4250 or equivalent.,When Offered: Spring term annually.,['ECSE 4250'],['ECSE 4250'],Engineering
+IC FABRICATION LAB,LEC,3,TWR,,,TBA,Low Center for Industrial Inn. ,24,8,16,ECSE,2024-01-08,2024-04-24,SPRING 2024,90306,6300,01,ECSE-6300,Ic Fabrication Lab,"Theory and practice of IC fabrication in a research laboratory environment. Test chips are fabricated and the resulting devices and circuits evaluated. Processes and fabrication equipment studied and used include oxidation/diffusion, CVD reactors, photolithography, plasma etching, vacuum evaporator, ion implantation, etc. Instruments used in process monitoring and final testing include thin film profilometer, ellipsometer, resistivity probe, scanning electron microscope, capacitance-voltage system, etc. The fundamentals of hazardous material handling and clean room procedures are studied.",Prerequisite: ECSE 4250 or equivalent.,When Offered: Spring term annually.,['ECSE 4250'],['ECSE 4250'],Engineering
+INFORM THEORY & CODING,LEC,3,TF,2:00PM,3:20PM,Ali Tajer,Jonsson Engineering Center 4107,30,12,18,ECSE,2024-01-08,2024-04-24,SPRING 2024,94737,6530,01,ECSE-6530,Inform Theory & Coding,"Information measures, characterization of information sources, coding for discrete sources, the noiseless coding theorems, construction of Huffman codes. Discrete channel characterization, channel capacity, noisy-channel coding theorems, reliability exponents. Various error-control coding and decoding techniques, including block and convolutional codes. Introduction to waveform channels and rate distortion theory.",Prerequisite: probability theory. Corequisite: ECSE 6510.,When Offered: Spring term odd-numbered years and upon availability of instructor.,['ECSE 6510'],['ECSE 6510'],Engineering
+FUND OF OPTOELECTRONICS TECH,LEC,3,MR,12:30PM,1:50PM,Zhaoran Huang,Russell Sage Laboratory 2715,10,2,8,ECSE,2024-01-08,2024-04-24,SPRING 2024,94734,6962,01,ECSE-6962,Fund Of Optoelectronics Tech,,,,[],[],Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,8:00AM,9:50AM,John A Tichy,Low Center for Industrial Inn. 3045,40,41,-1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90112,2090,01,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400, and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,10:00AM,11:50AM,John A Tichy,Low Center for Industrial Inn. 3051,68,67,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90113,2090,02,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400, and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+ENGINEERING DYNAMICS,LEC,4,TF,10:00AM,11:50AM,Leonid Pogorelyuk,Greene Building 120,60,41,19,ENGR,2024-01-08,2024-04-24,SPRING 2024,92484,2090,04,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400, and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,T,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,21,9,ENGR,2024-01-08,2024-04-24,SPRING 2024,92326,1400,01,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,10:00AM,11:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 5119,30,24,6,ENGR,2024-01-08,2024-04-24,SPRING 2024,92327,1400,02,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,12:00PM,1:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,43,7,ENGR,2024-01-08,2024-04-24,SPRING 2024,92328,1400,03,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,45,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,92329,1400,04,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,R,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,20,11,9,ENGR,2024-01-08,2024-04-24,SPRING 2024,92330,1400,05,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING COMMUNICATIONS,LEC,1,W,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,20,7,13,ENGR,2024-01-08,2024-04-24,SPRING 2024,93151,1400,06,ENGR-1400,Engineering Communications,"This is an undergraduate introductory course covering basic concepts and skills in engineering communication. Topics include technical writing, project planning and proposal writing, data visualization, system modeling and simulation, engineering graphics and CAD, and effective uses of software tools. Note: This course is recommended as an alternative to ENGR 1200 for the following disciplines only: biomedical, chemical, industrial and systems, materials, electrical and computer systems, and nuclear engineering.",Prerequisites: a mobile computing platform with Internet capability and working knowledge of the operating system is required. Microsoft Windows operating system strongly recommended.,When Offered: Fall and spring terms annually.,[],[],Engineering
+ENGINEERING ECONOMICS,LEC,3,TF,10:00AM,11:20AM,John M. Reilly,Jonsson Engineering Center 3210,50,43,7,ENGR,2024-01-08,2024-04-24,SPRING 2024,91262,4760,01,ENGR-4760,Engineering Economics,"The objective is to help engineering students recognize and understand the importance of cost factors that are inherent in all engineering decisions. Development of ability to handle engineering problems that involve economic factors. The course includes economic environment, selections in present economy, value analysis, critical path economy, interest and money-time relationships, depreciation and valuation, capital financing and budgeting, basic methods for undertaking economic studies, risk, uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk costs, the effects of income taxes in economic studies, replacement studies, minimum cost formulas, economic studies of public projects, economic studies in public utilities. Effects of inflation are considered at each step. Students cannot obtain credit for both this course and ENGR 4750.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+THERMAL & FLUIDS ENG I,LEC,4,MR,10:00AM,11:50AM,Sergei Shenogin,Jonsson Engineering Center 4304,20,17,3,ENGR,2024-01-08,2024-04-24,SPRING 2024,92485,2250,01,ENGR-2250,Thermal & Fluids Eng I,"Application of control volume balances of mass, momentum, energy, and entropy in systems of practical importance to all engineers. Identification of control volumes, properties of pure materials, mass and energy conservation for closed and open systems, second law of thermodynamics, Bernoulli equation, fluid statics, forces and heat transfer in external and internal flows, conduction, and radiative heat transfer.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400 and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+BUSINESS INTELLIGENCE ANALYSIS,LEC,3,,,,Christopher Shiu-Pui Tong,Online ,25,6,19,ENGR,2024-01-08,2024-04-24,SPRING 2024,93939,6215,H01,ENGR-6215,Business Intelligence Analysis,"Students use visualization and cluster analysis tools to gain deeper insights into complex business relationships. Students apply data analytic process to real-world business problems and questions, including pricing decisions, customer analysis, competitive analysis, financial forecasts, customer decision models, organizational performance dashboards. Students tune models to represent current-state and adjust models as underlying assumptions change. Students cannot receive credit for both this course and ENGR 6205 or ENGR 6210.",Prerequisites/Corequisites: Successful completion of ENGR 6200.,,['ENGR 6200'],['ENGR 6200'],Engineering
+MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,45,44,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90077,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,45,44,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90077,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,45,44,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90084,1600,02,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,45,44,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90084,1600,02,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,TF,8:00AM,9:50AM,Ravishankar Sundararaman/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,45,40,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90050,1600,03,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,45,40,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90050,1600,03,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,TF,10:00AM,11:50AM,Wei Bao/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,45,43,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,92325,1600,04,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,45,43,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,92325,1600,04,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,MR,8:00AM,9:50AM,Sang In Han,Jonsson Engineering Center 4201,60,59,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,92359,2300,01,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,W,6:00PM,7:50PM,TBA,Darrin Communications Center 318,60,59,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,92359,2300,01,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,MR,4:00PM,5:50PM,Sang In Han,Jonsson Engineering Center 4201,65,65,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92360,2300,02,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,W,6:00PM,7:50PM,TBA,TBA,65,65,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92360,2300,02,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,TF,12:00PM,1:50PM,Natalia Maldonado Martinez,Jonsson Engineering Center 4201,60,36,24,ENGR,2024-01-08,2024-04-24,SPRING 2024,95025,2300,03,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,W,6:00PM,7:50PM,Natalia Maldonado Martinez,TBA,60,36,24,ENGR,2024-01-08,2024-04-24,SPRING 2024,95025,2300,03,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+MODELING BUSINESS DECISIONS,LEC,3,,,,Rushabh S. Padalia,Online ,25,5,20,ENGR,2024-01-08,2024-04-24,SPRING 2024,93940,6216,H01,ENGR-6216,Modeling Business Decisions,"Working with a faculty member, students develop a big data inquiry model for a complex business issue, question, or problem of their choosing. Over the semester, the student frames the question to be analyzed, collects and prepares business data for analysis, performs the analysis, and presents actionable results and recommendations back to the organization. Students cannot receive credit for both this course and ENGR 6206 or ENGR 6211.",Prerequisites/Corequisites: Successful completion of ENGR 6215.,,['ENGR 6215'],['ENGR 6215'],Engineering
+EMBEDDED CONTROL,LEC,4,MR,10:00AM,11:50AM,Kyle Richard Wilt/Russell P. Kraft,Jonsson Engineering Center 4201,60,21,39,ENGR,2024-01-08,2024-04-24,SPRING 2024,90239,2350,01,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,Kyle Richard Wilt,Academy Hall AUD,60,21,39,ENGR,2024-01-08,2024-04-24,SPRING 2024,90239,2350,01,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+EMBEDDED CONTROL,LEC,4,TF,10:00AM,11:50AM,Kyle Richard Wilt/Russell P. Kraft,Jonsson Engineering Center 4201,60,41,19,ENGR,2024-01-08,2024-04-24,SPRING 2024,90240,2350,02,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,Kyle Richard Wilt,Academy Hall AUD,60,41,19,ENGR,2024-01-08,2024-04-24,SPRING 2024,90240,2350,02,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+EMBEDDED CONTROL,LEC,4,MR,2:00PM,3:50PM,Russell P. Kraft/Kyle Richard Wilt,Jonsson Engineering Center 4201,60,27,33,ENGR,2024-01-08,2024-04-24,SPRING 2024,90241,2350,03,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+EMBEDDED CONTROL,LEC,4,W,10:00AM,11:50AM,TBA,Academy Hall AUD,60,27,33,ENGR,2024-01-08,2024-04-24,SPRING 2024,90241,2350,03,ENGR-2350,Embedded Control,"Engineering laboratory introduction to the microprocessor as an embedded element of engineering systems. Students simultaneously develop the hardware and software of one or more target systems during the semester. Topics include concepts and practices of microcontroller hardware and software for command, sensing, control, and display. Specifically, this includes control of dynamic systems and sensor interfaces; analog-digital conversion; parallel input/output; driver circuits, modular programming, and subsystem integration.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Engineering
+DATA ARCHITECTURE,LEC,3,,,,Jan P. Olausson,Online ,25,4,21,ENGR,2024-01-08,2024-04-24,SPRING 2024,93941,6220,H01,ENGR-6220,Data Architecture,"Students design and deploy analytical systems that serve as the basis for the analysis, processing, storage, and interface of the machine learing process. Students choose learning models appropriate to the result desired using decision tree, Bayesian, neural net, and vector machine approaches. Students use multiple statistical approaches to evaluate results that lead to best results.","Completion of one of the three following certificates: (Business Intelligence (BIH), Production Analytics (PAH), or Health Analytics (HAH).",,[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,T,10:00AM,11:50AM,Judith A. Obiero,Russell Sage Laboratory 3704,40,35,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90277,4010,01,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,T,2:00PM,3:50PM,Amy Corron Youmans,Russell Sage Laboratory 3704,40,26,14,ENGR,2024-01-08,2024-04-24,SPRING 2024,90278,4010,02,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,W,10:00AM,11:50AM,Glen R Gross,Low Center for Industrial Inn. 3039,40,35,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90279,4010,03,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,W,12:00PM,1:50PM,Amy Corron Youmans,Russell Sage Laboratory 3101,40,36,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,90435,4010,05,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,W,12:00PM,1:50PM,Susan Victoria Henry,Academy Hall AUD,45,39,6,ENGR,2024-01-08,2024-04-24,SPRING 2024,91445,4010,06,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,R,12:00PM,1:50PM,Shatoya Denise Michel,Russell Sage Laboratory 3704,40,36,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,90508,4010,07,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,R,2:00PM,3:50PM,Shatoya Denise Michel,Russell Sage Laboratory 3704,25,22,3,ENGR,2024-01-08,2024-04-24,SPRING 2024,90509,4010,08,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,T,2:00PM,3:50PM,Susan Victoria Henry,Materials Research Center 136,25,24,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,92990,4010,10,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+FAB TECH f SEMICONDUCTOR MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Darrin Communications Center 337,100,6,94,ENGR,2024-01-08,2024-04-24,SPRING 2024,94730,4961,01,ENGR-4961,Fab Tech F Semiconductor Mfg,,,,[],[],Engineering
+MACHINE LEARNING FRAMEWORKS,LEC,3,,,,Rushabh S. Padalia,Online ,25,5,20,ENGR,2024-01-08,2024-04-24,SPRING 2024,94248,6221,H01,ENGR-6221,Machine Learning Frameworks,Students develop predictive models that lead to the least likelihood of unintended variance and build natural language and recommendation engines for common applications such as enhancement engines. Students observe results and tune recommendation models to achieve more accurate predictions and recommendations.,Prerequisites/Corequisites: Successful completion of ENGR 6220.,,['ENGR 6220'],['ENGR 6220'],Engineering
+STRENGTH OF MATERIALS,LEC,4,TF,8:00AM,9:50AM,Omar Osama El-Shafee,Ricketts Building 211,40,29,11,ENGR,2024-01-08,2024-04-24,SPRING 2024,93637,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,Omar Osama El-Shafee,TBA,40,29,11,ENGR,2024-01-08,2024-04-24,SPRING 2024,93637,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,TF,10:00AM,11:50AM,Omar Osama El-Shafee,Ricketts Building 211,70,68,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90047,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,Omar Osama El-Shafee,TBA,70,68,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90047,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,MR,2:00PM,3:50PM,Tathagata Bhaduri,Greene Building 120,60,56,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,90048,2530,03,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,W,4:00PM,5:50PM,TBA,TBA,60,56,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,90048,2530,03,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+BUSINESS ISSUES FOR ENGR & SCI,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Troy Building 2015,15,9,6,ENGR,2024-01-08,2024-04-24,SPRING 2024,90516,4100,01,ENGR-4100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+DEEP LEARNING IN AI SYSTEMS,LEC,3,,,,Jan P. Olausson,Online ,25,4,21,ENGR,2024-01-08,2024-04-24,SPRING 2024,94249,6222,H01,ENGR-6222,Deep Learning In Ai Systems,"Working directly with a faculty member, students build machine learning systems that can be used as the foundation for decision-making intelligences, where learning systems transition from recommendations to decision capacities. Over the semester, the student proposes the model, develops the model, and trains the system to improve performance.",Prerequisites/Corequisites: Successful completion of ENGR 6221.,,['ENGR 6221'],['ENGR 6221'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,MR,12:00PM,1:20PM,Rostyslav Korolov/Xun Wang,Darrin Communications Center 337,75,62,13,ENGR,2024-01-08,2024-04-24,SPRING 2024,90049,2600,01,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,11:50AM,TBA,Darrin Communications Center 308,75,62,13,ENGR,2024-01-08,2024-04-24,SPRING 2024,90049,2600,01,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAIN,LEC,3,MR,2:00PM,3:20PM,Esra Agca Aktunc/Xun Wang,Russell Sage Laboratory 3510,75,45,30,ENGR,2024-01-08,2024-04-24,SPRING 2024,90082,2600,02,ENGR-2600,Mod & Analysis Uncertain,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAIN,LEC,3,W,10:00AM,11:50AM,TBA,Darrin Communications Center 308,75,45,30,ENGR,2024-01-08,2024-04-24,SPRING 2024,90082,2600,02,ENGR-2600,Mod & Analysis Uncertain,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAIN,LEC,3,MR,10:00AM,11:20AM,Natalia Maldonado Martinez/Xun Wang,Troy Building 2018,65,53,12,ENGR,2024-01-08,2024-04-24,SPRING 2024,90045,2600,03,ENGR-2600,Mod & Analysis Uncertain,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAIN,LEC,3,W,10:00AM,11:50AM,TBA,Darrin Communications Center 308,65,53,12,ENGR,2024-01-08,2024-04-24,SPRING 2024,90045,2600,03,ENGR-2600,Mod & Analysis Uncertain,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,12:00PM,1:20PM,Natalia Maldonado Martinez/Xun Wang,Russell Sage Laboratory 5101,70,65,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90062,2600,04,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,11:50AM,TBA,Darrin Communications Center 308,70,65,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90062,2600,04,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,2:00PM,3:20PM,Natalia Maldonado Martinez/Xun Wang,Russell Sage Laboratory 5101,50,50,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92486,2600,05,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,11:50AM,TBA,Darrin Communications Center 308,50,50,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92486,2600,05,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,MR,12:00PM,1:20PM,Natalia Maldonado Martinez/Xun Wang,Greene Building 120,60,55,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,92629,2600,06,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,W,10:00AM,11:50AM,TBA,Darrin Communications Center 308,60,55,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,92629,2600,06,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MODELING & ANALYSIS UNCERTAINT,LEC,3,TF,12:00PM,1:20PM,Sergei Shenogin/Xun Wang,Russell Sage Laboratory 2704,30,21,9,ENGR,2024-01-08,2024-04-24,SPRING 2024,93245,2600,07,ENGR-2600,Modeling & Analysis Uncertaint,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MODELING & ANALYSIS UNCERTAINT,LEC,3,W,10:00AM,12:50PM,TBA,TBA,30,21,9,ENGR,2024-01-08,2024-04-24,SPRING 2024,93245,2600,07,ENGR-2600,Modeling & Analysis Uncertaint,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+LEAN SIX SIGMA I,LEC,3,,,,Antonella Zompa,Online ,25,9,16,ENGR,2024-01-08,2024-04-24,SPRING 2024,93942,6230,H01,ENGR-6230,Lean Six Sigma I,"Learn the fundamentals of lean and six sigma philosophies and gain experience with a toolkit to improve existing processes by applying them to relevant workplace process. The Define, Measure, Analyze, Improve, and Control (DMAIC) improvement cycle is used, in which students learn and gain experience using multiple tools for each step of the improvement cycle, including voice of customer (VOC), quality functional deployment (QFD), 5S, Kaizens, and plan-do-check-act (PDCA).",,,[],[],Engineering
+INTRO MANUFACTURING PLANNING,LEC,3,MR,10:00AM,11:20AM,Diego Alejandro Moran Ramirez,Russell Sage Laboratory 5101,10,4,6,ENGR,2024-01-08,2024-04-24,SPRING 2024,93210,2700,01,ENGR-2700,Intro Manufacturing Planning,"Overview of methods used in the design and operation of production and service systems and basic cost accounting. Topics include forecasting, capacity planning, line balancing, production scheduling, staff scheduling, inventory control, just in time, time study, project planning, and discrete item cost accounting. Goal of course is to educate students in basic operations management principles and models and in discrete goods cost accounting. Students cannot receive credit for this course and ISYE 2210.",Prerequisites/Corequisites: MATH 1020 or equivalent.,When Offered: Spring term annually.,['MATH 1020'],['MATH 1020'],Engineering
+GEN MANUFACTURING PROC,LEC,3,TF,8:30AM,9:50AM,Samuel G Chiappone,Low Center for Industrial Inn. 3130,20,20,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,90046,2710,01,ENGR-2710,Gen Manufacturing Proc,"A classroom study of the basic theory and methods of traditional and nontraditional machining, metal joining, material working, and foundry processes, and the variety of functions performed by the primary machine tools employed by the modern manufacturing community. A basic first course or terminal course for all students who are interested in manufacturing processes.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+BUSINESS ISSUES FOR ENGR & SCI,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Troy Building 2015,5,6,-1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90517,6100,01,ENGR-6100,Business Issues For Engr & Sci,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+BUSINESS ISSUES FOR ENGINEERS,LEC,3,,,,Thomas M. Abbott,Online ,25,10,15,ENGR,2024-01-08,2024-04-24,SPRING 2024,93935,6100,H01,ENGR-6100,Business Issues For Engineers,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Engineering
+PROF DEVELOP: GROUP DYNAMICS,LEC,1,W,10:00AM,11:20AM,Shatoya Denise Michel/Tracy N. Sullivan,Darrin Communications Center 232,30,18,12,ENGR,2024-01-08,2024-04-24,SPRING 2024,90106,1010,01,ENGR-1010,Prof DEVELOP: Group Dynamics,"An introduction to the issues related to working in team settings. Topics explored include: communications in teams, public speaking and professional responsibility, stages of group development, building a team, group decision making, and conflict resolution. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.",,When Offered: Fall and Spring term annually.,[],[],Engineering
+PROF DEVELOP: GROUP DYNAMICS,LEC,1,W,8:00AM,9:20AM,Shatoya Denise Michel/Tracy N. Sullivan,Darrin Communications Center 232,30,22,8,ENGR,2024-01-08,2024-04-24,SPRING 2024,93384,1010,02,ENGR-1010,Prof DEVELOP: Group Dynamics,"An introduction to the issues related to working in team settings. Topics explored include: communications in teams, public speaking and professional responsibility, stages of group development, building a team, group decision making, and conflict resolution. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.",,When Offered: Fall and Spring term annually.,[],[],Engineering
+ETHICAL ENGINEERING & TECH,LEC,4,MR,12:00PM,1:50PM,Azita Hirsa,Low Center for Industrial Inn. 3130,15,15,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,94721,4555,01,ENGR-4555,Ethical Engineering & Tech,"This course focuses on the morally motivated work of engineers; how they have changed the world for centuries and continue to do so. It examines the past, present and the future of engineering through ethical reflections and knowledge based on various engineering code of ethics with particular attention to NSPE Code of Ethics. Students are invited to analyze contemporary issues in engineering, hear lectures from experts' experiences with ethical challenges in engineering, and interview engineers in various engineering fields. Particular attention will be paid to topics of corporate social responsibility and social justice. The aim of the course is to encourage engineering student to practice moral - sensibility, - analysis skills, - creativity, - judgment skills, - decision-making skills, and - argumentation skills.",None.,When Offered: Spring term annually.,[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,MR,10:00AM,11:50AM,Keith Robert Taylor,Amos Eaton Hall 215,40,38,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90051,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,38,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90051,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,MR,12:00PM,1:50PM,Keith Robert Taylor,Troy Building 2012,65,61,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,94622,1100,02,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,8:00AM,9:50AM,TBA,TBA,65,61,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,94622,1100,02,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,TF,12:00PM,1:50PM,Shun Uchida/Keith Robert Taylor,Ricketts Building 211,70,70,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92324,1100,03,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,W,8:00AM,9:50AM,TBA,TBA,70,70,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92324,1100,03,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,M,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,40,33,7,ENGR,2024-01-08,2024-04-24,SPRING 2024,90127,1200,01,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,T,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,44,6,ENGR,2024-01-08,2024-04-24,SPRING 2024,90052,1200,02,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,W,10:00AM,11:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,30,22,8,ENGR,2024-01-08,2024-04-24,SPRING 2024,90053,1200,03,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,W,12:00PM,1:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3207,30,25,5,ENGR,2024-01-08,2024-04-24,SPRING 2024,90090,1200,04,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,W,2:00PM,3:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 5119,50,47,3,ENGR,2024-01-08,2024-04-24,SPRING 2024,90054,1200,05,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,W,4:00PM,5:50PM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,50,32,18,ENGR,2024-01-08,2024-04-24,SPRING 2024,90055,1200,06,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,T,8:00AM,9:50AM,Jeffrey Phillip Morris,Jonsson Engineering Center 3210,30,17,13,ENGR,2024-01-08,2024-04-24,SPRING 2024,93150,1200,09,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PRODUCT DESIGN AND INNOVATION DESIGN STUDIO 6,LEC,4,MR,2:00PM,4:50PM,Brian Clyne,Russell Sage Laboratory 2211,19,2,17,ENGR,2024-01-08,2024-04-24,SPRING 2024,94989,4610,01,ENGR-4610,Product Design And Innovation Design Studio 6,"DIS Studio C focuses on the co-production of products, organizations, and problem-solving strategies. Students will explore how to facilitate communication across multiple disciplinary and audience modalities, including stakeholders, designers, and users. Projects and course discussions will train students to translate social scientific and engineering problem-solving judgments and to evaluate how complex problems come to be defined. This course is required for DIS students who are dual-majoring with the School of Engineering.",Prerequisite: STSO 2020 or ENGR 2020,When Offered: Spring term annually.,"['STSO 2020', 'ENGR 2020']","['STSO 2020', 'ENGR 2020']",Engineering
+DATA-DRIVEN DECISION MAKING,LEC,3,,,,John Franklin,Online ,25,10,15,ENGR,2024-01-08,2024-04-24,SPRING 2024,93936,6200,H01,ENGR-6200,DATA-DRIVEN Decision Making,Students frame questions and problems in forms that can be analyzed using data analytic tools. Students use data wrangling and preparation methods to prepare for analysis. Students use analytical tools to evaluate analytic models using linear/nonlinear multivariate methodologies. Students validate results and develop algorithms that can be used to make recommendations and forecasts. Students work with stakeholders to scope and frame questions and problems so that actionable results can be achieved.,,,[],[],Engineering
+FAB TECH f SEMICONDUCTOR MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Darrin Communications Center 337,100,1,99,ENGR,2024-01-08,2024-04-24,SPRING 2024,94731,6961,01,ENGR-6961,Fab Tech F Semiconductor Mfg,,,,[],[],Engineering
+ENGR PROCESSES,LEC,1,M,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,5,23,ENGR,2024-01-08,2024-04-24,SPRING 2024,90096,1300,01,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,M,2:00PM,4:50PM,John P Szczesniak/Dana M Chichester,Jonsson Engineering Center 1010,28,25,3,ENGR,2024-01-08,2024-04-24,SPRING 2024,90056,1300,02,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,T,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90093,1300,03,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,T,1:00PM,3:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90057,1300,04,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,W,10:00AM,12:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,90058,1300,05,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,W,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,90083,1300,06,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,R,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,17,11,ENGR,2024-01-08,2024-04-24,SPRING 2024,90059,1300,07,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,R,2:00PM,4:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,20,8,ENGR,2024-01-08,2024-04-24,SPRING 2024,90076,1300,08,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,F,9:00AM,11:50AM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,94638,1300,09,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,F,12:00PM,2:50PM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,94637,1300,10,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,T,4:00PM,6:50PM,Scott Frederick Yerbury/Dana M Chichester/John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,92627,1300,11,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,R,5:30PM,8:20PM,John P Szczesniak,Jonsson Engineering Center 1010,28,27,1,ENGR,2024-01-08,2024-04-24,SPRING 2024,92988,1300,12,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENGR PROCESSES,LEC,1,M,5:30PM,8:20PM,John P Szczesniak,Jonsson Engineering Center 1010,28,28,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,93149,1300,13,ENGR-1300,Engr Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO ENGINEERING DESIGN,LEC,4,MR,10:00AM,11:50AM,Prabhakar Neti/Mark J Anderson/Jordan L Vener,Jonsson Engineering Center 3207,29,25,4,ENGR,2024-01-08,2024-04-24,SPRING 2024,90436,2050,01,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING  DESIGN,LEC,4,MR,12:00PM,1:50PM,Hunter Christophe Belanger/Mark J Anderson/Jordan L Vener,Russell Sage Laboratory 4510,30,23,7,ENGR,2024-01-08,2024-04-24,SPRING 2024,92628,2050,02,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,MR,2:00PM,3:50PM,Prabhat Hajela/Christine M Allard/Mark J Anderson,Jonsson Engineering Center 3232,28,28,0,ENGR,2024-01-08,2024-04-24,SPRING 2024,90298,2050,03,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,12:00PM,1:50PM,Clinton T. Ballinger/Mark J Anderson/Amy Corron Youmans,Jonsson Engineering Center 5119,30,27,3,ENGR,2024-01-08,2024-04-24,SPRING 2024,90107,2050,04,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,2:00PM,3:50PM,Clinton T. Ballinger/Mark J Anderson/Jordan L Vener,Jonsson Engineering Center 3232,29,23,6,ENGR,2024-01-08,2024-04-24,SPRING 2024,90108,2050,05,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,12:00PM,1:50PM,Daniel Chapman Lander/George Jiren Lee/Judith A. Obiero,Voorhees Computing Center SO,30,28,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90109,2050,06,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,10:00AM,11:50AM,Julia D Carroll/Glen R Gross/George Jiren Lee,Jonsson Engineering Center 3207,30,17,13,ENGR,2024-01-08,2024-04-24,SPRING 2024,90110,2050,07,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,12:00PM,1:50PM,Semih Akin/Glen R Gross/George Jiren Lee,Russell Sage Laboratory 4510,30,28,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90233,2050,08,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,TF,2:00PM,3:50PM,George Jiren Lee/Judith A. Obiero,Jonsson Engineering Center 3232,28,26,2,ENGR,2024-01-08,2024-04-24,SPRING 2024,90111,2050,09,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,10:00AM,11:50AM,Sergei Shenogin/George Jiren Lee/Tracy N. Sullivan,Jonsson Engineering Center 4304,28,16,12,ENGR,2024-01-08,2024-04-24,SPRING 2024,90280,2050,10,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+PRODUCTION & LOGISTIC ANALYSIS,LEC,3,,,,Don Graham,Online ,25,3,22,ENGR,2024-01-08,2024-04-24,SPRING 2024,93937,6205,H01,ENGR-6205,Production & Logistic Analysis,"Students use visualization and cluster analysis tools to gain deeper insights into production and logistic relationships. Students apply data analytic process to real-world production problems and questions, including evaluating production throughput, factor isolation and output risk analysis, modeling production changes, forecasting environmental control factor changes, and minimization of defects and shortages. Students tune models to represent current-state and adjust models as underlying assumptions change. Students cannot receive credit for both this course and ENGR 6210 or ENGR 6215.",Prerequisites/Corequisites: Successful completion of ENGR 6200.,,['ENGR 6200'],['ENGR 6200'],Engineering
+PLATFORM BUS. FOR ENG. & SCI.,LEC,3,MR,6:00PM,7:50PM,Kevin R. Stewart,Lally Hall 02,10,0,10,ENGR,2024-01-08,2024-04-24,SPRING 2024,94808,6963,01,ENGR-6963,Platform BUS. For ENG. & SCI.,,,,[],[],Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY II,LEC,4,MR,8:00AM,9:50AM,Samuel G Chiappone/Stephen James Derby/Larry David Oligny,Low Center for Industrial Inn. 1027,12,1,11,ENGR,2024-01-08,2024-04-24,SPRING 2024,93152,4720,01,ENGR-4720,Manufacturing Processes And Systems Laboratory Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing and packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710.,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY II,LEC,4,W,11:00AM,12:50PM,Samuel G Chiappone/Stephen James Derby,Jonsson Engineering Center 3232,12,1,11,ENGR,2024-01-08,2024-04-24,SPRING 2024,93152,4720,01,ENGR-4720,Manufacturing Processes And Systems Laboratory Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing and packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710.,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY II,LEC,4,MR,2:00PM,3:50PM,Samuel G Chiappone/Stephen James Derby/Larry David Oligny,Low Center for Industrial Inn. 1027,12,4,8,ENGR,2024-01-08,2024-04-24,SPRING 2024,93153,4720,02,ENGR-4720,Manufacturing Processes And Systems Laboratory Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing and packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710.,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710']",Engineering
+MANUFACTURING PROCESSES AND SYSTEMS LABORATORY II,LEC,4,W,11:00AM,12:50PM,Samuel G Chiappone/Stephen James Derby,Jonsson Engineering Center 3232,12,4,8,ENGR,2024-01-08,2024-04-24,SPRING 2024,93153,4720,02,ENGR-4720,Manufacturing Processes And Systems Laboratory Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing and packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710.,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710']",Engineering
+MODELING PRODUCTION DECISIONS,LEC,3,,,,Rushabh S. Padalia,Online ,25,3,22,ENGR,2024-01-08,2024-04-24,SPRING 2024,93938,6206,H01,ENGR-6206,Modeling Production Decisions,"Working with a faculty member, students develop a big data inquiry model for a production related issue, question, or problem of their choosing. Over the semester, the student frames the question to be analyzed, collects and prepares data for analysis, performs the analysis and presents actionable results and recommendations back to the organization. Students cannot receive credit for both this course and ENGR 6211 or ENGR 6216.",Prerequisites/Corequisites: Successful completion of ENGR 6205.,,['ENGR 6205'],['ENGR 6205'],Engineering
+MASTERS PROFESSIONAL PROJECT,LEC,3,,,,Michael David Hughes,Online ,25,3,22,ENGR,2024-01-08,2024-04-24,SPRING 2024,94250,6970,H01,ENGR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+ENVIRONMENTAL PROCESS DESIGN,LEC,3,MR,10:00AM,11:50AM,James Kilduff,Ricketts Building 208,15,10,5,ENVE,2024-01-08,2024-04-24,SPRING 2024,90521,4180,01,ENVE-4180,Environmental Process Design,"The design of processes and systems to protect public and ecosystem health using scientific, technological, and economic principles. Students formulate problems, develop requirements, and evaluate solutions against specifications, constraints, risks, and trade-offs. Students integrate background from previous courses and resources from the technical literature. The role of ethics and codes in professional practice is discussed. In this communication-intensive course, students write engineering proposals and reports, and present work orally.","Prerequisite: ENGR 2050, ENVE 4320, ENVE 4340, and senior standing.",When Offered: Spring term annually.,"['ENGR 2050', 'ENVE 4320', 'ENVE 4340']","['ENGR 2050', 'ENVE 4320', 'ENVE 4340']",Engineering
+SOLID & HAZARDOUS WASTE,LEC,3,TF,12:00PM,1:50PM,Eyosias Legesse Ashenafi,Russell Sage Laboratory 2701,25,10,15,ENVE,2024-01-08,2024-04-24,SPRING 2024,93862,4200,01,ENVE-4200,Solid & Hazardous Waste,"Classification and characteristics of solid and hazardous wastes; appropriate waste management systems; design of collection and transfer systems; methods of destruction and disposal, including landfills; recycle methods; and salvage and conversion operations for resource recovery.",,When Offered: Upon availability of instructor.,[],[],Engineering
+ENV CHEMODYNAMICS,LEC,4,TF,10:00AM,11:50AM,Marianne C. Nyman,Carnegie Building 201,15,11,4,ENVE,2024-01-08,2024-04-24,SPRING 2024,92346,4320,01,ENVE-4320,Env Chemodynamics,"The movement of chemicals in air, water, and soil is presented to demonstrate the relation of physiochemical principles in the behavior of chemicals in the environment. Topics include chemical and thermal equilibrium at environmental interfaces, transport fundamentals, and the fate and transport of chemicals in various environmental compartments. Includes experimental analysis of natural and engineered chemical and thermodynamic processes, emphasizing experimental design, data evaluation, and report writing.",Prerequisites: ENVE 2110 and CHEM 1200.,When Offered: Spring term annually.,"['ENVE 2110', 'CHEM 1200']","['ENVE 2110', 'CHEM 1200']",Engineering
+ENV CHEMODYNAMICS,LEC,4,W,12:00PM,2:50PM,TBA,Materials Research Center 362,15,11,4,ENVE,2024-01-08,2024-04-24,SPRING 2024,92346,4320,01,ENVE-4320,Env Chemodynamics,"The movement of chemicals in air, water, and soil is presented to demonstrate the relation of physiochemical principles in the behavior of chemicals in the environment. Topics include chemical and thermal equilibrium at environmental interfaces, transport fundamentals, and the fate and transport of chemicals in various environmental compartments. Includes experimental analysis of natural and engineered chemical and thermodynamic processes, emphasizing experimental design, data evaluation, and report writing.",Prerequisites: ENVE 2110 and CHEM 1200.,When Offered: Spring term annually.,"['ENVE 2110', 'CHEM 1200']","['ENVE 2110', 'CHEM 1200']",Engineering
+MASTER'S PROJECT,LEC,1-9,,,,James Kilduff,TBA,5,0,5,ENVE,2024-01-08,2024-04-24,SPRING 2024,91894,6980,01,ENVE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+INTRODUCTION TO ENV. ENGR.,LEC,4,MR,4:00PM,5:50PM,Eyosias Legesse Ashenafi,Russell Sage Laboratory 4510,40,1,39,ENVE,2024-01-08,2024-04-24,SPRING 2024,93653,2110,01,ENVE-2110,Introduction To ENV. ENGR.,"Classes of pollutants and standards that define water, air and soil quality. Risk concepts and regulations to protect public health and ecosystems. Application of physics, chemistry and biology to describe and assess environmental systems. Application of mass and energy balances to design and analyze processes that purify water, air and land. Selected topics in water resources and management of solid and hazardous wastes.","Prerequisite: CHEM 1100, MATH 2400, and CIVL 2050 or permission of the instructor. CHEM 1200 is recommended.",When Offered: Spring term annually.,"['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']","['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']",Engineering
+INTRODUCTION TO ENV. ENGR.,LEC,4,W,1:00PM,2:50PM,Eyosias Legesse Ashenafi,Materials Research Center 362,40,1,39,ENVE,2024-01-08,2024-04-24,SPRING 2024,93653,2110,01,ENVE-2110,Introduction To ENV. ENGR.,"Classes of pollutants and standards that define water, air and soil quality. Risk concepts and regulations to protect public health and ecosystems. Application of physics, chemistry and biology to describe and assess environmental systems. Application of mass and energy balances to design and analyze processes that purify water, air and land. Selected topics in water resources and management of solid and hazardous wastes.","Prerequisite: CHEM 1100, MATH 2400, and CIVL 2050 or permission of the instructor. CHEM 1200 is recommended.",When Offered: Spring term annually.,"['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']","['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']",Engineering
+INTRODUCTION TO ENV. ENGR.,LEC,4,MR,4:00PM,5:50PM,Eyosias Legesse Ashenafi,Russell Sage Laboratory 4510,40,17,23,ENVE,2024-01-08,2024-04-24,SPRING 2024,94612,2110,02,ENVE-2110,Introduction To ENV. ENGR.,"Classes of pollutants and standards that define water, air and soil quality. Risk concepts and regulations to protect public health and ecosystems. Application of physics, chemistry and biology to describe and assess environmental systems. Application of mass and energy balances to design and analyze processes that purify water, air and land. Selected topics in water resources and management of solid and hazardous wastes.","Prerequisite: CHEM 1100, MATH 2400, and CIVL 2050 or permission of the instructor. CHEM 1200 is recommended.",When Offered: Spring term annually.,"['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']","['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']",Engineering
+INTRODUCTION TO ENV. ENGR.,LEC,4,W,8:00AM,9:50AM,Eyosias Legesse Ashenafi,Materials Research Center 362,40,17,23,ENVE,2024-01-08,2024-04-24,SPRING 2024,94612,2110,02,ENVE-2110,Introduction To ENV. ENGR.,"Classes of pollutants and standards that define water, air and soil quality. Risk concepts and regulations to protect public health and ecosystems. Application of physics, chemistry and biology to describe and assess environmental systems. Application of mass and energy balances to design and analyze processes that purify water, air and land. Selected topics in water resources and management of solid and hazardous wastes.","Prerequisite: CHEM 1100, MATH 2400, and CIVL 2050 or permission of the instructor. CHEM 1200 is recommended.",When Offered: Spring term annually.,"['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']","['CHEM 1100', 'MATH 2400', 'CIVL 2050', 'CHEM 1200']",Engineering
+MASTERS THESIS,LEC,1-12,,,,James Kilduff,TBA,10,0,10,ENVE,2024-01-08,2024-04-24,SPRING 2024,91997,6990,01,ENVE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Marianne C. Nyman,TBA,10,0,10,ENVE,2024-01-08,2024-04-24,SPRING 2024,92239,6990,02,ENVE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+PHYSICOCHEMICAL PROC IN ENVE,LEC,4,MR,2:00PM,3:50PM,James Kilduff,Jonsson Engineering Center 4304,15,15,0,ENVE,2024-01-08,2024-04-24,SPRING 2024,92345,4340,01,ENVE-4340,Physicochemical Proc In Enve,"Physical and chemical processes governing water quality in natural and engineered systems with applications to potable water treatment. Topics include reactor dynamics, coagulation and flocculation, sedimentation, filtration, gas transfer, adsorption and ion exchange, and membrane processes. A design project for which students develop a computer model of an environmental process is required. Includes laboratory experiments to measure physicochemical process parameters, emphasizing experimental design, data evaluation, and report writing.",Prerequisite: ENVE 2110 and CHEM 1200.,When Offered: Spring term annually.,"['ENVE 2110', 'CHEM 1200']","['ENVE 2110', 'CHEM 1200']",Engineering
+PHYSICOCHEMICAL PROC IN ENVE,LEC,4,W,10:00AM,11:50AM,James Kilduff,Materials Research Center 362,15,15,0,ENVE,2024-01-08,2024-04-24,SPRING 2024,92345,4340,01,ENVE-4340,Physicochemical Proc In Enve,"Physical and chemical processes governing water quality in natural and engineered systems with applications to potable water treatment. Topics include reactor dynamics, coagulation and flocculation, sedimentation, filtration, gas transfer, adsorption and ion exchange, and membrane processes. A design project for which students develop a computer model of an environmental process is required. Includes laboratory experiments to measure physicochemical process parameters, emphasizing experimental design, data evaluation, and report writing.",Prerequisite: ENVE 2110 and CHEM 1200.,When Offered: Spring term annually.,"['ENVE 2110', 'CHEM 1200']","['ENVE 2110', 'CHEM 1200']",Engineering
+DISSERTATION,LEC,1-15,,,,Bin Gao,TBA,10,0,10,ENVE,2024-01-08,2024-04-24,SPRING 2024,92243,9990,01,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Marianne C. Nyman,TBA,10,1,9,ENVE,2024-01-08,2024-04-24,SPRING 2024,90173,9990,02,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,60,0,60,ENVE,2024-01-08,2024-04-24,SPRING 2024,90174,9990,04,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,James Kilduff,TBA,10,1,9,ENVE,2024-01-08,2024-04-24,SPRING 2024,90175,9990,05,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+NANOTECHNOLOGY IN WATER RSRCH,LEC,3,MR,12:00PM,1:50PM,Bin Gao,Russell Sage Laboratory 2707,15,12,3,ENVE,2024-01-08,2024-04-24,SPRING 2024,94723,6960,01,ENVE-6960,Nanotechnology In Water Rsrch,,,,[],[],Engineering
+PHOTOBIOLOGY & HYDROPONICS,LEC,3,T,3:00PM,4:50PM,Eyosias Legesse Ashenafi,Russell Sage Laboratory 2701,15,4,11,ENVE,2024-01-08,2024-04-24,SPRING 2024,94443,4961,01,ENVE-4961,Photobiology & Hydroponics,,,,[],[],Engineering
+PHOTOBIOLOGY & HYDROPONICS,LEC,3,W,3:00PM,4:50PM,Eyosias Legesse Ashenafi,Russell Sage Laboratory 2701,15,4,11,ENVE,2024-01-08,2024-04-24,SPRING 2024,94443,4961,01,ENVE-4961,Photobiology & Hydroponics,,,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,91479,9990,01,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,Robert Frank Karlicek,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,91532,9990,02,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,Eric Fred Schubert,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,91880,9990,03,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,Ishwara B Bhat,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,92149,9990,04,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,90413,9990,08,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,TBA,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,90907,9990,09,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DOCTOR'S THESIS IN ENGRNG SCI,LEC,1-15,,,,Toh-Ming Lu,TBA,10,0,10,ESCI,2024-01-08,2024-04-24,SPRING 2024,91086,9990,10,ESCI-9990,DOCTOR'S Thesis In Engrng Sci,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+SYST ENGINEER & SOCIAL MEDIA,LEC,3,W,2:00PM,4:40PM,Rostyslav Korolov,Ricketts Building 211,15,11,4,ISYE,2024-01-08,2024-04-24,SPRING 2024,94224,6350,01,ISYE-6350,Syst Engineer & Social Media,"An introduction to social media analytics. Topics include obtaining and processing social media data, social network analysis, content analysis, descriptive, predictive, and prescriptive analytics using social media, ethical aspects of social media analytics.",,When Offered: Upon availability of instructor.,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Li Liu,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,92026,9990,01,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Martha Rose Grabowski,TBA,10,1,9,ISYE,2024-01-08,2024-04-24,SPRING 2024,92027,9990,02,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jennifer Ann Pazour,TBA,10,3,7,ISYE,2024-01-08,2024-04-24,SPRING 2024,93019,9990,03,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Deborah L. McGuinness,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,93491,9990,04,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,William Alan Wallace,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,92028,9990,05,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Yinan Wang,TBA,10,3,7,ISYE,2024-01-08,2024-04-24,SPRING 2024,93492,9990,06,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Kristen Rene Schell,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,93781,9990,07,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,David Joseph Mendonca,TBA,10,1,9,ISYE,2024-01-08,2024-04-24,SPRING 2024,93494,9990,08,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,5,0,5,ISYE,2024-01-08,2024-04-24,SPRING 2024,93966,9990,09,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,James Bailey,TBA,10,1,9,ISYE,2024-01-08,2024-04-24,SPRING 2024,93495,9990,13,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,92029,9990,14,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,92030,9990,19,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DESIGN OF EXPERIMENTS,LEC,3,TF,12:00PM,1:20PM,Nima Ahmadi,Jonsson Engineering Center 3210,15,10,5,ISYE,2024-01-08,2024-04-24,SPRING 2024,94225,4330,01,ISYE-4330,Design Of Experiments,"Methods of designing experiments so that statistical analysis of the resulting data will yield the maximum useful information. Testing of hypotheses; analysis of variance and covariance. Various designs, including the factorial and its modifications, incomplete blocks, Latin squares, and response surface designs are covered. Also discussed are optimality properties of design.",Prerequisites/Corequisites: ISYE 4140 or MATP 4600 and ISYE 4760 or permission of the instructor.,When Offered: Upon availability of instructor.,"['ISYE 4140', 'MATP 4600', 'ISYE 4760']","['ISYE 4140', 'MATP 4600', 'ISYE 4760']",Engineering
+STOCHASTIC MTHDS IN OPER RSRCH,LEC,3,TF,10:00AM,11:20AM,Bahar Cavdar,Troy Building 2015,20,5,15,ISYE,2024-01-08,2024-04-24,SPRING 2024,94515,4960,01,ISYE-4960,Stochastic Mthds In Oper Rsrch,,,,[],[],Engineering
+ENGINEERING DATA ANALYTICS,LEC,3,MR,10:00AM,11:50AM,Esra Agca Aktunc,Russell Sage Laboratory 2701,10,10,0,ISYE,2024-01-08,2024-04-24,SPRING 2024,94804,6370,01,ISYE-6370,Engineering Data Analytics,"Transforming data into useful information and actionable insights for decision-making is an important skill that is becoming indispensable for scientists and engineers. The objective of this course is to introduce data analytics tools to engineers through hands-on computational applications. Topics covered include probability and statistics review, data visualization, linear regression, time-series analysis, forecasting, optimization, simulation, and spreadsheet models. Applications will be in Python, MATLAB, and Excel.",,When Offered: Upon availability of instructor.,[],[],Engineering
+STATISTICAL ANALYSIS,LEC,4,MR,4:00PM,5:50PM,Yinan Wang,Troy Building 2012,60,47,13,ISYE,2024-01-08,2024-04-24,SPRING 2024,92626,4140,01,ISYE-4140,Statistical Analysis,"Review of simple and multiple regression, selection procedures, regression diagnostics, residual analysis, stepwise regression, analysis of variance, design of experiments including factorial experiments, analysis of ordinal data and nonparametric inference, basic time series models. Extensive use of statistical software. Emphasis on statistical applications to industrial engineering.",Prerequisites: ENGR 2600 or MATP 4600 and knowledge of calculus.,When Offered: Spring and summer terms annually.,"['ENGR 2600', 'MATP 4600']","['ENGR 2600', 'MATP 4600']",Engineering
+SYSTEMS ENG & SOCIAL MEDIA,LEC,3,W,2:00PM,4:40PM,Rostyslav Korolov,Ricketts Building 211,45,43,2,ISYE,2024-01-08,2024-04-24,SPRING 2024,93918,4350,01,ISYE-4350,Systems Eng & Social Media,"An introduction to social media analytics. Topics include obtaining and processing social media data, social network analysis, content analysis, descriptive, predictive, and prescriptive analytics using social media, ethical aspects of social media analytics.",,When Offered: Upon availability of instructor.,[],[],Engineering
+NETWORK FLOWS,LEC,3,MR,2:00PM,3:20PM,James Bailey,Low Center for Industrial Inn. 3112,15,10,5,ISYE,2024-01-08,2024-04-24,SPRING 2024,94773,6550,01,ISYE-6550,Network Flows,"Network flow problems form a subclass of linear programming problems with applications to transportation, logistics, manufacturing, computer science, project management, and finance, and many other domains. This subject will survey some of the applications of network optimization and focus on key special cases of network optimization problems including the following: the shortest path problems, the maximum flow problems, traveling salesperson problems, and matching problems.",none.,When Offered: Spring term annually.,[],[],Engineering
+DESGN & ANALYS OF SUPPLY CHAIN,LEC,3,MR,8:30AM,9:50AM,Jennifer Ann Pazour,Jonsson Engineering Center 3210,20,10,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,94761,4210,01,ISYE-4210,Desgn & Analys Of Supply Chain,"An overview of the principles involved in the design and operation of supply chains with applications to manufacturing and service industries. Topics include dynamics of manufacturing systems and supply chains, lean manufacturing, lead time reduction in manufacturing and office operations, advanced pull systems, concurrent design of products and supply chains, rapid new product introduction, remanufacturing and reverse supply chains, and integration of information technology in supply chain operations. The goal of the course is to enable students to synthesize models and tools and to understand how these could be applied to address emerging challenges in manufacturing and service systems and their supply chains.","Prerequisites: ISYE 2210 or MGMT 4110, and ENGR 2600 or MGMT 2100 or equivalent.",When Offered: Fall terms annually.,"['ISYE 2210', 'MGMT 4110', 'ENGR 2600', 'MGMT 2100']","['ISYE 2210', 'MGMT 4110', 'ENGR 2600', 'MGMT 2100']",Engineering
+ENGINEERING DATA ANALYTICS,LEC,4,MR,10:00AM,11:50AM,Esra Agca Aktunc,Russell Sage Laboratory 2701,15,11,4,ISYE,2024-01-08,2024-04-24,SPRING 2024,94803,4370,01,ISYE-4370,Engineering Data Analytics,"Transforming data into useful information and actionable insights for decision-making is an important skill that is becoming indispensable for scientists and engineers. The objective of this course is to introduce data analytics tools to engineers through hands-on computational applications. Topics covered include probability and statistics review, data visualization, linear regression, time-series analysis, forecasting, optimization, simulation, and spreadsheet models. Applications will be in Python, MATLAB, and Excel.",,When Offered: Upon availability of instructor.,[],[],Engineering
+DESIGN OF MANUFACTURING SYSTEMS AND SUPPLY CHAINS,LEC,3,MR,8:30AM,9:50AM,Jennifer Ann Pazour,Jonsson Engineering Center 3210,20,15,5,ISYE,2024-01-08,2024-04-24,SPRING 2024,94764,6600,01,ISYE-6600,Design Of Manufacturing Systems And Supply Chains,"Dynamics of manufacturing systems and supply chains, lean manufacturing, lead time reduction in manufacturing and service operations, advanced pull systems, concurrent design of products and supply chains, rapid new product introduction, remanufacturing and reverse supply chains, and integration of information technology in supply chain operations. Analysis of models and their application to design and planning problems in manufacturing as well as service systems is emphasized.",Prerequisites: ISYE 4140 (or equivalent) or permission of instructor.,When Offered: Fall terms annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+DESIGN OF MANUFACTURING SYSTEMS AND SUPPLY CHAINS,LEC,3,,,,David Joseph Stec,Online ,25,6,19,ISYE,2024-01-08,2024-04-24,SPRING 2024,93917,6600,H01,ISYE-6600,Design Of Manufacturing Systems And Supply Chains,"Dynamics of manufacturing systems and supply chains, lean manufacturing, lead time reduction in manufacturing and service operations, advanced pull systems, concurrent design of products and supply chains, rapid new product introduction, remanufacturing and reverse supply chains, and integration of information technology in supply chain operations. Analysis of models and their application to design and planning problems in manufacturing as well as service systems is emphasized.",Prerequisites: ISYE 4140 (or equivalent) or permission of instructor.,When Offered: Fall terms annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+DESIGN OF EXPERIMENTS,LEC,3,TF,12:00PM,1:20PM,Nima Ahmadi,Jonsson Engineering Center 3210,15,10,5,ISYE,2024-01-08,2024-04-24,SPRING 2024,94237,6020,01,ISYE-6020,Design Of Experiments,"Methods of designing experiments so that statistical analysis of the resulting data will yield the maximum useful information. Testing of hypotheses; analysis of variance and covariance. Various designs, including the factorial and its modifications, incomplete blocks, Latin squares, and response surface designs are covered. Also discussed are optimality properties of design.",Prerequisites: ISYE 4140 or MATP 4600 and ISYE 4760 or permission of the instructor.,When Offered: Upon sufficient demand.,"['ISYE 4140', 'MATP 4600', 'ISYE 4760']","['ISYE 4140', 'MATP 4600', 'ISYE 4760']",Engineering
+SYSTEMS MODELING IN DSES,LEC,3,,,,Amit Mathur,Online ,25,14,11,ISYE,2024-01-08,2024-04-24,SPRING 2024,93722,6610,H01,ISYE-6610,Systems Modeling In Dses,Survey of decision science methodologies in the context of technical and economic decision problems. The course seeks to develop a conceptual understanding of these methods and basic implementation skills. Students will learn how to apply decision science methods from problem recognition and data development through problem formulation and computer solution.,Prerequisite: ISYE 4140 or permission of instructor.,When Offered: Fall term annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+PRODUCTION AND OPERATIONS MANAGEMENT,LEC,3,MR,10:00AM,11:20AM,Diego Alejandro Moran Ramirez,Russell Sage Laboratory 5101,50,41,9,ISYE,2024-01-08,2024-04-24,SPRING 2024,93209,2210,01,ISYE-2210,Production And Operations Management,"Overview of methods used in the design and operation of production and service systems and basic cost accounting. Topics include forecasting, capacity planning, line balancing, production scheduling, staff scheduling, inventory control, just in time, time study, project planning, and discrete item cost accounting. Goal of course is to educate students in basic operations management principles and models and in discrete goods cost accounting.",Prerequisites: MATH 1020 or equivalent.,When Offered: Spring term annually.,['MATH 1020'],['MATH 1020'],Engineering
+ENGR PROJ MANAGEMENT,LEC,3,,,,Antonella Zompa,Online ,25,14,11,ISYE,2024-01-08,2024-04-24,SPRING 2024,93430,4240,H01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
+"ETHICAL ENGR, ENGRING, & TECH",LEC,4,MR,12:00PM,1:50PM,Azita Hirsa,Low Center for Industrial Inn. 3130,20,16,4,ISYE,2024-01-08,2024-04-24,SPRING 2024,94722,4555,01,ISYE-4555,"Ethical ENGR, ENGRING, & Tech","This course focuses on the morally motivated work of engineers; how they have changed the world for centuries and continue to do so. It examines the past, present and the future of engineering through ethical reflections and knowledge based on various engineering code of ethics with particular attention to NSPE Code of Ethics. Students are invited to analyze contemporary issues in engineering, hear lectures from experts' experiences with ethical challenges in engineering, and interview engineers in various engineering fields. Particular attention will be paid to topics of corporate social responsibility and social justice. The aim of the course is to encourage engineering student to practice moral - sensibility, - analysis skills, - creativity, - judgment skills, - decision-making skills, and - argumentation skills.",None.,When Offered: Spring term annually.,[],[],Engineering
+DISCRETE EVENT SIMULATION,LEC,3,TF,2:00PM,3:50PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,10,2,8,ISYE,2024-01-08,2024-04-24,SPRING 2024,92025,6620,01,ISYE-6620,Discrete Event Simulation,"A thorough development of a simulation language is stressed in order to progress through a series of increasingly sophisticated applications of computer simulation. Projects cover a wide range of topics: production systems, inventory, finance, transportation, and public systems. The course includes model development, statistical analysis of simulation input/output data, validation planning, and managing simulation projects.",Prerequisite: ISYE 4140 or equivalent.,When Offered: Spring terms annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+DISCRETE EVENT SIMULATION,LEC,3,,,,Trevor Caskey,Online ,25,23,2,ISYE,2024-01-08,2024-04-24,SPRING 2024,93721,6620,H01,ISYE-6620,Discrete Event Simulation,"A thorough development of a simulation language is stressed in order to progress through a series of increasingly sophisticated applications of computer simulation. Projects cover a wide range of topics: production systems, inventory, finance, transportation, and public systems. The course includes model development, statistical analysis of simulation input/output data, validation planning, and managing simulation projects.",Prerequisite: ISYE 4140 or equivalent.,When Offered: Spring terms annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+INTRODUCTION TO INDUSTRIAL & SYSTEMS ENGINEERING,LEC,1,W,11:00AM,11:50AM,Esra Agca Aktunc,Jonsson Engineering Center 3207,25,17,8,ISYE,2024-01-08,2024-04-24,SPRING 2024,92341,1100,01,ISYE-1100,Introduction To Industrial & Systems Engineering,"An introduction to industrial and systems engineering (ISE). Major elements of the ISE disciplines are overviewed in the context of operations engineering problems. Topics include deterministic and stochastic applications of operations research methods, soft computing, applications of probability and statistics, engineering economics, discrete event simulation, and decision analysis.",,When Offered: Upon availability of instructor.,[],[],Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,1,-1,ISYE,2024-01-08,2024-04-24,SPRING 2024,92021,4270,01,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,3,-3,ISYE,2024-01-08,2024-04-24,SPRING 2024,92022,4270,02,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Nima Ahmadi/Junichi Kanai,Jonsson Engineering Center 3332,0,3,-3,ISYE,2024-01-08,2024-04-24,SPRING 2024,92023,4270,03,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai,Jonsson Engineering Center 3332,0,4,-4,ISYE,2024-01-08,2024-04-24,SPRING 2024,92024,4270,04,ISYE-4270,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisites: ENGR 2050 or MANE 2220, and senior standing.",When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+LINEAR AND CONIC OPTIMIZATION,LEC,4,TF,12:00PM,1:50PM,John E. Mitchell,Low Center for Industrial Inn. 4034,25,4,21,ISYE,2024-01-08,2024-04-24,SPRING 2024,94236,6770,01,ISYE-6770,Linear And Conic Optimization,"A unified development of linear systems and linear programming, polyhedral theory, the simplex method, interior point methods, decomposition methods for large scale linear programming problems, the ellipsoid method, column generation algorithms for stochastic programming and other problems.",Prerequisite: introductory course in operations research.,"When Offered: Spring term, even-numbered years.",[],[],Engineering
+DISCRETE EVENT SIM  MODELING,LEC,4,TF,2:00PM,3:50PM,Nima Ahmadi,Low Center for Industrial Inn. 3116,25,22,3,ISYE,2024-01-08,2024-04-24,SPRING 2024,92342,4290,01,ISYE-4290,Discrete Event Sim Modeling,"Introduction to discrete-event simulation modeling and analysis techniques including; graphical simulation modeling approaches, animation techniques, modeling large-scale and complex systems, pseudo-random number and random variate generation, stochastic processes, input modeling (data collection, analysis, and fitting distribution), output analysis (initial bias and termination bias, variance reduction techniques), sensitivity analysis, design of experiments, interactive simulation-based decision-support systems.",Prerequisites: ISYE 4140 or equivalent and CSCI 1100 or permission of instructor.,When Offered: Spring terms annually.,"['ISYE 4140', 'CSCI 1100']","['ISYE 4140', 'CSCI 1100']",Engineering
+MASTERS PROJECT,LEC,1-9,,,,Yinan Wang,TBA,1,0,1,ISYE,2024-01-08,2024-04-24,SPRING 2024,92365,6980,01,ISYE-6980,Masters Project,"Active participation in a master's-level project under the supervision of a faculty adviser, leading to a master's project report. Grades of IP are assigned until the master's project has been approved by the faculty adviser. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the Library. Grades will then be listed as S.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,William Alan Wallace,TBA,1,0,1,ISYE,2024-01-08,2024-04-24,SPRING 2024,92160,6990,01,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Yinan Wang,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,92192,6990,02,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,TBA,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,92289,6990,03,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Jennifer Ann Pazour,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,93020,6990,04,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,David Joseph Mendonca,TBA,10,0,10,ISYE,2024-01-08,2024-04-24,SPRING 2024,93493,6990,08,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+SYSTEM ID - LEARNING FROM DATA,LEC,3,MR,10:00AM,11:20AM,Fotios Kopsaftopoulos,Russell Sage Laboratory 2112,20,17,3,MANE,2024-01-08,2024-04-24,SPRING 2024,94812,6966,01,MANE-6966,System Id - Learning From Data,,,,[],[],Engineering
+FUNDAMENTALS OF FLIGHT,LEC,1,W,10:00AM,11:50AM,Fotios Kopsaftopoulos,Darrin Communications Center 318,200,174,26,MANE,2024-01-08,2024-04-24,SPRING 2024,93180,1060,01,MANE-1060,Fundamentals Of Flight,"A seminar based course providing an overview of the aerospace engineering field. Emerging and existing aerospace engineering technologies found in aircraft, rotorcraft, rockets, and spacecraft, and the engineering sciences relevant to aerospace engineering are introduced. This course is graded Satisfactory/Unsatisfactory.",,When Offered: Spring term annually.,[],[],Engineering
+INVENTOR'S STUDIO 3,LEC,4,TF,2:00PM,3:50PM,Asish Ghosh/Tracy N. Sullivan,Russell Sage Laboratory 2211,28,14,14,MANE,2024-01-08,2024-04-24,SPRING 2024,94176,4330,01,MANE-4330,INVENTOR'S Studio 3,"An advanced course in technology innovation. Students learn Lean six sigma methodologies to set up a TQM (Total Quality Management) structure for their pilot operation, to scale up their product or technology innovation. Utilizing systems thinking, students design a lean manufacturing or technology service (e.g. software), operation. Tools and techniques will be learned, to conduct customer discovery, development, and interviews etc. Students develop new suppliers and design a lean supply chain. Regular seminars will be given by external speakers.",Prerequisites: MANE 2220 or ENGR 2050 or permission of instructor. MANE 4220 is recommended.,When Offered: Spring term annually.,"['MANE 2220', 'ENGR 2050', 'MANE 4220']","['MANE 2220', 'ENGR 2050', 'MANE 4220']",Engineering
+HEAT TRANSFER,LEC,3,TF,12:00PM,1:50PM,Shankar Narayan,Ricketts Building 203,126,115,11,MANE,2024-01-08,2024-04-24,SPRING 2024,94177,4730,01,MANE-4730,Heat Transfer,"Comprehensive treatment of conduction, convection (including boiling and condensation), and radiation heat transfer. Thermal system design and performance (including heat exchangers). Emphasis is on physical and mathematical modeling of engineering systems for application of modern analytical and computational solution methods.",Prerequisite: MANE 2710,"When Offered: Fall, spring and summer terms annually.",['MANE 2710'],['MANE 2710'],Engineering
+COMBUSTION SYSTEMS,LEC,3,,,,Matthew Adam Oehlschlaeger,TBA,0,2,-2,MANE,2024-01-08,2024-04-24,SPRING 2024,95088,6830,01,MANE-6830,Combustion Systems,"Review of fundamentals of thermodynamics, chemical kinetics, fluid mechanics, and modern diagnostics. Discussion of flame propagation, thermal and chain explosions, stirred reactors, detonations, droplet combustion, and turbulent jet flames. Introduction to computational tools for complex equilibrium and kinetic calculations. Application to problems such as pollutant formation.",,When Offered: Upon availability of instructor.,[],[],Engineering
+MACHINE DYNAMICS,LEC,3,MR,4:00PM,5:50PM,Joshua Lucas Hurst,Low Center for Industrial Inn. 4034,32,29,3,MANE,2024-01-08,2024-04-24,SPRING 2024,92226,4170,01,MANE-4170,Machine Dynamics,"The principles of dynamics as applied to the analysis of the accelerations and dynamic forces in machines and machine components such as linkages, cams, and gears. The effect these dynamic forces have on the dynamic balance and operation of the machines and the attending stresses in the individual components of the machines.",Prerequisites: ENGR 2090 and MATH 2400,When Offered: Spring term annually.,"['ENGR 2090', 'MATH 2400']","['ENGR 2090', 'MATH 2400']",Engineering
+MODELING AND CONTRL OF DYN SYS,LEC,3,MR,2:00PM,3:50PM,Sarah Helen Felix,Carnegie Building 113,75,77,-2,MANE,2024-01-08,2024-04-24,SPRING 2024,93876,4500,01,MANE-4500,Modeling And Contrl Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+MODELING AND CONTRL OF DYN SYS,LEC,3,MR,4:00PM,5:50PM,Sarah Helen Felix,Carnegie Building 113,75,65,10,MANE,2024-01-08,2024-04-24,SPRING 2024,94527,4500,02,MANE-4500,Modeling And Contrl Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,M,9:00AM,11:50AM,Ukwatte Lokuliyanage Indika Upendra Perera,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94180,4740,01,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,11,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94180,4740,01,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,M,2:00PM,4:50PM,Ukwatte Lokuliyanage Indika Upendra Perera,Low Center for Industrial Inn. 5118,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,94181,4740,02,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,94181,4740,02,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,T,9:00AM,11:50AM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,8,2,MANE,2024-01-08,2024-04-24,SPRING 2024,94182,4740,03,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,8,2,MANE,2024-01-08,2024-04-24,SPRING 2024,94182,4740,03,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,T,2:00PM,4:50PM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94183,4740,04,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,11,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94183,4740,04,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,9:00AM,11:50AM,Bimal K Malaviya,Low Center for Industrial Inn. 5118,10,11,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94184,4740,05,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,11,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94184,4740,05,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94185,4740,06,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,2:00PM,4:50PM,Fred Thomas Willett,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94185,4740,06,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94186,4740,07,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,R,9:00AM,11:50AM,Bimal K Malaviya,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94186,4740,07,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,W,1:00PM,1:50PM,Fred Thomas Willett,Darrin Communications Center 337,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94187,4740,08,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+Thermal and Fluids Engineering Laboratory,LEC,2,R,2:00PM,4:50PM,Bimal K Malaviya,Low Center for Industrial Inn. 5118,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94187,4740,08,MANE-4740,Thermal And Fluids Engineering Laboratory,"Laboratory experience to complement MANE Thermal-Fluids sequence. Demonstration of principles of thermodynamics, fluid mechanics, and heat transfer for mechanical engineering applications through a number of structured experiments. Technical communication skills and decision-making in the face of uncertainty are strongly emphasized.",Prerequisites: MANE 2710 and MANE 2720 and MANE 4730 *. (*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 2710', 'MANE 2720', 'MANE 4730']","['MANE 2710', 'MANE 2720', 'MANE 4730']",Engineering
+COMPRESSIBLE FLOWS,LEC,3,TF,10:00AM,11:20AM,Ozgur Tumuklu,Darrin Communications Center 232,30,12,18,MANE,2024-01-08,2024-04-24,SPRING 2024,93958,4960,01,MANE-4960,Compressible Flows,,,When Offered: Upon sufficient demand.,[],[],Engineering
+INTRODUCTION TO NUCLEAR ENGINEERING,LEC,1,W,4:00PM,5:50PM,Bimal K Malaviya,Jonsson Engineering Center 5119,42,33,9,MANE,2024-01-08,2024-04-24,SPRING 2024,93870,1100,01,MANE-1100,Introduction To Nuclear Engineering,"A survey of concepts applied to nuclear power production and non-power applications of nuclear science and technology. Topics include next generation nuclear power plants, nuclear reactor materials, waste management, environmental impacts of nuclear power, fusion power, medical applications, radiation protection, and other topics of current interest. Introduction to and tours of experimental facilities including an electron accelerator. Discussions of educational, research, and career opportunities in Nuclear Engineering. This course is graded Satisfactory/Unsatisfactory.",,When Offered: Spring term annually.,[],[],Engineering
+INSTRUMENTATION & MEASUR,LEC,3,MR,12:00PM,1:20PM,Thomas Clark Haley,Low Center for Industrial Inn. 3116,29,24,5,MANE,2024-01-08,2024-04-24,SPRING 2024,93690,4350,01,MANE-4350,Instrumentation & Measur,"Nuclear instrumentation and radiation detector systems for the collection, processing and displaying of signals related to photons, electrons, alpha particles, and neutrons. Topics include: radiation interactions, counting statistics, ionization chambers, proportional counters, Geiger counters, scintillators, gamma-ray spectroscopy, semiconductor detectors, slow and fast neutron detection, liquid scintillation and TLD, and background and shielding. Students will tour a 100-MeV electron accelerator facility and learn to use MCNP code to simulate an HPGe gamma spectrometer.",Prerequisite: MANE 2830 Nuclear Phenomena for Engineering Applications.,When Offered: Spring term annually.,['MANE 2830'],['MANE 2830'],Engineering
+CONTROL SYSTEMS LAB,LEC,2,W,8:00AM,9:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,30,29,1,MANE,2024-01-08,2024-04-24,SPRING 2024,94192,4510,01,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+CONTROL SYSTEMS LAB,LEC,2,W,10:00AM,11:50AM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,30,30,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94193,4510,02,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+CONTROL SYSTEMS LAB,LEC,2,W,2:00PM,3:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,30,31,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94194,4510,03,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+CONTROL SYSTEMS LAB,LEC,2,W,4:00PM,5:50PM,Joshua Lucas Hurst,Jonsson Engineering Center 4304,30,30,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94195,4510,04,MANE-4510,Control Systems Lab,"Laboratory introduction to the design, analysis and interpretation of key components of an intelligent physical system: sensing, communication, computation, simulation, programming, and control. Modeling and simulation of physical phenomena. Design of control algorithms (e.g., PID, state feedback) applied to a variety of physical systems. Modeling systems from data. Analysis of data, algorithm development, and implementation in hardware, including nonlinear and hardware effects of discretization, delays, saturation, and sampling. Extensive use of METLAB and Simulink.",Prerequisite: MANE 4500 *.(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,['MANE 4500'],['MANE 4500'],Engineering
+INTRO TO ROBOT PROGRAMMING,LEC,3,TF,12:30PM,1:50PM,Kimberly Irene Oakes,Troy Building 2012,15,15,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94927,4961,01,MANE-4961,Intro To Robot Programming,,,,[],[],Engineering
+MECHATRONICS,LEC,3,MR,12:00PM,1:50PM,Sandipan Mishra,Jonsson Engineering Center 4304,24,23,1,MANE,2024-01-08,2024-04-24,SPRING 2024,93715,4520,01,MANE-4520,Mechatronics,"The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design.",Prerequisites: MANE 4500 or ECSE 2410,When Offered: Fall and spring terms annually.,"['MANE 4500', 'ECSE 2410']","['MANE 4500', 'ECSE 2410']",Engineering
+MACHINE LEARNING ENGINEERING,LEC,3,W,2:00PM,4:50PM,M Arshad Zahangir Chowdhury,Jonsson Engineering Center 3207,30,29,1,MANE,2024-01-08,2024-04-24,SPRING 2024,94613,4962,01,MANE-4962,Machine Learning Engineering,,,,[],[],Engineering
+INTRO NONLINEAR FINITE ELEMNTS,LEC,3,MR,10:00AM,11:50AM,Karthikeyan Panneerselvam,Darrin Communications Center 236,30,11,19,MANE,2024-01-08,2024-04-24,SPRING 2024,94836,6860,01,MANE-6860,Intro Nonlinear Finite Elemnts,"Review of linear finite element concepts. Nonlinear continuum mechanics of solids: finite strain and stress measures, total and updated Lagrangian approaches, variational methods - virtual work principle. Non-linear finite element procedures: Incremental solution of nonlinear equations, Newton-Rephson method. Finite elements for elasto-plasticity. Finite elements for hyper-elasticity. Contact of solids using finite elements. Finite elements in dynamics.",An undergraduate course in finite elements is necessary.,When Offered: Spring term every one to two years.,[],[],Engineering
+MASTER'S PROFESSIONAL PROJECT,LEC,3,,,,Francisco J Cunha,Online ,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,93530,6970,H02,MANE-6970,MASTER'S Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A,B,C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+MASTER'S PROFESSIONAL PROJECT,LEC,3,,,,Ernesto Gutierrez-Miravete,Online ,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,93531,6970,H03,MANE-6970,MASTER'S Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A,B,C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+MECHANICS 1,LEC,3,MR,10:00AM,11:50AM,Ali Shahsavari/Thomas Clark Haley/Catalin R Picu,Pittsburgh Building 5216,36,24,12,MANE,2024-01-08,2024-04-24,SPRING 2024,94557,1960,01,MANE-1960,Mechanics 1,Topics courses at the 1000 level will either be for a grade or be graded Satisfactory/Unsatisfactory; consult the course syllabus to determine which.,,When Offered: Upon sufficient demand.,[],[],Engineering
+MECHANICS 1,LEC,3,W,8:00AM,8:50AM,TBA,Pittsburgh Building 5114,36,24,12,MANE,2024-01-08,2024-04-24,SPRING 2024,94557,1960,01,MANE-1960,Mechanics 1,Topics courses at the 1000 level will either be for a grade or be graded Satisfactory/Unsatisfactory; consult the course syllabus to determine which.,,When Offered: Upon sufficient demand.,[],[],Engineering
+ELEMENTS OF MECH DESIGN,LEC,4,MR,12:00PM,1:50PM,M Arshad Zahangir Chowdhury,Ricketts Building 211,75,62,13,MANE,2024-01-08,2024-04-24,SPRING 2024,93006,4030,01,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
+ELEMENTS OF MECH DESIGN,LEC,4,MR,2:00PM,3:50PM,M Arshad Zahangir Chowdhury,Ricketts Building 211,75,32,43,MANE,2024-01-08,2024-04-24,SPRING 2024,94491,4030,02,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
+ROBOTICS II,LEC,3,MR,4:00PM,5:20PM,Esen Yel,Jonsson Engineering Center 4104,15,5,10,MANE,2024-01-08,2024-04-24,SPRING 2024,94660,4963,01,MANE-4963,Robotics Ii,,,,[],[],Engineering
+NUMERIC METH REAC ANALYS,LEC,3,MR,12:00PM,1:20PM,Wei Ji,Jonsson-Rowland Science Center 1W01,12,7,5,MANE,2024-01-08,2024-04-24,SPRING 2024,94746,6300,01,MANE-6300,Numeric Meth Reac Analys,"Difference equations; matrix operation, linear systems, matrix eigenvalue problems, multi-group diffusion, and transport theory methods. Sn calculations, Monte Carlo methods. Application to nuclear engineering calculations, such as flux and power distributions, heat conduction, programming reactor problems for digital computers, codes, etc.",Prerequisites: MANE 4290 or MANE 6290,When Offered: Upon sufficient demand.,"['MANE 4290', 'MANE 6290']","['MANE 4290', 'MANE 6290']",Engineering
+GRADUATE SEMINAR,LEC,0,W,10:00AM,11:50AM,Shankar Narayan,Russell Sage Laboratory 3510,180,128,52,MANE,2024-01-08,2024-04-24,SPRING 2024,90354,6900,01,MANE-6900,Graduate Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Wei Ji,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91565,6980,01,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Hyun Gook Kang,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92054,6980,03,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Michael Amitay,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92234,6980,04,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Antoinette Maniatty,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92238,6980,05,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Kurt S Anderson,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,92279,6980,06,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Sandipan Mishra,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92506,6980,07,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Theodorian Borca-Tasciuc,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92533,6980,08,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Amir Hirsa,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92546,6980,09,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Jason Edward Hicken,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,92507,6980,10,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Matthew Adam Oehlschlaeger,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,92508,6980,11,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Fudong Han,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,93501,6980,12,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,92509,6980,13,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Farhan Gandhi,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92510,6980,14,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Johnson Samuel,TBA,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,92511,6980,15,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Sarah Helen Felix,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,93504,6980,16,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,James Edward Olson,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,92547,6980,17,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Fotios Kopsaftopoulos,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93507,6980,18,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Onkar Sahni,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93515,6980,19,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Lucy T. Zhang,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92695,6980,20,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Sandeep Singh,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92699,6980,21,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Shaowu Pan,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92746,6980,22,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Daniel Walczyk,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92747,6980,23,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Li Liu,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92803,6980,24,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Shankar Narayan,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93014,6980,25,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Kristen Lynn Mills,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93017,6980,26,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93043,6980,27,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,John Wen,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,93224,6980,28,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93285,6980,29,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Suvranu De,TBA,1,0,1,MANE,2024-01-08,2024-04-24,SPRING 2024,93374,6980,30,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Suvranu De,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93376,6980,31,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Catalin R Picu,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93377,6980,32,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Asish Ghosh,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93029,6980,33,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Shankar Narayan,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93219,6980,34,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Yaron Danon,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93222,6980,35,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Michael David Hughes,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93249,6980,36,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Shanbin Shi,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93755,6980,38,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93136,6980,45,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Diana Andra Borca Tasciuc,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92958,6980,50,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Leonid Pogorelyuk,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95005,6980,55,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Ozgur Tumuklu,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,95008,6980,56,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Jacob Simon Merson,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95011,6980,57,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Hunter Christophe Belanger,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95014,6980,58,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Semih Akin,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95017,6980,59,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,John A Tichy,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93130,6980,60,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,Jie Lian,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93144,6980,75,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+INTRO ENGINEERING COMPUTATION,LEC,2,MR,2:00PM,3:50PM,Thomas Clark Haley/Catalin R Picu/Ali Shahsavari,Pittsburgh Building 5114,35,27,8,MANE,2024-01-08,2024-04-24,SPRING 2024,94558,1961,01,MANE-1961,Intro Engineering Computation,,,,[],[],Engineering
+INTRO ENGINEERING COMPUTATION,LEC,2,W,9:00AM,9:50AM,TBA,Pittsburgh Building 5114,35,27,8,MANE,2024-01-08,2024-04-24,SPRING 2024,94558,1961,01,MANE-1961,Intro Engineering Computation,,,,[],[],Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,9:00AM,10:50AM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,22,22,0,MANE,2024-01-08,2024-04-24,SPRING 2024,91050,4040,01,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,12:00PM,1:50PM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,22,21,1,MANE,2024-01-08,2024-04-24,SPRING 2024,91264,4040,02,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,W,3:00PM,4:50PM,Ali Shahsavari,Jonsson Engineering Center 1219,22,21,1,MANE,2024-01-08,2024-04-24,SPRING 2024,91265,4040,03,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,R,8:00AM,9:50AM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,22,15,7,MANE,2024-01-08,2024-04-24,SPRING 2024,91266,4040,04,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,R,2:00PM,3:50PM,Ali Shahsavari,Jonsson Engineering Center 1219,22,20,2,MANE,2024-01-08,2024-04-24,SPRING 2024,92253,4040,05,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+MECHANICAL SYSTEMS LAB,LEC,2,M,10:00AM,11:50AM,Luiz Victor Repolho Cagliari,Jonsson Engineering Center 1219,22,20,2,MANE,2024-01-08,2024-04-24,SPRING 2024,92494,4040,06,MANE-4040,Mechanical Systems Lab,"Laboratory experience to complement MANE 4030 Tolerancing; gear kinematics and torque transfer; stress-strain behavior; beam bending; contact, friction, and wear; snap fasteners; fatigue; mechanical component design and analysis.",Prerequisite: MANE 4030 *(*can also be taken simultaneously),When Offered: Fall and spring terms annually.,"['MANE 4030', 'MANE 4030']","['MANE 4030', 'MANE 4030']",Engineering
+VTOL AIRCRAFT DESIGN,LEC,3,MR,10:00AM,11:50AM,Robert John Niemiec,Peoples Ave Complex J 3401,12,7,5,MANE,2024-01-08,2024-04-24,SPRING 2024,93915,4210,01,MANE-4210,Vtol Aircraft Design,"Aerodynamics and dynamics of lifting rotors in Vertical Take-Off and Landing (VTOL) applications. Design concepts by which rotor weight and stress are minimized and vehicle control is provided. Weight and engine power trends for configuration definition. Center of gravity and aerodynamic lift and moment for equilibrium and desired aircraft attitude. Methods for determining size, weight, and cost for a given payload, useful volume, and specified performance. This is a communication-intensive course.",Prerequisite: MANE 4120 or MANE 4130 or MANE 4090; or permission of the instructor.,When Offered: Spring term annually.,"['MANE 4120', 'MANE 4130', 'MANE 4090']","['MANE 4120', 'MANE 4130', 'MANE 4090']",Engineering
+MASTER'S THESIS,LEC,1-12,,,,Nikhil Koratkar,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91280,6990,01,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jie Lian,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91126,6990,02,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93500,6990,03,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Thierry Blanchet,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91477,6990,04,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Mark S Shephard,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91492,6990,05,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Diana Andra Borca Tasciuc,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91499,6990,06,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Mamadou Lamine Diagne,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93503,6990,07,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,John Wen,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,91509,6990,08,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Fotios Kopsaftopoulos,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93506,6990,09,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Catalin R Picu,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91328,6990,10,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Daniel Walczyk,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90485,6990,11,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Yaron Danon,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91329,6990,12,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Amir Hirsa,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,91636,6990,13,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Sandeep Singh,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91819,6990,14,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Kurt S Anderson,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91896,6990,15,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Shaowu Pan,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91980,6990,16,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Lucy T. Zhang,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92093,6990,17,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Johnson Samuel,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,92096,6990,18,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Onkar Sahni,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92103,6990,19,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Shanbin Shi,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93756,6990,20,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Michael Amitay,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93013,6990,21,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jason Edward Hicken,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92502,6990,24,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Suvranu De,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90355,6990,25,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Antoinette Maniatty,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92052,6990,26,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Sandipan Mishra,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,92053,6990,27,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,92503,6990,28,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Farhan Gandhi,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,92504,6990,29,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Kristen Lynn Mills,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93016,6990,30,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Theodorian Borca-Tasciuc,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93018,6990,32,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93030,6990,33,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Shankar Narayan,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93220,6990,34,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Yaron Danon,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93221,6990,35,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Michael David Hughes,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93248,6990,36,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94626,6990,37,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Michael Amitay,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90482,6990,47,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Matthew Adam Oehlschlaeger,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90677,6990,54,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Leonid Pogorelyuk,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95006,6990,55,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Ozgur Tumuklu,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,95009,6990,56,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Jacob Simon Merson,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95012,6990,57,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Hunter Christophe Belanger,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95015,6990,58,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Semih Akin,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95018,6990,59,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Wei Ji,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91833,6990,65,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+AEROSPACE STRUC & MATERIALS,LEC,4,MR,12:00PM,1:50PM,Prabhat Hajela,Russell Sage Laboratory 5510,65,61,4,MANE,2024-01-08,2024-04-24,SPRING 2024,93686,4060,01,MANE-4060,Aerospace Struc & Materials,"Beam structures under combined shear, bending, and torsional loads. Semi-monocoque structures: idealizations involving wings, ribs, and fuselage bulkheads. Effects of taper and cutouts in stiffened shell structures, shear deformations and warping, location of elastic axis in open and closed sections, torsion of multicell sections. Stability of beam and membrane elements. Introduction to materials used in aerospace vehicles including metals, ceramics, and composites with special emphasis on fiber-reinforced composite materials. Methods for material analysis and selection for various aerospace components.",Prerequisites/Corequisites: ENGR 2530,"When Offered: Fall, spring, and summer terms annually.",['ENGR 2530'],['ENGR 2530'],Engineering
+INVENTOR'S STUDIO 2,LEC,4,MR,10:00AM,11:50AM,Clinton T. Ballinger/Asish Ghosh/Susan Victoria Henry,Russell Sage Laboratory 2211,28,28,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93878,4220,01,MANE-4220,INVENTOR'S Studio 2,"Students work in teams to continue innovation, design, and development work on approved projects that started in other courses such as Introduction to Engineering Design or Inventors Studio 1 or equivalent. New projects can also be proposed by students. Emphasis will be on innovating, completing the design, building an improved prototype, applying for patent protection, and licensing the design. Open to undergraduate and graduate students. Oral and written concept, midterm and final presentations are required. This is a communication-intensive course. This course meets with ENGR 4010.   This course will cancel any credit for ENGR 4010 if ENGR 4010 was or is taken",Prerequisite: MANE 2220 or ENGR 2050; or permission of instructor.,When Offered: Fall and spring terms annually.,"['MANE 2220', 'ENGR 2050']","['MANE 2220', 'ENGR 2050']",Engineering
+NUCLEAR ENG SENR DSGN PROJ II,LEC,2,F,2:00PM,3:50PM,Bimal K Malaviya,Jonsson Engineering Center 3210,14,14,0,MANE,2024-01-08,2024-04-24,SPRING 2024,90336,4390,01,MANE-4390,Nuclear Eng Senr Dsgn Proj Ii,This is a required continuation of MANE 4380. This is a communication-intensive course.,Prerequisite: MANE 4380,When Offered: Spring term annually.,"['MANE 4380', 'MANE 4380']","['MANE 4380', 'MANE 4380']",Engineering
+AERODYNAMICS,LEC,4,TF,12:00PM,1:50PM,Keith Robert Taylor,Darrin Communications Center 235,32,24,8,MANE,2024-01-08,2024-04-24,SPRING 2024,93687,4070,01,MANE-4070,Aerodynamics,"Introduction to fixed-wing flight mechanics. Lift generation, thin-airfoil, and wing theories. Boundary layers and applications to wings. One and two-dimensional compressible flow and applications to aircraft and rocket engines.",Prerequisites: MANE 2710 and MANE 2720,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
+AIR VEHICLE DESIGN,LEC,3,MR,12:00PM,1:50PM,Kevin Wayne Housley/Luiz Victor Repolho Cagliari,Jonsson Engineering Center 3210,50,42,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92047,4230,01,MANE-4230,Air Vehicle Design,"Conceptual and preliminary design of manned and unmanned air vehicles to satisfy given mission requirements and aircraft specifications. Includes elements of initial sizing and weights, geometry selection, aerodynamic design, propulsion integration, stability and control, loads, structural design, materials, manufacturability, and cost analysis. This is a communication-intensive course.","Prerequisites: MANE 4060, MANE 4070, MANE Senior Standing, and either MANE 4090; or permission of instructor.",When Offered: Spring term annually.,"['MANE 4060', 'MANE 4070', 'MANE 4090']","['MANE 4060', 'MANE 4070', 'MANE 4090']",Engineering
+INTRO COMPUTAT FLUID DYNAMICS,LEC,3,TF,12:00PM,1:50PM,Onkar Sahni,Troy Building 2018,64,16,48,MANE,2024-01-08,2024-04-24,SPRING 2024,93694,6140,01,MANE-6140,Intro Computat Fluid Dynamics,"This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid-dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.","Undergraduate Fluid Mechanics, Multivariable Calculus, and Matrix Algebra background is necessary; numerical and programming background is preferred.",When Offered: Spring term annually.,[],[],Engineering
+ADV COMPUTNL FLUID DYNAMICS,LEC,3,,,,Francisco J Cunha,Online ,25,5,20,MANE,2024-01-08,2024-04-24,SPRING 2024,93650,6720,H01,MANE-6720,Adv Computnl Fluid Dynamics,"Course focuses on computational approaches to solve the Navier-Stokes equations. Course assumes knowledge of numerical methods and therefore directly attacks the obstacles to applying these methods to the Navier-Stokes equations. Issues concerning implementation of finite difference methods (FDM), finite volume methods (FVM) and finite element methods (FEM) will be discussed. These issues include: the discrete formulation, nonlinear equation iterator (steady)/marcher (time-accurate), linear equation formation, boundary condition prescription, and linear equation solution.",Prerequisites: MANE 6660/ CIVL 6660.,When Offered: Upon sufficient demand.,"['MANE 6660', 'CIVL 6660']","['MANE 6660', 'CIVL 6660']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,10:00AM,11:50AM,Jason Edward Hicken,Carnegie Building 113,0,42,-42,MANE,2024-01-08,2024-04-24,SPRING 2024,93655,2110,01,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: ENGR 1100, MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,10:00AM,11:50AM,Tara Gallaway Cohen,West Hall AUD,0,44,-44,MANE,2024-01-08,2024-04-24,SPRING 2024,93871,2110,02,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: ENGR 1100, MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,12:00PM,1:50PM,Jacob Simon Merson,Carnegie Building 113,0,45,-45,MANE,2024-01-08,2024-04-24,SPRING 2024,93872,2110,03,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: ENGR 1100, MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,12:00PM,1:50PM,Tara Gallaway Cohen,West Hall AUD,0,45,-45,MANE,2024-01-08,2024-04-24,SPRING 2024,93873,2110,04,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: ENGR 1100, MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+NUMERICAL METHODS AND PROGRAMMING FOR ENGINEERS,LEC,3,TF,2:00PM,3:50PM,Jason Edward Hicken,Troy Building 2018,0,48,-48,MANE,2024-01-08,2024-04-24,SPRING 2024,94175,2110,05,MANE-2110,Numerical Methods And Programming For Engineers,"This studio/learning laboratory course introduces techniques of numerical computing as a problem-solving method. Problems are drawn from the basic sciences (e.g., physics and chemistry) and the engineering sciences (e.g., statics). The numerical methods will be implemented through computer programming as both a way of thinking (algorithms) and a language to translate mathematics into computer instructions. Precision and accuracy, complexity, modularity, dimensionality, and discrete versus stochastic methods are covered.","Prerequisites: ENGR 1100, MATH 2400 * and (PHYS 1200 * or PHYS 1250 *). (* indicates that specific courses may also be taken concurrently)",When Offered: Fall and spring terms annually.,"['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+PROPULSION SYSTEMS,LEC,3,MR,4:00PM,5:20PM,Amir Hirsa,Jonsson Engineering Center 3210,50,45,5,MANE,2024-01-08,2024-04-24,SPRING 2024,93877,4080,01,MANE-4080,Propulsion Systems,"Analysis of thrust generation from rockets, gas turbines, and propellers. Applications of one- and two-dimensional compressible flow to analysis of propulsion systems. Gas turbine component performance including diffusers and nozzles, turbomachinery, and combustors.",Prerequisites: MANE 2710 and MANE 2720; or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MR,8:00AM,9:50AM,Kartik Josyula,Troy Building 2018,34,18,16,MANE,2024-01-08,2024-04-24,SPRING 2024,93879,4240,01,MANE-4240,Intro To Finite Elements,"An introductory course in the use of finite element methods for the solution of practical problems in engineering. The course focuses on the concepts of model generation, finite element discretization, numerical integration, computational solution, and verification. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2530 or BMED 2540.,"When Offered: Fall, spring and summer terms annually.","['ENGR 2530', 'BMED 2540']","['ENGR 2530', 'BMED 2540']",Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MR,10:00AM,11:50AM,Mark S Shephard,Russell Sage Laboratory 3101,56,52,4,MANE,2024-01-08,2024-04-24,SPRING 2024,93181,4240,02,MANE-4240,Intro To Finite Elements,"An introductory course in the use of finite element methods for the solution of practical problems in engineering. The course focuses on the concepts of model generation, finite element discretization, numerical integration, computational solution, and verification. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2530 or BMED 2540.,"When Offered: Fall, spring and summer terms annually.","['ENGR 2530', 'BMED 2540']","['ENGR 2530', 'BMED 2540']",Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MR,12:00PM,1:50PM,Ali Shahsavari,Pittsburgh Building 5216,52,53,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,93688,4240,03,MANE-4240,Intro To Finite Elements,"An introductory course in the use of finite element methods for the solution of practical problems in engineering. The course focuses on the concepts of model generation, finite element discretization, numerical integration, computational solution, and verification. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2530 or BMED 2540.,"When Offered: Fall, spring and summer terms annually.","['ENGR 2530', 'BMED 2540']","['ENGR 2530', 'BMED 2540']",Engineering
+APPL ATOMIC & NUCL PHYS,LEC,3,TF,10:00AM,11:20AM,James Edward Olson,Carnegie Building 210,24,19,5,MANE,2024-01-08,2024-04-24,SPRING 2024,94523,4410,01,MANE-4410,Appl Atomic & Nucl Phys,"Review of atomic and nuclear physics and quantum mechanics; application to atomic, molecular and nuclear systems; particle and photon emissions; photon/particle interactions; quantum statistics; applications of nuclear physics to nuclear data, medical physics, accelerators, fusion systems, nuclear reactors; key measurements and databases; basic level of technical writing and presentation.",Prerequisite: MANE 2830,When Offered: Upon sufficient demand.,['MANE 2830'],['MANE 2830'],Engineering
+INTRO NONLINEAR FINITE ELEMNTS,LEC,3,MR,10:00AM,11:50AM,Karthikeyan Panneerselvam,Darrin Communications Center 236,30,6,24,MANE,2024-01-08,2024-04-24,SPRING 2024,94835,4860,01,MANE-4860,Intro Nonlinear Finite Elemnts,"Review of linear finite element concepts. Nonlinear continuum mechanics of solids: finite strain and stress measures, total and updated Lagrangian approaches, variational methods - virtural work principle. Non-linear finite element procedures: incremental solution of nonlinear equations, Newton-Raphson method. Finite elements for elastro-plasticity. Finite elements for hyper-elasticity. Contact of solids using finite elements. Finite elements in dynamics.",Prerequisite: MANE 4240 or permission of the instructor.,When Offered: Spring term every one to two years.,['MANE 4240'],['MANE 4240'],Engineering
+COMPRESSIBLE FLOWS,LEC,3,TF,10:00AM,11:20AM,Ozgur Tumuklu,Darrin Communications Center 232,30,13,17,MANE,2024-01-08,2024-04-24,SPRING 2024,94809,6960,01,MANE-6960,Compressible Flows,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+INVENTOR'S STUDIO 1,LEC,4,TF,12:00PM,1:50PM,Casey Jay Hoffman/Asish Ghosh/Jordan L Vener,Russell Sage Laboratory 2211,28,30,-2,MANE,2024-01-08,2024-04-24,SPRING 2024,93383,2220,01,MANE-2220,INVENTOR'S Studio 1,"A first course in enhancing critical skills for leaders of technological innovation. The course emphasizes creativity, teamwork, communication and work across engineering disciplines. Students learn how to build on personal and innate talents through critical thinking skills, design-oriented mindsets, and an understanding of appropriate tool and process selection. Students will utilize tools and processes for ideation and innovation, develop ideas from concepts to minimum viable products via the ideate - build - learn cycle, and recognize and understand prototyping methods.",Prerequisites: (ENGR 1100 or ECSE 1010 ) and (ENGR 1200 or ENGR 1400 or CIVL 1200 ) and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']",Engineering
+MANUFACT PROCESS & SYS LAB II,LEC,4,MR,8:00AM,9:50AM,Samuel G Chiappone/Stephen James Derby/Larry David Oligny,Low Center for Industrial Inn. 1027,12,13,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94743,4620,01,MANE-4620,Manufact Process & Sys Lab Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710 or MANE 4610,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']",Engineering
+MANUFACT PROCESS & SYS LAB II,LEC,4,W,11:00AM,12:50PM,Samuel G Chiappone/Stephen James Derby,Jonsson Engineering Center 3232,12,13,-1,MANE,2024-01-08,2024-04-24,SPRING 2024,94743,4620,01,MANE-4620,Manufact Process & Sys Lab Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710 or MANE 4610,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']",Engineering
+MANUFACT PROCESS & SYS LAB II,LEC,4,MR,2:00PM,3:50PM,Samuel G Chiappone/Larry David Oligny,Low Center for Industrial Inn. 1027,12,11,1,MANE,2024-01-08,2024-04-24,SPRING 2024,94744,4620,02,MANE-4620,Manufact Process & Sys Lab Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710 or MANE 4610,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']",Engineering
+MANUFACT PROCESS & SYS LAB II,LEC,4,W,11:00AM,12:50PM,Samuel G Chiappone,Jonsson Engineering Center 3232,12,11,1,MANE,2024-01-08,2024-04-24,SPRING 2024,94744,4620,02,MANE-4620,Manufact Process & Sys Lab Ii,"Student teams finalize manufacturing system plans from select ENGR 4710 projects, build a manufacturing system to complete several hundred units of a product, optimize the system, manage a project budget, modify manufacturing packaging plans, and conform to a project schedule as proposed in the associated project Technical Data Packages produced by ENGR 4710 teams. In addition, students will learn new advanced manufacturing topics to increase their breath and depth of manufacturing.",Prerequisite: ENGR 4710 or MANE 4610,When Offered: Spring term annually.,"['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']","['ENGR 4710', 'ENGR 4710', 'ENGR 4710', 'MANE 4610']",Engineering
+MANE LABORATORY SAFETY PROGRAM,LEC,0,,,,Thomas Clark Haley,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94179,4880,01,MANE-4880,Mane Laboratory Safety Program,,,,[],[],Engineering
+ADVANCED ENGR MATHEMATICS I,LEC,3,,,,Francisco J Cunha,Online ,10,10,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94340,5000,01,MANE-5000,Advanced Engr Mathematics I,"A presentation of mathematical methods useful in engineering practice. The course covers analytical and numerical techniques used in linear algebra, the numerical solution of nonlinear equations, the foundations of vector and tensor algebra and an introduction to vector operators. Also covered are methods of polynomial and trigonometric interpolation and approximation, numerical solution methods for initial and boundary value problems for ordinary differential equations and an overview of the fundamentals of probability and statistics including random variables, density and distribution functions and hypothesis testing. Symbolic manipulation and scientific computation software used extensively. Emphasis on reliable computing is made throughout.",,,[],[],Engineering
+ADVANCED ENGR MATHEMATICS I,LEC,3,,,,Francisco J Cunha,Online ,25,6,19,MANE,2024-01-08,2024-04-24,SPRING 2024,93754,5000,H01,MANE-5000,Advanced Engr Mathematics I,"A presentation of mathematical methods useful in engineering practice. The course covers analytical and numerical techniques used in linear algebra, the numerical solution of nonlinear equations, the foundations of vector and tensor algebra and an introduction to vector operators. Also covered are methods of polynomial and trigonometric interpolation and approximation, numerical solution methods for initial and boundary value problems for ordinary differential equations and an overview of the fundamentals of probability and statistics including random variables, density and distribution functions and hypothesis testing. Symbolic manipulation and scientific computation software used extensively. Emphasis on reliable computing is made throughout.",,,[],[],Engineering
+SCIENTIFIC MACHINE LEARNING,LEC,3,MR,2:00PM,3:20PM,Shaowu Pan,Russell Sage Laboratory 2707,20,13,7,MANE,2024-01-08,2024-04-24,SPRING 2024,93725,6961,01,MANE-6961,Scientific Machine Learning,,,,[],[],Engineering
+FUNDAMENTALS OF NUCLEAR ENGR,LEC,3,TF,12:00PM,1:20PM,Hyun Gook Kang,Amos Eaton Hall 215,33,28,5,MANE,2024-01-08,2024-04-24,SPRING 2024,93664,2400,01,MANE-2400,Fundamentals Of Nuclear Engr,"Nuclear reactor systems and types; basic reactor physics, criticality calculations; fuel cycles; reactivity changes; reactor kinetics. Instrumentation and control; radiation protection. Reactor materials; shielding; energy removal. Reactor safety; economics. Waste management. Reactor design.","Prerequisite: MANE 2830, or permission of the instructor.",When Offered: Spring term annually.,['MANE 2830'],['MANE 2830'],Engineering
+SPACEFLIGHT MECHANICS,LEC,4,TF,10:00AM,11:50AM,Sandeep Singh,Darrin Communications Center 318,80,73,7,MANE,2024-01-08,2024-04-24,SPRING 2024,90440,4100,01,MANE-4100,Spaceflight Mechanics,"Review of basic dynamics. Analysis of spacecraft trajectories, target rendezvous, and interception. Hohmann transfer, escape trajectories, interplanetary missions, the restricted three-body problem. Rigid body dynamics with application to gyrodynamics, stabilized platforms, gravity-gradient and spin stabilization of satellites, gyrostats. Selected topics such as drag-free satellites, vehicle launch and reentry, deployment dynamics (time permitting). MATLAB/Simulink is used as a simulation-visualization aid.",Prerequisites: ENGR 2090 and MATH 2400,When Offered: Spring term annually.,"['ENGR 2090', 'MATH 2400']","['ENGR 2090', 'MATH 2400']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Casey Jay Hoffman/Junichi Kanai/Mark Ernest Vermilyea,Jonsson Engineering Center 3332,0,8,-8,MANE,2024-01-08,2024-04-24,SPRING 2024,90334,4260,01,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220 Must have senior standing and Mechanical Engineering major.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,12:00PM,1:50PM,Valerie J. Masterson/Casey Jay Hoffman/Junichi Kanai/Mark Ernest Vermilyea,Jonsson Engineering Center 3332,0,5,-5,MANE,2024-01-08,2024-04-24,SPRING 2024,90335,4260,02,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220 Must have senior standing and Mechanical Engineering major.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai/Ukwatte Lokuliyanage Indika Upendra Perera/Mark Ernest Vermilyea,Jonsson Engineering Center 3332,0,7,-7,MANE,2024-01-08,2024-04-24,SPRING 2024,90510,4260,03,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220 Must have senior standing and Mechanical Engineering major.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+MULITDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Fred Thomas Willett,Jonsson Engineering Center 3332,0,3,-3,MANE,2024-01-08,2024-04-24,SPRING 2024,91461,4260,04,MANE-4260,Mulitdisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.",Prerequisite: ENGR 2050 or MANE 2220 Must have senior standing and Mechanical Engineering major.,When Offered: Fall and spring terms annually.,"['ENGR 2050', 'MANE 2220']","['ENGR 2050', 'MANE 2220']",Engineering
+LINEAR ACCELERATOR LAB,LEC,3,W,12:00PM,3:50PM,Yaron Danon,Nuclear Eng. And Sci. Bldg ,30,16,14,MANE,2024-01-08,2024-04-24,SPRING 2024,94296,4430,01,MANE-4430,Linear Accelerator Lab,"Linear Accelerator Laboratory will provide an introduction to measurements of experimental systems utilizing neutron sources. It will focus on measurements relating to the detection of neutrons through interactions in materials, neutron reaction cross-sections neutron diffusion and slowing down, Doppler broadening of cross-sections and how this applies to nuclear reactors, both neutron and photon activation analysis and its applications, and the fission process and measurement of delayed fission gammas. The course will utilize the unique abilities of the Gaerttner Linear Accelerator Center to provide real world neutron experiments to supplement the theory learned in previous courses at RPI.",Prerequisites: MANE 4350 and MANE 4480,When Offered: Spring term annually.,"['MANE 4350', 'MANE 4480']","['MANE 4350', 'MANE 4480']",Engineering
+ANALY. OF MANUF. PROCESS,LEC,3,TF,12:00PM,1:20PM,Thierry Blanchet,Carnegie Building 208,25,25,0,MANE,2024-01-08,2024-04-24,SPRING 2024,94247,4640,01,MANE-4640,ANALY. Of MANUF. Process,"Review of basic aspects of manufacturing engineering including driving forces, quality attributes, tolerances, etc. Examination of basic principles of mechanics, engineering materials, analysis of both bulk-forming (forging, extrusion, rolling, etc.) and sheet-forming processes, metal cutting, and other related manufacturing processes. Discussion and role of computer-aided manufacturing in these areas.",Prerequisites: ENGR 2530 and MANE 4030,When Offered: Spring term annually.,"['ENGR 2530', 'MANE 4030']","['ENGR 2530', 'MANE 4030']",Engineering
+ANALY. OF MANUF. PROCESS,LEC,3,,,,Ernesto Gutierrez-Miravete,Online ,25,6,19,MANE,2024-01-08,2024-04-24,SPRING 2024,94838,4640,H01,MANE-4640,ANALY. Of MANUF. Process,"Review of basic aspects of manufacturing engineering including driving forces, quality attributes, tolerances, etc. Examination of basic principles of mechanics, engineering materials, analysis of both bulk-forming (forging, extrusion, rolling, etc.) and sheet-forming processes, metal cutting, and other related manufacturing processes. Discussion and role of computer-aided manufacturing in these areas.",Prerequisites: ENGR 2530 and MANE 4030,When Offered: Spring term annually.,"['ENGR 2530', 'MANE 4030']","['ENGR 2530', 'MANE 4030']",Engineering
+AEROELASTICITY AND STRUCTURAL VIBRATIONS,LEC,3,MR,8:30AM,9:50AM,Robert John Niemiec,Russell Sage Laboratory 5510,65,57,8,MANE,2024-01-08,2024-04-24,SPRING 2024,90339,4900,01,MANE-4900,Aeroelasticity And Structural Vibrations,"Basic concepts in static and dynamic aeroelasticity. Structural vibrations, free and forced motion of discrete and continuous structures, introduction to modal analysis, and use of materials for dynamics tailoring. Aeroelastic behavior of complex structures, dynamic aeroelasticity. The phenomena of divergence, control surface effectiveness, and flutter and the use of composite materials for aeroelastic tailoring. The role of numerical methods will be emphasized.",Prerequisites: MANE 4060 and MATH 2400,When Offered: Fall and spring terms annually.,"['MANE 4060', 'MATH 2400']","['MANE 4060', 'MATH 2400']",Engineering
+NUCLEAR REACTOR MATERIAL,LEC,3,MR,2:00PM,3:50PM,Jie Lian,Low Center for Industrial Inn. 3051,30,2,28,MANE,2024-01-08,2024-04-24,SPRING 2024,94748,6380,01,MANE-6380,Nuclear Reactor Material,"The physical metallurgy and associated physical chemistry of problems encountered in the application of materials in nuclear reactors is discussed. Specifically, the metallurgy and physical chemistry of ceramic fuels (e.g., oxygen potentials), the primary fuel densification and pellet-clad interaction mechanisms, irradiation-induced creep, hardening, and embrittlement mechanisms, and the properties of zircaloy are covered.",Prerequisites/Corequisites: MANE 4480,When Offered: Spring term annually.,['MANE 4480'],['MANE 4480'],Engineering
+MULTIVARIABLE CONTROL SYSTEMS,LEC,3,MR,10:00AM,11:20AM,John Wen,Jonsson Engineering Center 6309,18,3,15,MANE,2024-01-08,2024-04-24,SPRING 2024,91872,6962,01,MANE-6962,Multivariable Control Systems,,,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93502,9990,01,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Shankar Narayan,TBA,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,93012,9990,02,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Antoinette Maniatty,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90356,9990,03,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Kristen Lynn Mills,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,93015,9990,04,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Thierry Blanchet,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,90357,9990,05,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Daniel Walczyk,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,91281,9990,06,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Fudong Han,TBA,10,5,5,MANE,2024-01-08,2024-04-24,SPRING 2024,90358,9990,07,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Mark S Shephard,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,91493,9990,08,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Mamadou Lamine Diagne,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,93505,9990,09,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Kurt S Anderson,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90359,9990,10,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Fotios Kopsaftopoulos,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,93508,9990,11,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,John A Tichy,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,93042,9990,12,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Amir Hirsa,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,90360,9990,13,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Li Liu,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,91302,9990,14,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Catalin R Picu,TBA,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,90361,9990,15,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Diana Andra Borca Tasciuc,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,91338,9990,16,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Jie Lian,TBA,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,91439,9990,17,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,93776,9990,18,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Onkar Sahni,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,91510,9990,20,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Lucy T. Zhang,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,91637,9990,21,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Farhan Gandhi,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,92372,9990,22,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Suvranu De,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,90362,9990,25,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Sandipan Mishra,TBA,10,7,3,MANE,2024-01-08,2024-04-24,SPRING 2024,92055,9990,26,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Jason Edward Hicken,TBA,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,92517,9990,27,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Johnson Samuel,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,92097,9990,28,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Sandeep Singh,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,92518,9990,29,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Yaron Danon,TBA,10,6,4,MANE,2024-01-08,2024-04-24,SPRING 2024,91066,9990,30,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Shaowu Pan,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,90363,9990,31,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Hyun Gook Kang,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,93231,9990,32,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Li Liu,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90364,9990,37,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,90365,9990,39,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Theodorian Borca-Tasciuc,TBA,10,2,8,MANE,2024-01-08,2024-04-24,SPRING 2024,90366,9990,40,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Nikhil Koratkar,TBA,10,8,2,MANE,2024-01-08,2024-04-24,SPRING 2024,90367,9990,41,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,John Wen,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,90368,9990,44,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Wei Ji,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,90375,9990,45,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,TBA,TBA,0,0,0,MANE,2024-01-08,2024-04-24,SPRING 2024,90390,9990,46,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Michael Amitay,TBA,10,4,6,MANE,2024-01-08,2024-04-24,SPRING 2024,90393,9990,47,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Shanbin Shi,TBA,10,5,5,MANE,2024-01-08,2024-04-24,SPRING 2024,90675,9990,53,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Matthew Adam Oehlschlaeger,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,90676,9990,54,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Leonid Pogorelyuk,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,95007,9990,55,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Ozgur Tumuklu,TBA,10,0,10,MANE,2024-01-08,2024-04-24,SPRING 2024,95010,9990,56,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Jacob Simon Merson,TBA,10,3,7,MANE,2024-01-08,2024-04-24,SPRING 2024,95013,9990,57,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Hunter Christophe Belanger,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,95016,9990,58,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,Semih Akin,TBA,10,1,9,MANE,2024-01-08,2024-04-24,SPRING 2024,95019,9990,59,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+THERMODYNAMICS,LEC,3,TF,8:30AM,9:50AM,Theodorian Borca-Tasciuc,Ricketts Building 203,130,117,13,MANE,2024-01-08,2024-04-24,SPRING 2024,93874,2710,01,MANE-2710,Thermodynamics,"Introduction to the First and Second Laws of Thermodynamics for open and closed systems. Thermodynamic properties of solids, liquids, and gases. Elementary power and refrigeration cycles.",Prerequisites: MATH 1020 Calculus II and (PHYS 1100 or PHYS 1150 Physics I).,When Offered: Fall and spring terms annually.,"['MATH 1020', 'PHYS 1100', 'PHYS 1150']","['MATH 1020', 'PHYS 1100', 'PHYS 1150']",Engineering
+FLUID DYNAMICS LAB,LEC,2,W,8:00AM,9:50AM,Kevin Wayne Housley,Jonsson Engineering Center 2220,0,11,-11,MANE,2024-01-08,2024-04-24,SPRING 2024,90511,4910,01,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,W,10:00AM,11:50AM,Kevin Wayne Housley,Jonsson Engineering Center 2220,0,12,-12,MANE,2024-01-08,2024-04-24,SPRING 2024,90512,4910,02,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,W,12:00PM,1:50PM,Kevin Wayne Housley,Jonsson Engineering Center 2220,0,10,-10,MANE,2024-01-08,2024-04-24,SPRING 2024,91855,4910,03,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+FLUID DYNAMICS LAB,LEC,2,W,2:00PM,3:50PM,Kevin Wayne Housley,Jonsson Engineering Center 2220,0,12,-12,MANE,2024-01-08,2024-04-24,SPRING 2024,91856,4910,04,MANE-4910,Fluid Dynamics Lab,"Wind tunnel experiments in fluid mechanics and the aerodynamics of airplane models with emphasis on lift, drag, separation and stall, transition and turbulence, longitudinal and lateral stability, and data acquisition and analysis. This includes pressure and velocity measurement techniques, hot wire anemometry, demonstrations of Particle Imaging Velocimetry, flow visualizations, tunnel characterization, laboratory instrumentation, errors and noise in measurements, digital sampling, and comparison of measured data with theoretical and computational predictions.",Prerequisite: MANE 4070,When Offered: Fall and spring term annually.,['MANE 4070'],['MANE 4070'],Engineering
+AERODYNAMIC FLOW CONTROL,LEC,3,TF,2:00PM,3:20PM,Michael Amitay,Russell Sage Laboratory 2715,25,23,2,MANE,2024-01-08,2024-04-24,SPRING 2024,94742,6570,01,MANE-6570,Aerodynamic Flow Control,"This is a graduate level course. It aims to provide students with the familiarity of traditional and modern flow control techniques. It also introduces the students to the subject of laminar-to-turbulent transition and flow separation using hydrodynamic stability analysis, which is a crucial component in design and implementation of intelligent flow control strategies.",Prerequisite: MANE 4070 Aerodynamics I. The course is offered only to graduate students. Senior undergraduate students who wish to take this course must discuss it in person with the instructor.,When Offered: Spring term even-numbered years.,['MANE 4070'],['MANE 4070'],Engineering
+ROBOTICS II,LEC,3,MR,4:00PM,5:20PM,Esen Yel,Jonsson Engineering Center 4104,15,5,10,MANE,2024-01-08,2024-04-24,SPRING 2024,94332,6963,01,MANE-6963,Robotics Ii,,,,[],[],Engineering
+FLUID MECHANICS,LEC,3,MR,2:00PM,3:20PM,Shanbin Shi,Low Center for Industrial Inn. 4050,120,108,12,MANE,2024-01-08,2024-04-24,SPRING 2024,93666,2720,01,MANE-2720,Fluid Mechanics,"The fundamentals of fluid statics and dynamics. Hydrostatics, fluid flow fields, control-volume analysis, and the Navier-Stokes equations. Inviscid, viscous, and turbulent flows. Similitude, boundary layers, internal and external flows.",Prerequisites: ENGR 1100 Introduction to Engineering Analysis and (PHYS 1100 or PHYS 1150 Physics I) and MATH 2010 * and MATH 2400 *. (*can also be taken simultaneously),"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']",Engineering
+FLUID MECHANICS,LEC,3,MR,4:00PM,5:20PM,Corey Christopher Woodcock,Low Center for Industrial Inn. 4050,120,94,26,MANE,2024-01-08,2024-04-24,SPRING 2024,93875,2720,02,MANE-2720,Fluid Mechanics,"The fundamentals of fluid statics and dynamics. Hydrostatics, fluid flow fields, control-volume analysis, and the Navier-Stokes equations. Inviscid, viscous, and turbulent flows. Similitude, boundary layers, internal and external flows.",Prerequisites: ENGR 1100 Introduction to Engineering Analysis and (PHYS 1100 or PHYS 1150 Physics I) and MATH 2010 * and MATH 2400 *. (*can also be taken simultaneously),"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']",Engineering
+AEROSPACE STRUCTURES AND CONTROL LABORATORY,LEC,2,W,9:00AM,11:50AM,Nikhil Koratkar,Carnegie Building 206,26,21,5,MANE,2024-01-08,2024-04-24,SPRING 2024,90340,4920,01,MANE-4920,Aerospace Structures And Control Laboratory,"Laboratory experiments with emphasis on the static and dynamic response of lightweight and flexible structures, that are used in aircraft, spacecraft, and rotorcraft. Experiments include tensile testing, buckling characterization, free and forced vibration testing, damping measurement, and high strain-rate impact loading of fiber-reinforced composite materials.",Prerequisite: MANE 4060,When Offered: Fall and spring terms annually.,['MANE 4060'],['MANE 4060'],Engineering
+AEROSPACE STRUCTURES AND CONTROL LABORATORY,LEC,2,W,2:00PM,4:50PM,Nikhil Koratkar,Carnegie Building 206,35,31,4,MANE,2024-01-08,2024-04-24,SPRING 2024,90545,4920,02,MANE-4920,Aerospace Structures And Control Laboratory,"Laboratory experiments with emphasis on the static and dynamic response of lightweight and flexible structures, that are used in aircraft, spacecraft, and rotorcraft. Experiments include tensile testing, buckling characterization, free and forced vibration testing, damping measurement, and high strain-rate impact loading of fiber-reinforced composite materials.",Prerequisite: MANE 4060,When Offered: Fall and spring terms annually.,['MANE 4060'],['MANE 4060'],Engineering
+VTOL AIRCRAFT DESIGN,LEC,3,MR,10:00AM,11:50AM,Robert John Niemiec,Peoples Ave Complex J 3401,12,0,12,MANE,2024-01-08,2024-04-24,SPRING 2024,93916,6210,01,MANE-6210,Vtol Aircraft Design,"Aerodynamics and dynamics of lifting rotors. Design concepts by which rotor weight and stress are minimized and vehicle control is provided. Weight and engine power trends for configuration definition. Center of gravity and aerodynamic lift and moment for equilibrium and desired aircraft attitude. Methods for determining size weight, and cost for a given payload, useful volume, and specified performance. This is a communication-intensive course.",Prerequisite: MANE 4120 or MANE 4130 or permission of the instructor.,When Offered: Spring term annually.,"['MANE 4120', 'MANE 4130']","['MANE 4120', 'MANE 4130']",Engineering
+APPL ATOMIC & NUCL PHYS,LEC,3,TF,10:00AM,11:20AM,James Edward Olson,Carnegie Building 210,24,2,22,MANE,2024-01-08,2024-04-24,SPRING 2024,94529,6410,01,MANE-6410,Appl Atomic & Nucl Phys,"Review of atomic and nuclear physics and quantum mechanics; application to atomic, molecular and nuclear systems; particle and photon emissions; photon/particle interactions; quantum statistics; applications of nuclear physics to nuclear data, medical physics, accelerators, fusion systems, nuclear reactors; accelerators, fusion systems, nuclear reactors; key measurements and databases; advanced level of technical writing and presentation.",,When Offered: Upon sufficient demand.,[],[],Engineering
+INTRO SPACECRAFT NAVIGATION,LEC,3,MR,6:00PM,7:30PM,Paul Dickson McKee/Kurt S Anderson,Low Center for Industrial Inn. 3112,25,14,11,MANE,2024-01-08,2024-04-24,SPRING 2024,94879,6964,01,MANE-6964,Intro Spacecraft Navigation,,,,[],[],Engineering
+INTRO COMPUTAT FLUID DYNAMICS,LEC,3,TF,12:00PM,1:50PM,Onkar Sahni,Troy Building 2018,64,46,18,MANE,2024-01-08,2024-04-24,SPRING 2024,93223,4140,01,MANE-4140,Intro Computat Fluid Dynamics,"This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.","Prerequisites: MANE 2720, and (MATH 2010 or (MATH 2011 and MATH 2012 )). Numerical and programming background preferred, not required.",When Offered: Spring term annually.,"['MANE 2720', 'MATH 2010']","['MANE 2720', 'MATH 2010']",Engineering
+ENGINEERING MATERIALS FOR NUCLEAR APPLICATION,LEC,4,MR,2:00PM,3:50PM,Jie Lian,Low Center for Industrial Inn. 3051,30,19,11,MANE,2024-01-08,2024-04-24,SPRING 2024,94747,4460,01,MANE-4460,Engineering Materials For Nuclear Application,Materials selection for nuclear applications in current and next generation nuclear systems. specific topics include: crystal structure; atomic bonds; defects in solids; thermodynamics; phase diagrams; kinetic processes in materials diffusion; phase transformation; mechanical properties of materials; thermal transport behavior of nuclear materials; corrosion in nuclear systems; radiation interaction of materials with neutron and charged particles; microstructural evolution of materials; properties of fuel clad; fuel chemistry; high burn-up and accident tolerant fuels; and nuclear waste management.,,When Offered: Upon availability of Instructor.,[],[],Engineering
+ELECTROCHEMICAL ENERGY STORAGE,LEC,3,TF,2:00PM,3:20PM,Fudong Han,Russell Sage Laboratory 2112,15,13,2,MANE,2024-01-08,2024-04-24,SPRING 2024,94811,6965,01,MANE-6965,Electrochemical Energy Storage,,,,[],[],Engineering
+SYNTHESIS AND PROCESSING,LEC,4,MR,12:00PM,1:50PM,Chaitanya Kishore Ullal,Carnegie Building 205,10,11,-1,MTLE,2024-01-08,2024-04-24,SPRING 2024,93899,4400,01,MTLE-4400,Synthesis And Processing,"This course covers materials processing in the area of metals, polymers, ceramics, and electronic materials. Some processes covered include casting, molding, deformation processing, additive processing, and joining methods. Design and analysis of experiments and process modeling are emphasized. Includes laboratories.","Prerequisites: MTLE 4200, MTLE 4150, MTLE 4250.",When Offered: Spring term annually.,"['MTLE 4200', 'MTLE 4150', 'MTLE 4250']","['MTLE 4200', 'MTLE 4150', 'MTLE 4250']",Engineering
+SYNTHESIS AND PROCESSING,LEC,4,W,9:00AM,12:50PM,TBA,Materials Research Center 136,10,11,-1,MTLE,2024-01-08,2024-04-24,SPRING 2024,93899,4400,01,MTLE-4400,Synthesis And Processing,"This course covers materials processing in the area of metals, polymers, ceramics, and electronic materials. Some processes covered include casting, molding, deformation processing, additive processing, and joining methods. Design and analysis of experiments and process modeling are emphasized. Includes laboratories.","Prerequisites: MTLE 4200, MTLE 4150, MTLE 4250.",When Offered: Spring term annually.,"['MTLE 4200', 'MTLE 4150', 'MTLE 4250']","['MTLE 4200', 'MTLE 4150', 'MTLE 4250']",Engineering
+SYNTHESIS AND PROCESSING,LEC,4,MR,12:00PM,1:50PM,Chaitanya Kishore Ullal,Carnegie Building 205,10,5,5,MTLE,2024-01-08,2024-04-24,SPRING 2024,93900,4400,02,MTLE-4400,Synthesis And Processing,"This course covers materials processing in the area of metals, polymers, ceramics, and electronic materials. Some processes covered include casting, molding, deformation processing, additive processing, and joining methods. Design and analysis of experiments and process modeling are emphasized. Includes laboratories.","Prerequisites: MTLE 4200, MTLE 4150, MTLE 4250.",When Offered: Spring term annually.,"['MTLE 4200', 'MTLE 4150', 'MTLE 4250']","['MTLE 4200', 'MTLE 4150', 'MTLE 4250']",Engineering
+SYNTHESIS AND PROCESSING,LEC,4,W,2:00PM,5:50PM,TBA,Materials Research Center 136,10,5,5,MTLE,2024-01-08,2024-04-24,SPRING 2024,93900,4400,02,MTLE-4400,Synthesis And Processing,"This course covers materials processing in the area of metals, polymers, ceramics, and electronic materials. Some processes covered include casting, molding, deformation processing, additive processing, and joining methods. Design and analysis of experiments and process modeling are emphasized. Includes laboratories.","Prerequisites: MTLE 4200, MTLE 4150, MTLE 4250.",When Offered: Spring term annually.,"['MTLE 4200', 'MTLE 4150', 'MTLE 4250']","['MTLE 4200', 'MTLE 4150', 'MTLE 4250']",Engineering
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Rahmi Ozisik,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,94690,6970,01,MTLE-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Engineering
+FUNDAMENTAL OF METALLURGICAL ALLOY SYSTEMS,LEC,3,MR,2:00PM,3:20PM,Daniel J. Lewis,Materials Research Center 136,20,10,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,94751,4430,01,MTLE-4430,Fundamental Of Metallurgical Alloy Systems,"This course explores principles of chemical and physical metallurgy of the common alloy systems, including mild and low alloy steels, copper, aluminum, and aluminum alloys. Applications include alloys designed for corrosion resistance and elevated temperature applications. Alloy design and development for extreme or exotic environments also will be discussed. In each case, alloy development concepts will be related to the appropriate engineering applications.",,When Offered: Upon availability of instructor.,[],[],Engineering
+IC FABRICATION LAB,LEC,3,M,10:00AM,11:50AM,Jianqiang Lu,Low Center for Industrial Inn. 3130,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91061,6300,01,MTLE-6300,Ic Fabrication Lab,"Theory and practice of IC fabrication in a research laboratory environment. Test chips are fabricated and the resulting devices and circuits evaluated. Processes and fabrication equipment studied and used include oxidation/diffusion, CVD reactors, photolithography, plasma etching, vacuum evaporator, ion implantation, etc. Instruments used in process monitoring and final testing include thin film profilometer, ellipsometer, resistivity probe, scanning electron microscope, capacitance-voltage system, etc. The fundamentals of hazardous material handling and clean room procedures are studied.",Prerequisite: ECSE 4250 or equivalent.,When Offered: Spring term annually.,['ECSE 4250'],['ECSE 4250'],Engineering
+IC FABRICATION LAB,LEC,3,TWR,,,TBA,Low Center for Industrial Inn. ,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91061,6300,01,MTLE-6300,Ic Fabrication Lab,"Theory and practice of IC fabrication in a research laboratory environment. Test chips are fabricated and the resulting devices and circuits evaluated. Processes and fabrication equipment studied and used include oxidation/diffusion, CVD reactors, photolithography, plasma etching, vacuum evaporator, ion implantation, etc. Instruments used in process monitoring and final testing include thin film profilometer, ellipsometer, resistivity probe, scanning electron microscope, capacitance-voltage system, etc. The fundamentals of hazardous material handling and clean room procedures are studied.",Prerequisite: ECSE 4250 or equivalent.,When Offered: Spring term annually.,['ECSE 4250'],['ECSE 4250'],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Daniel J. Lewis,TBA,25,0,25,MTLE,2024-01-08,2024-04-24,SPRING 2024,91335,6980,01,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Rahmi Ozisik,TBA,20,0,20,MTLE,2024-01-08,2024-04-24,SPRING 2024,90502,6980,02,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,4,,,,Minoru Tomozawa,TBA,1,0,1,MTLE,2024-01-08,2024-04-24,SPRING 2024,93980,6980,03,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Robert Hull,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92088,6980,04,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Daniel Gall,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,93011,6980,05,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Rahmi Ozisik,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,92539,6980,06,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Jian Shi,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92640,6980,07,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Edmund Francis Palermo,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92643,6980,08,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Liping Huang,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,93024,6980,09,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Edwin B. Fohtung,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,93139,6980,10,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Ravishankar Sundararaman,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,93456,6980,11,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Chaitanya Kishore Ullal,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,93539,6980,12,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Wei Bao,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,90500,6980,13,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Paul George Keblinski,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92123,6980,15,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+GRADUATE SEMINAR,LEC,0,W,10:30AM,12:30PM,Edwin B. Fohtung,Lally Hall 104,45,10,35,MTLE,2024-01-08,2024-04-24,SPRING 2024,90039,6900,01,MTLE-6900,Graduate Seminar,,,When Offered: Fall and spring terms annually.,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Robert Hull,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91484,6990,01,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Liping Huang,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91486,6990,02,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Yunfeng Shi,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91487,6990,03,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Ravishankar Sundararaman,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,93457,6990,04,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Minoru Tomozawa,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,90266,6990,05,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Wei Bao,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92159,6990,06,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Partha S. Dutta,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92276,6990,07,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Ganpati Ramanath,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,92290,6990,08,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Vincent Meunier,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92269,6990,10,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Christian M. Wetzel,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92270,6990,11,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Jie Lian,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92271,6990,12,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Daniel Gall,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,91825,6990,14,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Paul George Keblinski,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92122,6990,15,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Chaitanya Kishore Ullal,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,90417,6990,16,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Jian Shi,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92641,6990,17,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Edmund Francis Palermo,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92644,6990,18,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Daniel J. Lewis,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91075,6990,19,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MATLS CHARACTERIZATION,LEC,3,M,2:00PM,4:50PM,Ganpati Ramanath,Low Center for Industrial Inn. 3130,20,13,7,MTLE,2024-01-08,2024-04-24,SPRING 2024,93898,6430,01,MTLE-6430,Matls Characterization,"Principles and applications of current techniques for the chemical, structural, and morphological characterization of engineering materials, with an emphasis on materials used in the microelectronics industry. Techniques studied include various electron and ion spectroscopies, electron microscopies, and diffraction techniques.",,When Offered: Upon availability of instructor.,[],[],Engineering
+THERMODYNAMICS OF MATERIALS,LEC,4,MR,4:00PM,5:50PM,Rahmi Ozisik,Ricketts Building 212,35,13,22,MTLE,2024-01-08,2024-04-24,SPRING 2024,93670,4100,01,MTLE-4100,Thermodynamics Of Materials,"Rigorous development of classical thermodynamics as applied to prediction of materials properties. Nonideal gases, solutions, phase equilibria, chemical equilibria, defects.","Prerequisites: ENGR 2250, CHEM 1100, ENGR 1600 or equivalent.",When Offered: Spring term annually.,"['ENGR 2250', 'CHEM 1100', 'ENGR 1600']","['ENGR 2250', 'CHEM 1100', 'ENGR 1600']",Engineering
+BIOLOGY IN MATERIALS SCIENCE,LEC,3,TF,2:00PM,3:20PM,Edmund Francis Palermo,Low Center for Industrial Inn. 3045,40,15,25,MTLE,2024-01-08,2024-04-24,SPRING 2024,95119,4470,01,MTLE-4470,Biology In Materials Science,"This course will cover the basic principles of biology in the context of materials science as well as emerging and cutting applications of biomaterials science. Topics will include: fundamentals of biological self assembly and hierarchical structures; examination of structure-property relationships in naturally occurring biopolymers, foams, and ceramic composites; biomimetic design and synthesis of novel materials at the molecular and nanoscale levels. Students will gain a deeper appreciation of the impact of biological principles on current topics in materials science.",Prerequisite: ENGR 1600.,When Offered: Spring term annually.,['ENGR 1600'],['ENGR 1600'],Engineering
+PROGRAMMING FOR ENGINEERS,LEC,1,MR,2:00PM,2:50PM,Yunfeng Shi,Troy Building 2015,25,16,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,94935,2040,01,MTLE-2040,Programming For Engineers,"Elementary programming concepts, basic data analysis and visualization using the Python programming language for students with little or no prior programming experience. Topics covered include variables, control flow, arrays, plotting, curve fitting and basic numerical simulation, using examples based in materials engineering.   Graded Satisfactory/ Unsatisfactory","Prerequisite ENGR 2600, or equivalent.",When Offered: Spring term annually.,['ENGR 2600'],['ENGR 2600'],Engineering
+PRACTICAL TEM MICROSCOPY,LEC,2,M,9:00AM,9:50AM,Katharine Yurievna Dovidenko,Materials Research Center 136,4,4,0,MTLE,2024-01-08,2024-04-24,SPRING 2024,95022,6961,01,MTLE-6961,Practical Tem Microscopy,,,,[],[],Engineering
+PRACTICAL TEM MICROSCOPY,LEC,2,T,10:00AM,12:00PM,Katharine Yurievna Dovidenko,Materials Research Center ,4,4,0,MTLE,2024-01-08,2024-04-24,SPRING 2024,95022,6961,01,MTLE-6961,Practical Tem Microscopy,,,,[],[],Engineering
+PRACTICAL TEM MICROSCOPY,LEC,2,M,9:00AM,9:50AM,Katharine Yurievna Dovidenko,Materials Research Center 136,4,3,1,MTLE,2024-01-08,2024-04-24,SPRING 2024,95023,6961,02,MTLE-6961,Practical Tem Microscopy,,,,[],[],Engineering
+PRACTICAL TEM MICROSCOPY,LEC,2,R,2:00PM,4:00PM,Katharine Yurievna Dovidenko,Materials Research Center ,4,3,1,MTLE,2024-01-08,2024-04-24,SPRING 2024,95023,6961,02,MTLE-6961,Practical Tem Microscopy,,,,[],[],Engineering
+PRACTICAL TEM MICROSCOPY,LEC,2,M,9:00AM,9:50AM,Katharine Yurievna Dovidenko,Materials Research Center 136,4,2,2,MTLE,2024-01-08,2024-04-24,SPRING 2024,95024,6961,03,MTLE-6961,Practical Tem Microscopy,,,,[],[],Engineering
+PRACTICAL TEM MICROSCOPY,LEC,2,F,10:00AM,12:00PM,Katharine Yurievna Dovidenko,Materials Research Center ,4,2,2,MTLE,2024-01-08,2024-04-24,SPRING 2024,95024,6961,03,MTLE-6961,Practical Tem Microscopy,,,,[],[],Engineering
+STRUC OF ENGR MATERIALS,LEC,4,MR,12:00PM,1:50PM,Edwin B. Fohtung,Low Center for Industrial Inn. 3051,40,37,3,MTLE,2024-01-08,2024-04-24,SPRING 2024,92992,2100,01,MTLE-2100,Struc Of Engr Materials,"The first course in Materials Science and Engineering. Structures of metals, ceramics, and polymers and experimental techniques for their determination are discussed. Laboratory experience is included.",Prerequisite: ENGR 1600 or equivalent.,When Offered: Spring term annually.,['ENGR 1600'],['ENGR 1600'],Engineering
+FUN OF METALLURGICAL ALLOY SYS,LEC,3,MR,2:00PM,3:20PM,Daniel J. Lewis,Materials Research Center 136,20,2,18,MTLE,2024-01-08,2024-04-24,SPRING 2024,95117,6962,01,MTLE-6962,Fun Of Metallurgical Alloy Sys,,,,[],[],Engineering
+ADV KINETICS OF MATL REACTIONS,LEC,4,MR,10:00AM,11:50AM,Yunfeng Shi,Russell Sage Laboratory 2704,25,17,8,MTLE,2024-01-08,2024-04-24,SPRING 2024,91276,6060,01,MTLE-6060,Adv Kinetics Of Matl Reactions,"Diffusion and phase transformations: solutions to the diffusion equation, moving boundaries, concentration-dependent diffusion coefficient, interdiffusion, nucleation, crystal growth from the vapor and solution, solidification. Precipitation: general, cellular, and G-P zones. Allotropic and martensitic transformations. Grain growth. Sintering.",Prerequisite: MTLE 4100 or MTLE 6030 or equivalent.,When Offered: Spring term annually.,"['MTLE 4100', 'MTLE 6030']","['MTLE 4100', 'MTLE 6030']",Engineering
+BIOLOGY OF MATERIALS SCIENCE,LEC,3,TF,2:00PM,3:20PM,Edmund Francis Palermo,Low Center for Industrial Inn. 3045,40,5,35,MTLE,2024-01-08,2024-04-24,SPRING 2024,95120,6470,01,MTLE-6470,Biology Of Materials Science,"This course will cover the basic principles of biology in the context of materials science as well as emerging and cutting applications of biomaterials science. Topics will include: fundamentals of biological self-assembly and hierarchical structures; examination of structure-property relationships in naturally occurring biopolymers, foams, and ceramic composites; biomimetic design and synthesis of novel materials at the molecular and nanoscale levels. Students will gain a deeper appreciation of the impact of biological principles on current topics in materials science.",Prerequisites/Corequisites: ENGR 1600.,When Offered: Spring term annually.,['ENGR 1600'],['ENGR 1600'],Engineering
+DISSERTATION,LEC,1-15,,,,Robert Hull,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,91485,9990,01,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Rahmi Ozisik,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,90180,9990,02,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Wei Bao,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,90181,9990,03,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Ganpati Ramanath,TBA,10,3,7,MTLE,2024-01-08,2024-04-24,SPRING 2024,90182,9990,04,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,90183,9990,05,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Liping Huang,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,91291,9990,06,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Yunfeng Shi,TBA,10,3,7,MTLE,2024-01-08,2024-04-24,SPRING 2024,90184,9990,07,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Daniel J. Lewis,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,91089,9990,08,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Ravishankar Sundararaman,TBA,10,2,8,MTLE,2024-01-08,2024-04-24,SPRING 2024,93458,9990,09,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Minoru Tomozawa,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,91418,9990,10,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Paul George Keblinski,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,90214,9990,11,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,90215,9990,13,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Daniel Gall,TBA,10,7,3,MTLE,2024-01-08,2024-04-24,SPRING 2024,90274,9990,14,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Edwin B. Fohtung,TBA,10,5,5,MTLE,2024-01-08,2024-04-24,SPRING 2024,91068,9990,16,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Christian M. Wetzel,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,92273,9990,18,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jie Lian,TBA,10,2,8,MTLE,2024-01-08,2024-04-24,SPRING 2024,92274,9990,19,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Chaitanya Kishore Ullal,TBA,10,2,8,MTLE,2024-01-08,2024-04-24,SPRING 2024,91069,9990,20,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Nikhil Koratkar,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,92375,9990,21,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jian Shi,TBA,10,3,7,MTLE,2024-01-08,2024-04-24,SPRING 2024,92642,9990,22,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Edmund Francis Palermo,TBA,10,1,9,MTLE,2024-01-08,2024-04-24,SPRING 2024,92645,9990,23,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Sufei Shi,TBA,5,0,5,MTLE,2024-01-08,2024-04-24,SPRING 2024,94614,9990,24,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MTLE,2024-01-08,2024-04-24,SPRING 2024,94615,9990,25,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+ELEC & OPTICAL PROP OF MATLS,LEC,4,TF,10:00AM,11:50AM,Daniel Gall,Russell Sage Laboratory 2707,25,21,4,MTLE,2024-01-08,2024-04-24,SPRING 2024,93405,4200,01,MTLE-4200,Elec & Optical Prop Of Matls,"Electronic and optical properties of metals, dielectrics, semiconductors, and organic molecular solids. Introduction to quantum mechanics. Lattice vibrations, magnetism, energy bands in solids. Free and nearly free electron models. Effect of electronic structure on interatomic bonding. Semiconductors and their devices.","Prerequisites: ENGR 1600, MTLE 2100, PHYS 1200.",When Offered: Spring term annually.,"['ENGR 1600', 'MTLE 2100', 'PHYS 1200']","['ENGR 1600', 'MTLE 2100', 'PHYS 1200']",Engineering
+MECHANICAL PROPERTIES OF MATERIALS,LEC,4,MR,2:00PM,2:50PM,Rahmi Ozisik,Darrin Communications Center 235,20,5,15,MTLE,2024-01-08,2024-04-24,SPRING 2024,94745,4250,01,MTLE-4250,Mechanical Properties Of Materials,"This is a required departmental course, but is also appropriate for biomedical engineers and other engineering disciplines as an elective. This course teaches the mechanical properties of metals, ceramics, and polymers from both the macroscopic and atomistic or micromechanical viewpoints. An introduction to three-dimensional stresses and strains. Elastic behavior, plastic behavior, strengthening mechanisms, fracture, creep, and fatigue are all addressed. Includes laboratory component.","Prerequisites: ENGR 1600, MTLE 2100.",When Offered: Summer Arch term annually.,"['ENGR 1600', 'MTLE 2100']","['ENGR 1600', 'MTLE 2100']",Engineering
+MATERIALS SELECTION,LEC,3,MR,10:00AM,11:20AM,Daniel J. Lewis,Materials Research Center 136,28,15,13,MTLE,2024-01-08,2024-04-24,SPRING 2024,92046,4910,01,MTLE-4910,Materials Selection,"This class covers basic materials selection concepts and the underlying structure-property-process-performance interaction. Engineering materials, structures and properties, principles and process of materials selection, generation of materials performances indices, assessment and optimization of performance, processing routes and manufacturing issues, role of reverse engineering and failure analysis in design are covered. Materials selection against yielding, fracture, flexure, buckling, fatigue, creep, corrosion, and wear are addressed. Decomposition of engineering problems into functional, geometric, and materials constraints are emphasized. Materials selection based on simple and complex or conflicting constraints will be developed. Students will perform written assignments and oral presentations to develop communication skills. Enrollment for Materials Science and Engineering majors is restricted to juniors, seniors, or graduates.",Prerequisites: CHEM 1100 and ENGR 1600.,When Offered: Spring term annually.,"['CHEM 1100', 'ENGR 1600']","['CHEM 1100', 'ENGR 1600']",Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,MR,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai/Rahmi Ozisik,Jonsson Engineering Center 3332,0,4,-4,MTLE,2024-01-08,2024-04-24,SPRING 2024,92231,4920,01,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,10:00AM,11:50AM,Valerie J. Masterson/Junichi Kanai/Rahmi Ozisik,Jonsson Engineering Center 3332,0,2,-2,MTLE,2024-01-08,2024-04-24,SPRING 2024,92232,4920,03,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
+MULTIDISCIPLINARY CAPSTONE DESIGN,LEC,3,TF,12:00PM,1:50PM,Valerie J. Masterson/Junichi Kanai/Rahmi Ozisik,Jonsson Engineering Center 3332,0,4,-4,MTLE,2024-01-08,2024-04-24,SPRING 2024,92233,4920,04,MTLE-4920,Multidisciplinary Capstone Design,"A capstone design experience that engages students from biomedical, computer systems, electrical, industrial, materials, and mechanical engineering on teams in an open-ended engineering design problem in preparation for professional practice. With the guidance of a multidisciplinary team of faculty members and instructional support staff, students apply knowledge and skills from prior coursework. This is a communication-intensive course.","Prerequisite: ENGR 2050, MTLE 4910 and senior status.",When Offered: Spring and fall terms annually.,"['ENGR 2050', 'MTLE 4910']","['ENGR 2050', 'MTLE 4910']",Engineering
+ADVANCED ELECTRONIC PROPERTIES,LEC,4,TF,10:00AM,11:50AM,Edwin B. Fohtung,Darrin Communications Center 235,15,15,0,MTLE,2024-01-08,2024-04-24,SPRING 2024,94753,6120,01,MTLE-6120,Advanced Electronic Properties,"Review of essential electromagnetic theory and quantum mechanics, including exact models and approximate methods. Application to behavior of electrons in solids including electronic band structure, charge carrier statistics and charge transport in metals, semiconductors, and insulators. Dielectric, optical, and magnetic properties. Solid-vacuum, solid-liquid, and solid-solid interfaces. Applications to semiconductor, optoelectronic, and magnetic devices.",,When Offered: Spring term annually.,[],[],Engineering
+DEEP LISTENING,LEC,4,MR,10:00AM,11:50AM,Stephanie D Loveless,West Hall 326,14,14,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93906,2180,01,ARTS-2180,Deep Listening,"Deep Listening is a practice developed by pioneering composer and humanitarian Pauline Oliveros to enhance and expand listening abilities and to encourage creativity. Students will develop a heightened awareness to sound and their sonic environment through experiential exercises, creative projects, collaborations, readings, lectures, and discussion. Musicians and non-musicians of all abilities and backgrounds are welcome!",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+DEEP LISTENING,LEC,4,MR,10:00AM,11:50AM,Stephanie D Loveless,West Hall 326,5,5,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94138,2180,02,ARTS-2180,Deep Listening,"Deep Listening is a practice developed by pioneering composer and humanitarian Pauline Oliveros to enhance and expand listening abilities and to encourage creativity. Students will develop a heightened awareness to sound and their sonic environment through experiential exercises, creative projects, collaborations, readings, lectures, and discussion. Musicians and non-musicians of all abilities and backgrounds are welcome!",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+DEEP LISTENING,LEC,4,MR,12:00PM,1:50PM,Stephanie D Loveless,West Hall 326,5,5,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94448,2180,03,ARTS-2180,Deep Listening,"Deep Listening is a practice developed by pioneering composer and humanitarian Pauline Oliveros to enhance and expand listening abilities and to encourage creativity. Students will develop a heightened awareness to sound and their sonic environment through experiential exercises, creative projects, collaborations, readings, lectures, and discussion. Musicians and non-musicians of all abilities and backgrounds are welcome!",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+DEEP LISTENING,LEC,4,MR,12:00PM,1:50PM,Stephanie D Loveless,West Hall 326,14,14,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94449,2180,04,ARTS-2180,Deep Listening,"Deep Listening is a practice developed by pioneering composer and humanitarian Pauline Oliveros to enhance and expand listening abilities and to encourage creativity. Students will develop a heightened awareness to sound and their sonic environment through experiential exercises, creative projects, collaborations, readings, lectures, and discussion. Musicians and non-musicians of all abilities and backgrounds are welcome!",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MUSIC AND TECHNOLOGY II,LEC,4,MR,12:00PM,1:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,19,13,6,ARTS,2024-01-08,2024-04-24,SPRING 2024,94604,4160,01,ARTS-4160,Music And Technology Ii,"This course assumes knowledge and experience in computer music programming, applications, and performance. It is directed to undergraduate students as an upper-level seminar guiding their progress through the composition of a significant musical work or the design and development of a significant research project. The class is divided between a group seminar, focusing on aesthetic, theoretical, and technical issues, and a workshop/lab in musical systems design, performance, computer music applications, and composition.",Prerequisite: ARTS 2020 or permission of instructor.,When Offered: Spring term annually,['ARTS 2020'],['ARTS 2020'],"Humanities, Arts, and Social Sciences"
+ANIMATION PRODUCTION,LEC,4,TF,2:00PM,3:50PM,Silvia Ruzanka,Russell Sage Laboratory 2411,19,12,7,ARTS,2024-01-08,2024-04-24,SPRING 2024,93408,4460,01,ARTS-4460,Animation Production,Animation Production is designed to give an animation industry experience by completing the entire process of creating an animated short. Learning long-term time management and finding the key time cost/benefits will be essential to success. The course schedule is setup to replicate the industry model of frequent updates and feedback - dailies.,Prerequisites/Corequisites: ARTS 4060 or ARTS 4070,When Offered: Spring term annually.,"['ARTS 4060', 'ARTS 4070']","['ARTS 4060', 'ARTS 4070']","Humanities, Arts, and Social Sciences"
+ADVANCED DIGITAL IMAGING,LEC,4,TR,6:00PM,7:50PM,Kathleen Ruiz,West Hall 214,19,11,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,94606,4860,01,ARTS-4860,Advanced Digital Imaging,"This upper level studio and seminar explores individual visual arts projects contributing to thesis or dissertation development. Topics in creative personal expression in imaging, installation, digital/traditional mixed media and emerging genres will be studied drawing from issues raised in class projects. Advanced studies may include high resolution digital photography, montage, archival printing, gesture drawing, painting, assemblage, processing, stencil art, projection, and evolving genres which lead to an independent final project and web portfolio.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+PAINTING,LEC,4,TF,4:00PM,5:50PM,Jennifer Mae Kemp,West Hall 411,19,1,18,ARTS,2024-01-08,2024-04-24,SPRING 2024,94826,6220,01,ARTS-6220,Painting,"A painting course in opaque media such as oil or acrylic with emphasis on color interaction, composition, and pictorial design. Using sources from observation and the history of painting, students are taught to see and convey effects of color on/in 2-D pictorial space and to develop critical skills in looking at paintings.",By portfolio review.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SCIENCE FICTIONS,LEC,3,MR,4:00PM,5:50PM,Kathryn High,West Hall 211,19,3,16,ARTS,2024-01-08,2024-04-24,SPRING 2024,94830,6640,01,ARTS-6640,Science Fictions,"Science Fictions is an advanced narrative video production and theory course. The class looks at thematic areas of science fiction, utopia and dystopia, paranormal, and speculative fiction. ‘Speculative fiction' is a genre that looks at the real world and extends what we know about it, building on the ‘real.' The class has two threads: to study narrative structure and create a series of sci-fi videos; to discuss and analyze mainstream and avant-garde science fictions film and themes from the early 1900s to the present.",,When Offered: Spring term annually,[],[],"Humanities, Arts, and Social Sciences"
+MUSIC & AI,LEC,4,TF,12:00PM,1:50PM,Robert Kyle Hamilton,Russell Sage Laboratory 2510,19,7,12,ARTS,2024-01-08,2024-04-24,SPRING 2024,94145,4880,01,ARTS-4880,Music & Ai,"This is a course introducing music majors to advanced research topics of the Rensselaer music faculty. Each semester a member of the music faculty will focus the seminar on a research topic or paradigm related to their own body of artistic and technological research. Sample topics might include Spatial music and sound, New Instrument Design, Network Music, Music Information Retrieval, Ethnomusicology, Sonification Art and Science, Music and Logic, Spectralism and Beyond, Music Herstory (feminist music composition), Experimental music and sound history. Through hands-on creative research, students will explore questions of both musical and technological significance while engaging that same topic through their own hands-on creative practice.","Prerequisite: ARTS 2380 or ARTS 2020, or permission of instructor",When Offered: Fall and spring terms annually.,"['ARTS 2380', 'ARTS 2020']","['ARTS 2380', 'ARTS 2020']","Humanities, Arts, and Social Sciences"
+ADVANCED DIGITAL IMAGING,LEC,4,TR,6:00PM,7:50PM,Kathleen Ruiz,West Hall 214,19,0,19,ARTS,2024-01-08,2024-04-24,SPRING 2024,94607,6860,01,ARTS-6860,Advanced Digital Imaging,"This upper level studio and seminar explores individual visual arts projects contributing to thesis or dissertation development. Topics in creative personal expression in imaging, installation, digital/traditional mixed media and emerging genres will be studied drawing from issues raised in class projects. Advanced studies may include high resolution digital photography, montage, archival printing, gesture drawing, painting, assemblage, processing, stencil art, projection, and evolving genres which lead to an independent final project and web portfolio.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+BASIC DRAWING,LEC,4,MR,2:00PM,3:50PM,Kenneth A. Ragsdale,West Hall 411,19,21,-2,ARTS,2024-01-08,2024-04-24,SPRING 2024,92461,1200,01,ARTS-1200,Basic Drawing,An introductory course in drawing designed to develop seeing ability and means of expressing visual ideas through graphic skills. The course consists of exercises in drawing from observation and studies from the history of art.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+BASIC DRAWING,LEC,4,TF,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,92354,1200,02,ARTS-1200,Basic Drawing,An introductory course in drawing designed to develop seeing ability and means of expressing visual ideas through graphic skills. The course consists of exercises in drawing from observation and studies from the history of art.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ADVANCED DRAWING,LEC,4,TF,10:00AM,11:50AM,Kenneth A. Ragsdale,West Hall 411,19,11,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,92462,4200,01,ARTS-4200,Advanced Drawing,Advanced Drawing is designed to help students who have mastered basic drawing skills to enhance those skills and utilize them to explore visual ideas. Emphasis is placed on individual development of skills and subject matter to help students express themselves visually. Examples and studies are used from master drawings of the past to learn about the history of art and to stimulate ideas for the students' own work.,"Prerequisites/Corequisites: ARTS 1200, or permission of instructor.",When Offered: Spring term annually.,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
+FUNDAMENTALS OF 2D DESIGN,LEC,4,TF,10:00AM,11:50AM,Nathan Scott Meltz,Russell Sage Laboratory 1211,19,18,1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94817,2220,01,ARTS-2220,Fundamentals Of 2D Design,"An introductory course which will present basic concepts about composition, line, pictorial space, light, and color in the visual arts in order to help students develop the means for expressing visual ideas effectively. Weekly homework design projects, using both traditional and electronic media, will be complemented by in-class slide lectures, videos, and critiques.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+RETHINKING DOCUMENTARY: VIDEO,LEC,3,MR,4:00PM,5:50PM,Branda Miller,West Hall 112,19,1,18,ARTS,2024-01-08,2024-04-24,SPRING 2024,94820,6040,01,ARTS-6040,Rethinking DOCUMENTARY: Video,"Rethinking Documentary is a graduate level production course in film and video. Taking a broad look at what defines ""documentary"" media, this course incorporates criticism with production to examine key issues in the discipline, such as truth versus fiction, personal responsibility, community involvement, the efficacy of video intervention and the authority of mass media. Students are required to produce a range of video works questioning conventional documentary styles, using radical and interventionist techniques to tell compelling or poetic stories.",Must be a graduate student.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ARTS GRADUATE COLLOQUIUM,LEC,3,W,11:30AM,12:20PM,Robert F. Nideffer,West Hall 113,20,5,15,ARTS,2024-01-08,2024-04-24,SPRING 2024,94991,6900,01,ARTS-6900,Arts Graduate Colloquium,"This course provides a forum for interdisciplinary graduate discourse and community at Rensselaer. Students will curate a series of presentations by guest speakers, faculty, and graduate students. Related readings and writing assignments will be based on colloquium presentations. Arts Ph.D. students are required to take the colloquium each semester until the semester they take their qualifying examination and enroll for dissertation credits.","Prerequisite: graduate standing in any graduate degree program, not just Arts.",When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+FUNDAMENTALS OF MUSIC & SOUND,LEC,4,TF,10:00AM,11:50AM,Christopher James Fisher-Lochhead,West Hall 323,19,20,-1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94580,1380,01,ARTS-1380,Fundamentals Of Music & Sound,"This course is a hands-on introduction to the primary building blocks of music and musicianship in a 21st Century context. No formal musical background is expected. The course will explore acoustics and psychoacoustics, rhythm, pitch, harmony, melody, timbre, improvisation, composition, and music notation through performance, listening, written exercises, and creative projects.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+3D DIGITAL MODELING,LEC,4,MR,8:00AM,9:50AM,Adrianna Sakamoto Oropello,Russell Sage Laboratory 2411,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94605,2230,01,ARTS-2230,3D Digital Modeling,"A foundational course in concepts and techniques in digital 3D, for animation, games, and digital art. This course focuses on methods and aesthetics in creating digital 3D objects, spaces, and characters, including modeling, texturing, and lighting, as preparation for further courses in the 3D Animation curriculum.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+RETHINKING DOCUMENTARY:VIDEO PRODUCTION,LEC,4,MR,4:00PM,5:50PM,Branda Miller,West Hall 112,19,9,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94454,4040,01,ARTS-4040,Rethinking DOCUMENTARY:VIDEO Production,"This is a production course investigating non-traditional approaches to documentary or non-fiction film/video. Taking a broad look at what defines ""documentary"" media, this course will incorporate criticism with production. Students will produce a range of video works questioning conventional documentary styles, using radical and interventionist techniques. Students will study traditional documentary works including ethnographic films, cinema verite, propaganda films, ""home movies,"" reality TV, tabloid news, autobiographic and activist videos.","Prerequisite: ARTS 1030, INQR 1030, INQR 1040, or permission of instructor",When Offered: Fall term annually,"['ARTS 1030', 'INQR 1030', 'INQR 1040']","['ARTS 1030', 'INQR 1030', 'INQR 1040']","Humanities, Arts, and Social Sciences"
+PAINTING,LEC,4,TF,4:00PM,5:50PM,Jennifer Mae Kemp,West Hall 411,19,17,2,ARTS,2024-01-08,2024-04-24,SPRING 2024,94825,4220,01,ARTS-4220,Painting,"A painting course in opaque media such as oil or acrylic with emphasis on color interaction, composition, and pictorial design. Using sources from observation and the history of painting, students are taught to see and convey effects of color on/in 2D pictorial space and to develop critical skills in looking at paintings.",Prerequisite: ARTS 1200,When Offered: Fall term annually,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
+SPATIAL MUSIC & SOUND,LEC,4,MR,4:00PM,5:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,19,8,11,ARTS,2024-01-08,2024-04-24,SPRING 2024,94892,4960,01,ARTS-4960,Spatial Music & Sound,Experimental courses offered for one or two semesters.,,,[],[],"Humanities, Arts, and Social Sciences"
+LIFE DRAWING AND ANATOMY FOR ARTISTS,LEC,4,MR,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,4,15,ARTS,2024-01-08,2024-04-24,SPRING 2024,94828,6260,01,ARTS-6260,Life Drawing And Anatomy For Artists,"Life Drawing and Anatomy for Artists is an advanced drawing class that will focus on drawing the human figure. Students will work from live models to refine their drawing skills; clay models from anatomical texts will be made to develop a working knowledge of anatomy for artists. Gesture, proportion, and expression of the human figure will be emphasized; general concepts of design and composition will also be presented.",Portfolio Review,When Offered: spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+RENSSELAER ORCHESTRA,LEC,1,MR,5:00PM,6:50PM,Robert Michael Whalen,TBA,75,62,13,ARTS,2024-01-08,2024-04-24,SPRING 2024,90404,2300,01,ARTS-2300,Rensselaer Orchestra,"Readings, rehearsals, and performances of works from the standard repertoire for orchestra from the Baroque through the 20th century.",Prerequisite: demonstration of adequate skill in playing an orchestral instrument through audition.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,MR,2:00PM,3:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93946,2700,01,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,T,4:00PM,5:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93946,2700,01,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,MR,2:00PM,3:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93947,2700,02,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,T,6:00PM,7:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93947,2700,02,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,MR,2:00PM,3:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93948,2700,03,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,T,8:00PM,9:50PM,Ross A. Rice,Darrin Communications Center 174,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93948,2700,03,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ADV VIDEO MEDIA STUDIO,LEC,4,W,12:00PM,3:50PM,Elizabeth Press,Darrin Communications Center 174,15,14,1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94831,4050,01,ARTS-4050,Adv Video Media Studio,"The course is designed to help students continue to develop as media-makers/filmmakers. Students will work on short video projects that are shot in the studio and in the field. Studio experimentations, including projection work, multi-camera production, generating ideas, and realizing a well-developed final project. Students write their own scripts, learn new technical skills and direct videos.","Prerequisites/Corequisites: INQR 1030, INQR 1040, or ARTS 1030",When Offered: spring term annually,"['INQR 1030', 'INQR 1040', 'ARTS 1030']","['INQR 1030', 'INQR 1040', 'ARTS 1030']","Humanities, Arts, and Social Sciences"
+NET.ART,LEC,4,MR,10:00AM,11:50AM,Robert F. Nideffer,West Hall 214,19,5,14,ARTS,2024-01-08,2024-04-24,SPRING 2024,94893,4961,01,ARTS-4961,NET.ART,,,,[],[],"Humanities, Arts, and Social Sciences"
+EXPERIMENTAL GAME DESIGN,LEC,4,W,2:00PM,5:50PM,Kathleen Ruiz,Russell Sage Laboratory 2411,19,4,15,ARTS,2024-01-08,2024-04-24,SPRING 2024,92496,6400,01,ARTS-6400,Experimental Game Design,"Experimental Game Design is an upper level studio arts course focusing on the creation of innovative, workable game prototypes using a variety of interactive media. Games are considered as a new genre and are analyzed as cultural artifacts. The aesthetics of game design including character development, level design, game play experience, and delivery systems are covered. Flow, game theory, and game play gestalt are considered. Alternate gaming paradigms and emerging forms are encouraged.",Prerequisites/Corequisites: COGS 4520 or GSAS 4520 or graduate standing or permission of instructor,When Offered: Spring and fall terms annually.,['GSAS 4520'],['GSAS 4520'],"Humanities, Arts, and Social Sciences"
+SPATIAL MUSIC & SOUND,LEC,4,MR,4:00PM,5:50PM,Matthew William Goodheart,Russell Sage Laboratory 2510,19,0,19,ARTS,2024-01-08,2024-04-24,SPRING 2024,94894,6960,01,ARTS-6960,Spatial Music & Sound,Experimental courses offered for one to two semesters.,,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Maryanne Staniszewski,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,91640,9990,01,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Mary Simoni,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,91714,9990,02,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Matthew William Goodheart,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,94146,9990,03,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Michael L. Century,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,92541,9990,04,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Benjamin Chia-Ming Chang,TBA,1,0,1,ARTS,2024-01-08,2024-04-24,SPRING 2024,92551,9990,05,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Robert Kyle Hamilton,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,93537,9990,06,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Robert F. Nideffer,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94147,9990,07,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Kathryn High,TBA,7,5,2,ARTS,2024-01-08,2024-04-24,SPRING 2024,92614,9990,08,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Kathleen A. Galloway,TBA,10,1,9,ARTS,2024-01-08,2024-04-24,SPRING 2024,93060,9990,09,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Kathleen Ruiz,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,93550,9990,10,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Silvia Ruzanka,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94539,9990,12,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Benjamin Chia-Ming Chang,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94052,9990,14,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Branda Miller,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94053,9990,15,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Igor Vamos,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94054,9990,16,ARTS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",Must have passed Qualifying Exam or must be in a semester when taking Qualifying Exam.,,[],[],"Humanities, Arts, and Social Sciences"
+RENSSELAER CONCERT CHOIR,LEC,1,MR,7:00PM,8:50PM,Robert Michael Whalen,TBA,40,18,22,ARTS,2024-01-08,2024-04-24,SPRING 2024,90403,2310,01,ARTS-2310,Rensselaer Concert Choir,"Readings, rehearsals, and performances of works from the standard choral repertoire, from the Renaissance through the 20th century. Attendance is mandatory and preparation expected.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: VIOLIN,LEC,1,,,,Jamecyn F. Morey/Christopher James Fisher-Lochhead,TBA,10,10,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94029,2750,01,ARTS-2750,Private Music LESSONS: Violin,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS:VIOLA,LEC,1,,,,Jamecyn F. Morey/Christopher James Fisher-Lochhead,TBA,10,3,7,ARTS,2024-01-08,2024-04-24,SPRING 2024,94026,2750,02,ARTS-2750,Private Music LESSONS:VIOLA,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: CELLO,LEC,1,,,,David Bebe/Christopher James Fisher-Lochhead,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,94027,2750,03,ARTS-2750,Private Music LESSONS: Cello,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: FLUTE,LEC,1,,,,Christopher James Fisher-Lochhead/Norman Curtis Thibodeau,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,94028,2750,05,ARTS-2750,Private Music LESSONS: Flute,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: OBOE,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94030,2750,06,ARTS-2750,Private Music LESSONS: Oboe,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS:CLARINET,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-01-08,2024-04-24,SPRING 2024,94025,2750,07,ARTS-2750,Private Music LESSONS:CLARINET,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: BASSOON,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94031,2750,08,ARTS-2750,Private Music LESSONS: Bassoon,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: SAX,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94032,2750,09,ARTS-2750,Private Music LESSONS: Sax,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Akina Yura/Christopher James Fisher-Lochhead,TBA,6,6,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94033,2750,10,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Jingwen Tu/Christopher James Fisher-Lochhead,TBA,12,12,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94039,2750,11,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Chrysi Nanou/Christopher James Fisher-Lochhead,TBA,10,9,1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94034,2750,12,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: GUITAR,LEC,1,,,,Paul J. Quigley/Christopher James Fisher-Lochhead,TBA,17,10,7,ARTS,2024-01-08,2024-04-24,SPRING 2024,94140,2750,13,ARTS-2750,Private Music LESSONS: Guitar,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+MUSIC LESSONS: EUPHONIUM,LEC,1,,,,Christopher James Fisher-Lochhead/Michael David Blostein,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94139,2750,14,ARTS-2750,Music LESSONS: Euphonium,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: HARP,LEC,1,,,,Karlinda D. Caldicott/Christopher James Fisher-Lochhead,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94035,2750,15,ARTS-2750,Private Music LESSONS: Harp,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PERCUSS,LEC,1,,,,Mark Foster/Christopher James Fisher-Lochhead,TBA,10,3,7,ARTS,2024-01-08,2024-04-24,SPRING 2024,94036,2750,16,ARTS-2750,Private Music LESSONS: Percuss,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: VOICE,LEC,1,,,,Christopher James Fisher-Lochhead/Katherine Anne Skovira,TBA,18,16,2,ARTS,2024-01-08,2024-04-24,SPRING 2024,94037,2750,17,ARTS-2750,Private Music LESSONS: Voice,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: TRUMPET,LEC,1,,,,Omar Williams/Christopher James Fisher-Lochhead,TBA,4,4,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94038,2750,19,ARTS-2750,Private Music LESSONS: Trumpet,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSON: TROMBONE,LEC,1,,,,Christopher James Fisher-Lochhead/Michael David Blostein,TBA,10,1,9,ARTS,2024-01-08,2024-04-24,SPRING 2024,94141,2750,20,ARTS-2750,Private Music LESSON: Trombone,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: TUBA,LEC,1,,,,Christopher James Fisher-Lochhead/Michael David Blostein,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94142,2750,21,ARTS-2750,Private Music LESSONS: Tuba,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRV MUSIC LESSONS: JAZZ IMPROV,LEC,1,,,,Matthew P. Steckler/Christopher James Fisher-Lochhead,TBA,10,1,9,ARTS,2024-01-08,2024-04-24,SPRING 2024,94143,2750,22,ARTS-2750,Prv Music LESSONS: Jazz Improv,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRV MUSIC LESSONS: JAZZ SAX,LEC,1,,,,Matthew P. Steckler/Christopher James Fisher-Lochhead,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,94144,2750,23,ARTS-2750,Prv Music LESSONS: Jazz Sax,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: BASS,LEC,1,,,,Evan Tyler Runyon/Christopher James Fisher-Lochhead,TBA,10,2,8,ARTS,2024-01-08,2024-04-24,SPRING 2024,95021,2750,24,ARTS-2750,Private Music LESSONS: Bass,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSON: FRNCH HR,LEC,1,,,,TBA,TBA,10,0,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,95081,2750,25,ARTS-2750,Private Music LESSON: Frnch Hr,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+3D VISUAL EFFECTS,LEC,4,TF,10:00AM,11:50AM,Philip Kimmel Vanderhyden,Russell Sage Laboratory 2411,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94819,4060,01,ARTS-4060,3D Visual Effects,"An introduction to the technical techniques and principles of computer animation with a focus on rigging, skinning, character fx, particle simulations, compositioning and rendering. Lectures, discussion, and exposure to contemporary work enable students to develop skills in this rapidly evolving field.",Prerequisite: ARTS 2230 or permission of instructor,When Offered: Spring term annually.,['ARTS 2230'],['ARTS 2230'],"Humanities, Arts, and Social Sciences"
+ELECTRONIC ARTS OVERVIEW,LEC,3,M,6:00PM,8:50PM,Maryanne Staniszewski,West Hall 113,12,5,7,ARTS,2024-01-08,2024-04-24,SPRING 2024,93464,6110,01,ARTS-6110,Electronic Arts Overview,"This seminar will provide a historical context for understanding and analyzing practices and theories of contemporary electronic art. The curriculum is a mix of field surveys, readings of primary sources in aesthetic, media and critical theory, and examination of contemporary topics and controversies. The seminar is also intended to support the development and articulation of the student's creative practice. Open to graduate students across the Institute.",Spring term annuallyPrerequisite: limited students of graduate standing.,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHAMBER MUSIC ENSEMBLE,LEC,1,W,1:00PM,3:50PM,Chrysi Nanou,West Hall 323,16,17,-1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94137,2350,01,ARTS-2350,Chamber Music Ensemble,"An instrumental class that will be coached and rehearsed and will perform regularly. The larger ensemble will break up into smaller ensembles such as string quartets, woodwind quintets, trios, etc., depending on the make-up of the group, as well as into more unusual combinations that might be required to prepare 20th century repertoire. For intermediate and advanced players, entrance into the course is by authorization form/permission of instructor.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHAMBER MUSIC ENSEMBLE,LEC,1,T,4:00PM,6:50PM,Chrysi Nanou,West Hall 323,19,18,1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94818,2350,02,ARTS-2350,Chamber Music Ensemble,"An instrumental class that will be coached and rehearsed and will perform regularly. The larger ensemble will break up into smaller ensembles such as string quartets, woodwind quintets, trios, etc., depending on the make-up of the group, as well as into more unusual combinations that might be required to prepare 20th century repertoire. For intermediate and advanced players, entrance into the course is by authorization form/permission of instructor.",Audition with instructor.,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+"ART, COMMUNITY AND TECHNOLOGY",LEC,4,MR,10:00AM,11:50AM,Branda Miller,West Hall 112,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94455,4080,01,ARTS-4080,"ART, Community And Technology",,,,[],[],"Humanities, Arts, and Social Sciences"
+LIFE DRAWING AND ANATOMY FOR ARTISTS,LEC,4,MR,12:00PM,1:50PM,Jennifer Mae Kemp,West Hall 411,19,15,4,ARTS,2024-01-08,2024-04-24,SPRING 2024,94827,4260,01,ARTS-4260,Life Drawing And Anatomy For Artists,"Life Drawing and Anatomy for Artists is an advanced drawing class that will focus on drawing the human figure. Students will work from live models to refine their drawing skills; clay models from anatomical texts will be made to develop a working knowledge of anatomy for artists. Gesture, proportion, and expression of the human figure will be emphasized; general concepts of design and composition will also be presented.",Prerequisite: ARTS 1200 or portfolio review by instructor,When Offered: spring term annually,['ARTS 1200'],['ARTS 1200'],"Humanities, Arts, and Social Sciences"
+SCIENCE FICTIONS,LEC,4,MR,4:00PM,5:50PM,Kathryn High,West Hall 211,19,15,4,ARTS,2024-01-08,2024-04-24,SPRING 2024,94829,4640,01,ARTS-4640,Science Fictions,"Science Fictions is an advanced narrative video production and theory course. The class looks at thematic areas of science fiction, utopia and dystopia, paranormal, and speculative fiction. ‘Speculative fiction' is a genre that looks at the real world and extends what is known about it, building on the ‘real.' The class has two threads: to study narrative structure and create a series of sci-fi videos; to discuss and analyze mainstream and avant-garde science fiction films and themes from the early 1900s to the present.","Prerequisite: ARTS 1020, ARTS 1030, ARTS 1040, ARTS 1200, ARTS 2020, ARTS 2380, ARTS 2220, INQR 1030, INQR 1040, INQR 1170, INQR 1180, ARTS 4120, ARTS 4140, or permission of instructor",When Offered: spring term annually,"['ARTS 1020', 'ARTS 1030', 'ARTS 1040', 'ARTS 1200', 'ARTS 2020', 'ARTS 2380', 'ARTS 2220', 'INQR 1030', 'INQR 1040', 'INQR 1170', 'INQR 1180', 'ARTS 4120', 'ARTS 4140']","['ARTS 1020', 'ARTS 1030', 'ARTS 1040', 'ARTS 1200', 'ARTS 2020', 'ARTS 2380', 'ARTS 2220', 'INQR 1030', 'INQR 1040', 'INQR 1170', 'INQR 1180', 'ARTS 4120', 'ARTS 4140']","Humanities, Arts, and Social Sciences"
+NEW MEDIA THEORY,LEC,4,MR,12:00PM,1:50PM,Michael L. Century,West Hall 113,19,0,19,ARTS,2024-01-08,2024-04-24,SPRING 2024,94822,6130,01,ARTS-6130,New Media Theory,"This course asks what is really new about New Media, and looks at creative practices, theoretical discourses, and social contexts to find answers. The course concentrates on cutting edge cultural expression using information and communication technologies. The objective is to equip students with multiple perspectives - aesthetic, communications, historical - with which to analyze, critique, and develop original concepts about the uses of new media in art and culture.",,,[],[],"Humanities, Arts, and Social Sciences"
+MUSIC AND SOUND I,LEC,4,TF,12:00PM,1:50PM,Christopher James Fisher-Lochhead,West Hall 323,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93712,2380,01,ARTS-2380,Music And Sound I,"The first in a two-course sequence combining music theory, musicianship, and engaged listening practices applicable to a broad range of traditional and contemporary musical styles, with an emphasis on creative practice. This course covers the fundamentals of tonal harmony including scales, chord symbols and figured bass notation, diatonic chord progressions, and counterpoint. Musicianship includes aural identification of intervals, scales, and chords, rhythm and exercises in sight-singing, dictation, and improvisation. Engaged listening practices include responsive listening, reading, and written exercises as well as in-class discussion. Weekly assignments include composition, analysis, and performance.",Prerequisites/Corequisites: ARTS 1380 or demonstrable proficiency in music,When Offered: Fall term annually.,['ARTS 1380'],['ARTS 1380'],"Humanities, Arts, and Social Sciences"
+MUSIC AND SOUND II,LEC,4,TF,2:00PM,3:50PM,Christopher James Fisher-Lochhead,West Hall 323,19,21,-2,ARTS,2024-01-08,2024-04-24,SPRING 2024,93691,4380,01,ARTS-4380,Music And Sound Ii,"The second in a two-course sequence combining music theory, aural skills, and engaged listening practices applicable to a broad range of musical styles, with an emphasis on creative practice. This course covers chromatic, extended, and contemporary tonal harmony and its interrelationship with form. Musicianship exercises include advanced chord identification, rhythm exercises, dictation, and improvisation. Engaged listening practices include responsive listening, reading, and written exercises as well as in-class discussion. Weekly assignments include composition, analysis, and performance.",Prerequisite: ARTS 2380 or demonstratable proficiency in the prerequisite material,When Offered: Spring term annually.,['ARTS 2380'],['ARTS 2380'],"Humanities, Arts, and Social Sciences"
+QUEER ECOLOGIES,LEC,4,MR,12:00PM,1:50PM,Kathryn High,West Hall 214,19,3,16,ARTS,2024-01-08,2024-04-24,SPRING 2024,94824,6140,01,ARTS-6140,Queer Ecologies,"Queer Ecologies is an undergraduate and graduate arts course that uses art to think about our eco-futures. We will look at the disruptive nature of Cartesian thinking and binary positioning in relation to sexuality and ecologies. The ""queering"" is a means to refuse this binary thinking and consider expansive interdisciplinary practices that have evolved from LGBTQ+ and feminist theory, decolonial thinking, extinction and death studies, environmental justice, critiques of science and big pharma, biopolitics, bioethics, biology, science fiction, aesthetics, art and play.",,,[],[],"Humanities, Arts, and Social Sciences"
+DIGITAL FILMMAKING,LEC,4,MR,12:00PM,1:50PM,Elizabeth Press,West Hall 211,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,93168,1030,01,ARTS-1030,Digital Filmmaking,"This is a hands-on introduction to film making. Students study a selection of great films; and learn how to make movies using lightweight field production equipment. Throughout the course students produce a variety of short videos in different genres, and develop their critical capacity for analyzing cinema and other forms of motion picture storytelling. The class ends with a mini film festival where everyone presents their work.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+DIGITAL FILMMAKING,LEC,4,MR,10:00AM,11:50AM,Elizabeth Press,West Hall 211,19,18,1,ARTS,2024-01-08,2024-04-24,SPRING 2024,93551,1030,02,ARTS-1030,Digital Filmmaking,"This is a hands-on introduction to film making. Students study a selection of great films; and learn how to make movies using lightweight field production equipment. Throughout the course students produce a variety of short videos in different genres, and develop their critical capacity for analyzing cinema and other forms of motion picture storytelling. The class ends with a mini film festival where everyone presents their work.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+2D EXPERIMENTAL ANIMATION,LEC,4,TF,8:00AM,9:50AM,Nathan Scott Meltz,West Hall 214,19,19,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94446,2060,01,ARTS-2060,2D Experimental Animation,"2D Experimental Animation is an introduction to animation as an art form. Most of this course will be traditional assignments designed to encourage spontaneous creativity, explore animation concepts, and learn animation terminology. Assignments will build a solid foundation for entrance into 3D Animation. This course will also be a historical and theoretical investigation with screenings and readings followed with discussion.","Prerequisites: ARTS 1020, ARTS 1040, or ARTS 1200",When Offered: spring term annually,"['ARTS 1020', 'ARTS 1040', 'ARTS 1200']","['ARTS 1020', 'ARTS 1040', 'ARTS 1200']","Humanities, Arts, and Social Sciences"
+HISTORY OF WESTERN MUSIC,LEC,4,MR,2:00PM,3:50PM,Michael L. Century,West Hall 323,40,41,-1,ARTS,2024-01-08,2024-04-24,SPRING 2024,94671,2500,01,ARTS-2500,History Of Western Music,"This course surveys multiple approaches to the Western art music traditions from a contemporary global, multicultural context. The inter-relationships between music, society and cultural forces is emphasized. Students learn to recognize and describe the basic components of music, like texture, tonality, rhythm, dynamics, and melody Lectures are supplemented by listening assignments and in-class demonstrations.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+RENSSELAER WIND SYMPHONY,LEC,1,WF,5:00PM,6:50PM,Robert Michael Whalen,TBA,40,30,10,ARTS,2024-01-08,2024-04-24,SPRING 2024,94583,2962,01,ARTS-2962,Rensselaer Wind Symphony,,,,[],[],"Humanities, Arts, and Social Sciences"
+NEW MEDIA THEORY,LEC,4,MR,12:00PM,1:50PM,Michael L. Century,West Hall 113,19,6,13,ARTS,2024-01-08,2024-04-24,SPRING 2024,94821,4130,01,ARTS-4130,New Media Theory,"This course asks what is really new about New Media, and looks at creative practices, theoretical discourses, and social contexts to find answers. The course concentrates on cutting edge cultural expression using information and communication technologies. The objective to equip students with multiple perspectives - aesthetic, communications, historical - with which to analyze, critique, and develop original concepts about the uses of new media in art and culture.",Prerequisites: ARTS 2500 or ARTS 2540,When Offered: Spring term annually.,"['ARTS 2500', 'ARTS 2540']","['ARTS 2500', 'ARTS 2540']","Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD II,LEC,4,MR,12:00PM,1:50PM,Ross A. Rice,Darrin Communications Center 174,12,12,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,94024,4700,01,ARTS-4700,Sound Recording & Prod Ii,This course approaches the modern digital studio as a compositional environment for the development of the student's original creative projects. Engineering techniques will be explored through musical examples and hands-on projects.,Prerequisites/Corequisites: ARTS 2700,When Offered: Spring term annually.,['ARTS 2700'],['ARTS 2700'],"Humanities, Arts, and Social Sciences"
+QUEER ECOLOGIES,LEC,4,MR,12:00PM,1:50PM,Kathryn High,West Hall 214,19,17,2,ARTS,2024-01-08,2024-04-24,SPRING 2024,94823,4140,01,ARTS-4140,Queer Ecologies,"Queer Ecologies is an undergraduate and graduate arts course that uses art to think about our eco-futures. We will look at the disruptive nature of Cartesian thinking and binary positioning in relation to sexuality and ecologies. The ""queering"" is a means to refuse this binary thinking and consider expansive interdisciplinary practices that have evolved from LGBTQ+ and feminist theory, decolonial thinking, extinction and death studies, environmental justice, critiques of science and big pharma, biopolitics, bioethics, biology, science fiction, aesthetics, art and play.",,"When Offered: spring semester, odd-numbered years",[],[],"Humanities, Arts, and Social Sciences"
+RADICAL GRAPHICS SCREENPRNT,LEC,4,TF,2:00PM,3:50PM,Nathan Scott Meltz,Russell Sage Laboratory 1211,15,13,2,ARTS,2024-01-08,2024-04-24,SPRING 2024,94447,2090,01,ARTS-2090,Radical Graphics Screenprnt,"Radical Graphics/Screenprinting seeks to expand on the definition of print graphics from one that traditionally creates multiple images on paper to a practice that includes art-making activities as varied as mud-stenciling, t-shirt printing, ""fine art"" prints, animation, sculpture, and political protest graphics. Students will focus on the concept of the art ""matrix"": a template for image-making that can work across media. Students will create matrices that can be applied across multiple art-making platforms.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+THE MULTIMEDIA CENTURY,LEC,4,MR,4:00PM,5:50PM,Maryanne Staniszewski,West Hall 323,40,40,0,ARTS,2024-01-08,2024-04-24,SPRING 2024,92050,2540,01,ARTS-2540,The Multimedia Century,"This course will survey the history and theory of the diverse artistic practices of the twentieth century in relation to the development of the mass media and new technologies. Topics will include the Bauhaus, Surrealism, Pop Art, and Postmodernism and will span a spectrum of media from the more traditional, such as painting and photography, to electronic and new media, such as video and digital arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CREATIVE SEMINAR II,LEC,4,MR,12:00PM,1:50PM,Kenneth A. Ragsdale,West Hall 112,19,17,2,ARTS,2024-01-08,2024-04-24,SPRING 2024,92463,4850,01,ARTS-4850,Creative Seminar Ii,"This course is for senior EMAC and EART majors. The goal of the Creative Seminar II is to develop and formulate ideas from Creative Seminar I into a unique project for the artists/communicator that will demonstrate his/her independent ideas, research, writing, and design skills. Students will develop a written thesis, creative project (e.g., art, graphic design, interaction design, music, performance), prepare and present their project in a public exhibition, and design the publicity for the show.","Prerequisites/Corequisites: ARTS 4840, senior EMAC and EART majors only",When Offered: Spring term annually.,['ARTS 4840'],['ARTS 4840'],"Humanities, Arts, and Social Sciences"
+SOCIAL MEDIA & STRATGC COMM,LEC,4,MR,2:00PM,3:50PM,Weina Ran,Russell Sage Laboratory 3205,19,17,2,COMM,2024-01-08,2024-04-24,SPRING 2024,94498,4188,01,COMM-4188,Social Media & Stratgc Comm,"The purpose of this course is to introduce the basics of strategic communication in digital and social media platforms, with a specific interest in the applications of digital and social media for communication professionals. In this course, students will learn key principles and techniques for digital content creation and promotion. Students will brainstorm, conceptualize, and develop an online presence and apply writing, research, and critical thinking to the practice of strategic communication.",Any WRIT or COMM course,When Offered: Upon Availability,[],[],"Humanities, Arts, and Social Sciences"
+VISUAL CULTURE,LEC,4,TF,12:00PM,1:50PM,Andrew Arthur Fitzgerald,Russell Sage Laboratory 4112,19,19,0,COMM,2024-01-08,2024-04-24,SPRING 2024,94865,4540,01,COMM-4540,Visual Culture,"Humans inhabit a culture of visual images. Images bombard them on television, the Internet, and in films; they surround everyone as architecture and fashion; they provide essential resource data in science, engineering, and business. This course will help students better understand how images communicate information, arouse emotions, and shape values. Students will primarily do readings in cultural history/theory with some viewing of films.",Prerequisite: One 2000-level HASS undergraduate course of permission of instructor.,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S THESIS,LEC,1-6,,,,TBA,TBA,100,0,100,COMM,2024-01-08,2024-04-24,SPRING 2024,90148,6990,01,COMM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,MR,10:00AM,11:50AM,Weina Ran,Russell Sage Laboratory 3205,16,16,0,COMM,2024-01-08,2024-04-24,SPRING 2024,93696,2520,01,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,MR,10:00AM,11:50AM,Weina Ran,Russell Sage Laboratory 3205,3,3,0,COMM,2024-01-08,2024-04-24,SPRING 2024,93697,2520,02,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,MR,12:00PM,1:50PM,Weina Ran,Russell Sage Laboratory 3205,16,17,-1,COMM,2024-01-08,2024-04-24,SPRING 2024,93698,2520,03,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,MR,12:00PM,1:50PM,Weina Ran,Russell Sage Laboratory 3205,3,2,1,COMM,2024-01-08,2024-04-24,SPRING 2024,93699,2520,04,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNICATION THEORY & PRAC.,LEC,4,TF,10:00AM,11:50AM,Alexander Scott Hiland,Ricketts Building 208,19,19,0,COMM,2024-01-08,2024-04-24,SPRING 2024,94496,2520,05,COMM-2520,Communication Theory & PRAC.,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+BRAND IDENTITY DESIGN,LEC,4,MR,12:00PM,1:50PM,Sara L. Tack,Russell Sage Laboratory 2411,19,0,19,COMM,2024-01-08,2024-04-24,SPRING 2024,94315,6730,01,COMM-6730,Brand Identity Design,"A brand is more than just a cool logo design. ""A brand is a perception or set of associations consumers have of a business."" -(Felicia C. Sullivan) These perceptions originate from a consistent verbal and visual story communicated through a multitude of media platforms. In this class, we'll define the brand story, create messaging, and design the logo, stationery, signage, packaging, advertising, schwag, motion graphics, etc. The course culminates with the design of an identity standards manual defining the rules and principles to effectively communicate a consistent brand image.",,When Offered: spring term annually,[],[],"Humanities, Arts, and Social Sciences"
+ADAPTATION IN GAMES & MEDIA,LEC,4,MR,2:00PM,3:50PM,Christopher C. Jeansonne,Russell Sage Laboratory 4510,7,5,2,COMM,2024-01-08,2024-04-24,SPRING 2024,94849,6960,01,COMM-6960,Adaptation In Games & Media,Experimental courses tried out in one or two terms.,,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Tamar Gordon,TBA,10,0,10,COMM,2024-01-08,2024-04-24,SPRING 2024,91920,9990,01,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Patricia Search,TBA,10,0,10,COMM,2024-01-08,2024-04-24,SPRING 2024,93763,9990,02,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Yalun Zhou,TBA,10,0,10,COMM,2024-01-08,2024-04-24,SPRING 2024,92098,9990,04,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,June Deery,TBA,10,1,9,COMM,2024-01-08,2024-04-24,SPRING 2024,92389,9990,05,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Miles A Kimball,TBA,10,0,10,COMM,2024-01-08,2024-04-24,SPRING 2024,93977,9990,07,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-16,,,,Andrew Arthur Fitzgerald,TBA,10,1,9,COMM,2024-01-08,2024-04-24,SPRING 2024,92044,9990,08,COMM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+EFF COMM FOR CLASS PEDAGOGY,LEC,3,MR,6:00PM,7:50PM,Anita Kay Greenfield,Russell Sage Laboratory 3205,19,11,8,COMM,2024-01-08,2024-04-24,SPRING 2024,93994,1960,01,COMM-1960,Eff Comm For Class Pedagogy,,,,[],[],"Humanities, Arts, and Social Sciences"
+TYPOGRAPHY,LEC,4,MR,8:00AM,9:50AM,Sara L. Tack,West Hall 214,16,17,-1,COMM,2024-01-08,2024-04-24,SPRING 2024,93400,2570,01,COMM-2570,Typography,"Typography studies the form and function of alphabetic and pictographic systems in English-speaking society. The course aims to imbue in students a critical perspective on the role typography plays in the history and sustenance of civilization and the propagation of ideas throughout society. Students will read historical, theoretical, and evidence-based literature to glean principles for designing communicatively effective type. Verbal and visual assignments will enforce understanding of typographic principles and grammar for use in print and digital interfaces.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+TYPOGRAPHY,LEC,4,MR,8:00AM,9:50AM,Sara L. Tack,West Hall 214,3,2,1,COMM,2024-01-08,2024-04-24,SPRING 2024,93736,2570,02,COMM-2570,Typography,"Typography studies the form and function of alphabetic and pictographic systems in English-speaking society. The course aims to imbue in students a critical perspective on the role typography plays in the history and sustenance of civilization and the propagation of ideas throughout society. Students will read historical, theoretical, and evidence-based literature to glean principles for designing communicatively effective type. Verbal and visual assignments will enforce understanding of typographic principles and grammar for use in print and digital interfaces.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ADAPTATION IN GAMES & MEDIA,LEC,4,MR,2:00PM,3:50PM,Christopher C. Jeansonne,Russell Sage Laboratory 4510,19,18,1,COMM,2024-01-08,2024-04-24,SPRING 2024,94843,4960,01,COMM-4960,Adaptation In Games & Media,Experimental courses tried out in one or two terms.,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,8:00AM,9:50AM,Benjamin David Gleeksman,Russell Sage Laboratory 2411,16,18,-2,COMM,2024-01-08,2024-04-24,SPRING 2024,93889,2660,01,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,8:00AM,9:50AM,Benjamin David Gleeksman,Russell Sage Laboratory 2411,3,3,0,COMM,2024-01-08,2024-04-24,SPRING 2024,93890,2660,02,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,TF,10:00AM,11:50AM,Benjamin David Gleeksman,West Hall 214,19,18,1,COMM,2024-01-08,2024-04-24,SPRING 2024,94579,2660,03,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTERFACE DESIGN:HYPERMEDIA THEORY AND APPLICATION,LEC,4,TF,10:00AM,11:50AM,Patricia Search,Russell Sage Laboratory 4510,19,19,0,COMM,2024-01-08,2024-04-24,SPRING 2024,94847,4690,01,COMM-4690,Interface DESIGN:HYPERMEDIA Theory And Application,"This course covers theory, research, and practice in interactive, multimedia interface design. Topics include visual perception, information architecture, rapid prototyping, usability testing, cross-cultural design, interactive data visualization, augmented reality, and intellectual property.",Prerequisites: CSCI 1100 or permission of instructor,"When Offered: spring term, even-numbered years",['CSCI 1100'],['CSCI 1100'],"Humanities, Arts, and Social Sciences"
+BRAND IDENTITY DESIGN,LEC,4,MR,12:00PM,1:50PM,Sara L. Tack,Russell Sage Laboratory 2411,19,18,1,COMM,2024-01-08,2024-04-24,SPRING 2024,94152,4730,01,COMM-4730,Brand Identity Design,"A brand is more than just a cool logo design. ""A brand is a perception or set of associations consumers have of a business."" - (Felicia C. Sullivan) These perceptions originate from a consistent verbal and visual story communicated through a multitude of media platforms. In this class we'll define the brand story, create messaging, and design the logo, stationery, signage, packaging, advertising, schwag, motion graphics etc. The course culminates with the design of an identity standards manual defining the rules and principles to effectively communicate a consistent brand image.",Prerequisite: COMM 2660 or COMM 2570,When Offered: Spring term annually,"['COMM 2660', 'COMM 2570']","['COMM 2660', 'COMM 2570']","Humanities, Arts, and Social Sciences"
+INFORMATION DESIGN,LEC,4,TF,2:00PM,3:50PM,Benjamin David Gleeksman,West Hall 211,19,19,0,COMM,2024-01-08,2024-04-24,SPRING 2024,93393,4470,01,COMM-4470,Information Design,"The complexity of data-driven written and visual information has increased dramatically. ""Flatland"" or two-dimensional data presentations on paper or computer monitor are commonly flat and static. In this course, students will examine historic data presentations, explore engaging ways to represent complex information (while retaining fidelity to the data within), and learn to design effective data-based projects. The course is structured as a laboratory/design studio.",Prerequisite: COMM 2660,When Offered: Spring term annually.,['COMM 2660'],['COMM 2660'],"Humanities, Arts, and Social Sciences"
+DIGITAL RHETOIC,LEC,3,R,4:00PM,5:50PM,Leah Corinne Jones,Carnegie Building 102,19,4,15,IHSS,2024-01-08,2024-04-24,SPRING 2024,94864,6960,01,IHSS-6960,Digital Rhetoic,,,,[],[],"Humanities, Arts, and Social Sciences"
+THE AMERICAN DREAM,LEC,4,TF,8:00AM,9:50AM,Natalie Erika Amiama,Russell Sage Laboratory 5711,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,95059,1776,01,INQR-1776,The American Dream,,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+AI & SOCIETY,LEC,4,MR,2:00PM,3:50PM,Mei Si/Ralph G Noble,Darrin Communications Center 318,100,52,48,INQR,2024-01-08,2024-04-24,SPRING 2024,94906,1960,01,INQR-1960,Ai & Society,,,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,T,2:00PM,3:50PM,Jonathan Garrett Wald,Carnegie Building 113,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94866,1100,01,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,F,2:00PM,3:50PM,Jonathan Garrett Wald,Russell Sage Laboratory 4203,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94866,1100,01,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,T,2:00PM,3:50PM,Jonathan Garrett Wald,Carnegie Building 113,19,18,1,INQR,2024-01-08,2024-04-24,SPRING 2024,94867,1100,02,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,F,2:00PM,3:50PM,Jonathan Garrett Wald,Russell Sage Laboratory 4101,19,18,1,INQR,2024-01-08,2024-04-24,SPRING 2024,94867,1100,02,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,T,2:00PM,3:50PM,Jonathan Garrett Wald,Carnegie Building 113,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94868,1100,03,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,F,4:00PM,5:50PM,Jonathan Garrett Wald,Russell Sage Laboratory 5711,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94868,1100,03,INQR-1100,"SCIENCE, TECH, & Society",,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+FEMINIST CRITIQUES OF REASON,LEC,4,MR,2:00PM,3:50PM,Thomas Macaulay Ferguson,Russell Sage Laboratory 2715,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94907,1961,01,INQR-1961,Feminist Critiques Of Reason,,,,[],[],"Humanities, Arts, and Social Sciences"
+WRITING FOR A GLOBAL AUDIENCE,LEC,4,MR,4:00PM,5:50PM,Anita Kay Greenfield,Russell Sage Laboratory 2112,19,17,2,INQR,2024-01-08,2024-04-24,SPRING 2024,94908,1962,01,INQR-1962,Writing For A Global Audience,,,,[],[],"Humanities, Arts, and Social Sciences"
+LANGUAGE AND POWER,LEC,4,MR,2:00PM,3:50PM,Tamar Gordon,Russell Sage Laboratory 4711,19,14,5,INQR,2024-01-08,2024-04-24,SPRING 2024,94876,1492,01,INQR-1492,Language And Power,,,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+SCIENCE & SCIENCE MISCONDUCT,LEC,4,MR,10:00AM,11:50AM,Susan Lynn Smith,Russell Sage Laboratory 2510,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94869,1160,01,INQR-1160,Science & Science Misconduct,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+GREAT IDEAS IN PHILOSOPHY,LEC,4,TF,10:00AM,11:50AM,Daniel Peter Thero,Russell Sage Laboratory 5711,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94870,1165,01,INQR-1165,Great Ideas In Philosophy,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MEDIA AND SOCIETY,LEC,4,MR,10:00AM,11:50AM,Ronald P. Ladouceur,Peoples Ave Complex J 3402,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94877,1560,01,INQR-1560,Media And Society,,,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+LIFE IN COLOR,LEC,4,MR,2:00PM,3:50PM,Sara L. Tack,Russell Sage Laboratory 2411,19,18,1,INQR,2024-01-08,2024-04-24,SPRING 2024,94880,1562,01,INQR-1562,Life In Color,,,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+WELL-BEING: CULTVING CURIOSITY,LEC,4,TF,10:00AM,11:50AM,Alicia Ann Walf,Russell Sage Laboratory 3713,19,20,-1,INQR,2024-01-08,2024-04-24,SPRING 2024,94872,1175,01,INQR-1175,WELL-BEING: Cultving Curiosity,,,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+PRINCIPLES OF ECONOMICS,LEC,4,MR,2:00PM,3:50PM,Sarah Marsden Greene,Darrin Communications Center 308,300,194,106,INQR,2024-01-08,2024-04-24,SPRING 2024,94873,1200,01,INQR-1200,Principles Of Economics,,,,[],[],"Humanities, Arts, and Social Sciences"
+PRINCIPLES OF ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Sarah Marsden Greene,Russell Sage Laboratory 3303,300,153,147,INQR,2024-01-08,2024-04-24,SPRING 2024,94874,1200,02,INQR-1200,Principles Of Economics,,,,[],[],"Humanities, Arts, and Social Sciences"
+IT & SOCIETY,LEC,4,TF,10:00AM,10:50AM,Katherine Anne Tyrol/Justin Dowdall,Russell Sage Laboratory 3510,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94925,1220,01,INQR-1220,It & Society,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+IT & SOCIETY,LEC,4,TF,12:00PM,12:50PM,Justin Dowdall/Katherine Anne Tyrol,West Hall 112,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94925,1220,01,INQR-1220,It & Society,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+IT & SOCIETY,LEC,4,TF,10:00AM,10:50AM,Katherine Anne Tyrol/Justin Dowdall,Russell Sage Laboratory 3510,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94926,1220,02,INQR-1220,It & Society,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+IT & SOCIETY,LEC,4,TF,12:00PM,12:50PM,Justin Dowdall/Katherine Anne Tyrol,West Hall 211,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94926,1220,02,INQR-1220,It & Society,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+IT AND SOCIETY,LEC,4,TF,10:00AM,10:50AM,Katherine Anne Tyrol/Justin Dowdall,Russell Sage Laboratory 3510,19,18,1,INQR,2024-01-08,2024-04-24,SPRING 2024,95050,1220,03,INQR-1220,It And Society,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+IT AND SOCIETY,LEC,4,TF,11:00AM,11:50AM,Justin Dowdall/Katherine Anne Tyrol,Russell Sage Laboratory 3510,19,18,1,INQR,2024-01-08,2024-04-24,SPRING 2024,95050,1220,03,INQR-1220,It And Society,,,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SONGWRITING WORKSHOP,LEC,4,MR,4:00PM,5:50PM,Ross A. Rice,Darrin Communications Center 174,19,19,0,INQR,2024-01-08,2024-04-24,SPRING 2024,94905,1700,01,INQR-1700,Songwriting Workshop,,,When Offered: Fall term annually,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE I,LEC,4,MR,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 4203,10,10,0,LANG,2024-01-08,2024-04-24,SPRING 2024,92460,1410,01,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE I,LEC,4,MR,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 4203,9,9,0,LANG,2024-01-08,2024-04-24,SPRING 2024,93172,1410,02,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE I,LEC,4,TF,2:00PM,3:50PM,Yalun Zhou,Russell Sage Laboratory 2704,19,16,3,LANG,2024-01-08,2024-04-24,SPRING 2024,94895,1410,03,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE II,LEC,4,MR,2:00PM,3:50PM,Jianling Yue,Russell Sage Laboratory 4203,19,19,0,LANG,2024-01-08,2024-04-24,SPRING 2024,93211,2410,01,LANG-2410,Chinese Ii,"This is a continuation of Chinese I, a course for the standard modern Chinese language (Mandarin). Students learn more Chinese characters and words, reach a total of nearly 500 characters and 650 words, and use more complicated grammatical structures, including some compliment phrases and topic-comment sentences. In sum, students will learn more in all four aspects-listening, speaking, reading, and writing-presented in Chinese I.",Prerequisite: LANG 1410 or equivalent or permission of instructor.,When Offered: Fall and spring terms annually.,['LANG 1410'],['LANG 1410'],"Humanities, Arts, and Social Sciences"
+CHINESE III,LEC,4,TF,12:00PM,1:50PM,Jianling Yue,Russell Sage Laboratory 2715,19,6,13,LANG,2024-01-08,2024-04-24,SPRING 2024,93999,4420,01,LANG-4420,Chinese Iii,"This is a continuation of Chinese II, a course for the standard modern Chinese language (Mandarin). Students learn more Chinese characters and words, reach a total of about 650 characters, 1000 words, and use more complicated grammatical structures, e.g., reduplication of adjectives and verbs, resultative and potential compliments. In sum, students learn more in all four aspects-listening, speaking, reading and writing-presented in Chinese II.",Prerequisite: LANG 2410 or equivalent or permission of instructor.,When Offered: Fall and spring terms annually.,['LANG 2410'],['LANG 2410'],"Humanities, Arts, and Social Sciences"
+CHINESE V,LEC,4,TF,10:00AM,11:50AM,Yalun Zhou,Russell Sage Laboratory 4711,19,11,8,LANG,2024-01-08,2024-04-24,SPRING 2024,93173,4470,01,LANG-4470,Chinese V,"Chinese V is a continuation of Chinese IV, a course for standard modern Chinese language (Mandarin). Students learn additional Chinese characters and words, reach a total of about 950 characters, 1700 words, and complicated grammatical structures, e.g., idiomatic expressions, expressions of comparison, concession, and subjection, etc. In sum, students learn more in all four aspects - listening, speaking, reading and writing - presented in Chinese IV.",Prerequisite: LANG 4430 or equivalent or permission of instructor.,When Offered: Spring term annually.,['LANG 4430'],['LANG 4430'],"Humanities, Arts, and Social Sciences"
+VICTORIAN LITERATURE & TECH,LEC,4,MR,10:00AM,11:50AM,Audrey Lenore Peterson-McCann,Russell Sage Laboratory 3704,19,18,1,LITR,2024-01-08,2024-04-24,SPRING 2024,94609,2960,01,LITR-2960,Victorian Literature & Tech,,,,[],[],"Humanities, Arts, and Social Sciences"
+VICTORIAN LITERATURE & TECH,LEC,4,MR,2:00PM,3:50PM,Nicole Antonia Cosentino,Russell Sage Laboratory 2112,19,16,3,LITR,2024-01-08,2024-04-24,SPRING 2024,94884,2960,02,LITR-2960,Victorian Literature & Tech,,,,[],[],"Humanities, Arts, and Social Sciences"
+THE GRAPHIC NOVEL,LEC,4,TF,2:00PM,3:50PM,Mitchell Ryan Murray,Russell Sage Laboratory 4510,19,19,0,LITR,2024-01-08,2024-04-24,SPRING 2024,94885,2961,01,LITR-2961,The Graphic Novel,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO LITERATURE,LEC,4,TF,8:00AM,9:50AM,Mitchell Ryan Murray,Carnegie Building 102,19,17,2,LITR,2024-01-08,2024-04-24,SPRING 2024,92975,2110,01,LITR-2110,Intro To Literature,"A study of major literary works that introduces students to basic ideas and terminology in literary criticism. Students learn to read and interpret a selection of novels, plays, poetry, or other forms of writing to be determined each semester by the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO LITERATURE,LEC,4,TF,10:00AM,11:50AM,Mitchell Ryan Murray,Carnegie Building 102,19,18,1,LITR,2024-01-08,2024-04-24,SPRING 2024,94508,2110,02,LITR-2110,Intro To Literature,"A study of major literary works that introduces students to basic ideas and terminology in literary criticism. Students learn to read and interpret a selection of novels, plays, poetry, or other forms of writing to be determined each semester by the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SCIENCE AND FICTION,LEC,4,TF,10:00AM,11:50AM,Natalie Erika Amiama,Low Center for Industrial Inn. 3112,19,19,0,LITR,2024-01-08,2024-04-24,SPRING 2024,94883,4150,01,LITR-4150,Science And Fiction,"An exploration of the ongoing dialogue between science/technology and literature through the reading of landmark works about science and fictional works that describe scientific ideas and methods. Topics include artificial intelligence, genetic engineering, and cyborgs.",,When Offered: Annually,[],[],"Humanities, Arts, and Social Sciences"
+IRISH LITERATURE,LEC,4,TF,2:00PM,3:50PM,Natalie Erika Amiama,Russell Sage Laboratory 4711,19,18,1,LITR,2024-01-08,2024-04-24,SPRING 2024,94509,4230,01,LITR-4230,Irish Literature,"A survey of major works by Irish authors writing in English, with a particular focus on the fiction and drama of the twentieth century. Authors will include: Oscar Wilde, Samuel Beckett, James Joyce, and W.B. Yeats.",,"When Offered: Spring term, odd-numbered years.",[],[],"Humanities, Arts, and Social Sciences"
+WOMEN WRITERS,LEC,4,TF,2:00PM,3:50PM,Skye Anicca,Russell Sage Laboratory 2707,19,20,-1,LITR,2024-01-08,2024-04-24,SPRING 2024,94216,4770,01,LITR-4770,Women Writers,"Women Writers examines creative works of literature produced by women of different times, such as novels, poetry, performance art, and graphic novels. These diverse works explore such topics as personal identity, love and sexuality, trauma and memory, and cultural difference, which are complicated by different historical attitudes towards gender, race, class, and religion. Discussion and viewing of films and visual art, as well as critical readings, will deepen the course's focus on literature.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+CAPSTONE EXPER IN PHILOSOPHY,LEC,1-6,,,,Daniel Peter Thero,TBA,10,0,10,PHIL,2024-01-08,2024-04-24,SPRING 2024,92063,4990,01,PHIL-4990,Capstone Exper In Philosophy,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,1-6,,,,Bram Van Heuveln,TBA,10,1,9,PHIL,2024-01-08,2024-04-24,SPRING 2024,91351,4990,02,PHIL-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,1-6,,,,Susan Lynn Smith,TBA,10,2,8,PHIL,2024-01-08,2024-04-24,SPRING 2024,92512,4990,03,PHIL-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Working either alone or in groups, students prepare written reports relating to this project, under the supervision of a faculty member.",Permission of a supervising faculty member.,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,MR,2:00PM,3:50PM,Susan Lynn Smith,Jonsson Engineering Center 4309,30,14,16,PHIL,2024-01-08,2024-04-24,SPRING 2024,93863,4500,01,PHIL-4500,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: STSO 2510, STSO 2520, STSO 2700, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Fall and spring term annually.,"['STSO 2520', 'STSO 2700', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2700', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+PHILOSOPHY OF MATHEMATICS,LEC,4,MR,10:00AM,11:50AM,Thomas Macaulay Ferguson,Darrin Communications Center 232,19,18,1,PHIL,2024-01-08,2024-04-24,SPRING 2024,94889,4960,01,PHIL-4960,Philosophy Of Mathematics,,,,[],[],"Humanities, Arts, and Social Sciences"
+PHILOSOPHY OF SCIENCE,LEC,4,TF,12:00PM,1:50PM,John R Milanese,Carnegie Building 101,19,29,-10,PHIL,2024-01-08,2024-04-24,SPRING 2024,93639,4130,01,PHIL-4130,Philosophy Of Science,"How does science stimulate philosophical thinking and how has philosophy influenced science? This broad range of interaction is studied with special attention given to the concepts of theory, observation, and scientific method. Special attention is given to issues basic to psychology, in particular, reductionism, behaviorism, functionalism, and cognitivism.",,When Offered: Spring term odd-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+CRITICAL THINKING,LEC,4,MR,2:00PM,3:50PM,Bram Van Heuveln/John R Milanese,Darrin Communications Center 324,40,45,-5,PHIL,2024-01-08,2024-04-24,SPRING 2024,91047,2100,01,PHIL-2100,Critical Thinking,"This course provides tools for the identification, analysis, and evaluation of the various patterns of reasoning as they occur in the real world. Patterns of reasoning include deductive reasoning, inductive reasoning, scientific reasoning, statistical reasoning, and causal reasoning. The course also covers some basic psychology and sociology of reasoning and belief and concludes with a critical discussion of science and the scientific method.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTERMEDIATE LOGIC,LEC,4,TF,10:00AM,11:50AM,Bram Van Heuveln,Ricketts Building 212,30,27,3,PHIL,2024-01-08,2024-04-24,SPRING 2024,94886,4140,01,PHIL-4140,Intermediate Logic,"This course is a continuation of PHIL 2140, covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).",Prerequisite: PHIL 2140.,When Offered: Fall term annually.,"['PHIL 2140', 'PHIL 2140']","['PHIL 2140', 'PHIL 2140']","Humanities, Arts, and Social Sciences"
+INTRO TO PHILOSOPHY,LEC,4,MR,10:00AM,11:50AM,Daniel Peter Thero,Ricketts Building 211,35,35,0,PHIL,2024-01-08,2024-04-24,SPRING 2024,90309,1110,01,PHIL-1110,Intro To Philosophy,"An introduction to the major areas of philosophy (ethics, theory of knowledge, philosophy of religion, etc.) and to some of the main problems treated within these fields. Selections from contemporary as well as classical authors are studied and discussed. Students are encouraged to develop a disciplined approach to intellectual problems. Emphasis varies with the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO PHILOSOPHY,LEC,4,MR,10:00AM,11:50AM,Daniel Peter Thero,Ricketts Building 211,40,39,1,PHIL,2024-01-08,2024-04-24,SPRING 2024,93959,1110,02,PHIL-1110,Intro To Philosophy,"An introduction to the major areas of philosophy (ethics, theory of knowledge, philosophy of religion, etc.) and to some of the main problems treated within these fields. Selections from contemporary as well as classical authors are studied and discussed. Students are encouraged to develop a disciplined approach to intellectual problems. Emphasis varies with the instructor.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO LOGIC,LEC,4,MR,12:00PM,1:50PM,Selmer Bringsjord,Darrin Communications Center 318,230,169,61,PHIL,2024-01-08,2024-04-24,SPRING 2024,92664,2140,01,PHIL-2140,Introduction To Logic,"Introduction to first-order logic as a tool to be used in engineering, computer science, philosophy, etc., and as procedural knowledge helpful in puzzle-solving environments (e.g., standardized tests). A hands-on laboratory component is included.",,When Offered: Fall and Spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ETHICS OF ARTIFICIAL INTELLIGE,LEC,4,TF,2:00PM,3:50PM,John R Milanese,Carnegie Building 101,19,21,-2,PHIL,2024-01-08,2024-04-24,SPRING 2024,95002,2500,01,PHIL-2500,Ethics Of Artificial Intellige,"This course explores ethical issues posed by the proliferation of artificial intelligence (AI) technologies. There are three major components of the course. The first canvases philosophical ethics and develops a methodology for making ethical judgments (15% of the course). The second reviews arguments about how AI is already impacting our lives and how it potentially may in the future (60% of the course). Lastly, students research (in groups ) and present on some debate in AI ethics of their choosing (with instructor guidance; 25% of the course).",There are no prerequisites for this course,"When Offered: Spring term, annually",[],[],"Humanities, Arts, and Social Sciences"
+ENVIRONMENTAL PHILOSOPHY,LEC,4,TF,2:00PM,3:50PM,Daniel Peter Thero,Jonsson Engineering Center 3207,13,13,0,PHIL,2024-01-08,2024-04-24,SPRING 2024,94888,4300,01,PHIL-4300,Environmental Philosophy,"While concepts such as quality of life, environment, nature, global ecology, and the like figure heavily in contemporary discussions, they are seldom integrated into an environmental philosophy. The course tries to achieve this integration by understanding some of the religious, mythic-poetic, and scientific dimensions of the man-nature matrix. Some specific environmental problems are examined in order to illustrate the system of values implied by various solutions.",Prerequisite: junior or senior standing or permission of instructor.,When Offered: Spring term even-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+PHILOSOPHY OF MATHEMATICS,LEC,1-4,MR,10:00AM,11:50AM,Thomas Macaulay Ferguson,Darrin Communications Center 232,19,3,16,PHIL,2024-01-08,2024-04-24,SPRING 2024,95004,6960,01,PHIL-6960,Philosophy Of Mathematics,,,,[],[],"Humanities, Arts, and Social Sciences"
+"MEDICINE, CULTURE & SOCIETY",LEC,4,TF,2:00PM,3:50PM,Katherine Anne Tyrol,Russell Sage Laboratory 4112,19,19,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94577,4400,01,STSO-4400,"MEDICINE, Culture & Society","This course is a sociological and anthropological exploration of health and illness. By the end of the course, students will have an overall picture of health fields, problems faced by patients and caregivers, medicine and health in non-Western societies, and the social shaping of disease and therapeutic choices.","Prerequisite: STSO 2510, STSO 2520, STSO 2500, or permission of instructor","When Offered: spring term, odd-numbered years","['STSO 2520', 'STSO 2500']","['STSO 2520', 'STSO 2500']","Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,T,2:00PM,3:50PM,Nathaniel Thomas Stanton,Pittsburgh Building 5216,38,37,1,STSO,2024-01-08,2024-04-24,SPRING 2024,95035,1100,01,STSO-1100,"SCIENCE, TECH, & Society","This course examines science and technology in their social, cultural, and political context. Readings are drawn from social sciences, fiction, and contemporary journalism. Case studies will include genetic testing, automation, vaccines, engineering education, AIDS activism, mental health, surveillance, and climate change. The class is designed to give students the freedom to develop and express their own ideas.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+"SCIENCE, TECH, & SOCIETY",LEC,4,F,2:00PM,3:50PM,Nathaniel Thomas Stanton,Pittsburgh Building 5216,38,37,1,STSO,2024-01-08,2024-04-24,SPRING 2024,95035,1100,01,STSO-1100,"SCIENCE, TECH, & Society","This course examines science and technology in their social, cultural, and political context. Readings are drawn from social sciences, fiction, and contemporary journalism. Case studies will include genetic testing, automation, vaccines, engineering education, AIDS activism, mental health, surveillance, and climate change. The class is designed to give students the freedom to develop and express their own ideas.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+DRUGS IN HISTORY,LEC,4,MR,10:00AM,11:50AM,Nancy D. Campbell,Carnegie Building 106,19,18,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94285,4430,01,STSO-4430,Drugs In History,"This course teaches basic historical, anthropological, and sociological concepts that can be used to make sense of a wide variety of contemporary phenomena students encounter in everyday life. The focus is on analyzing how licit and illicit drugs serve as ""technologies"" within specific social contexts or subcultures; what drug policy reveals about social, political, and economic organization; and the impacts of biomedical knowledge and practice on specific population groups. The course focuses on the representation of drug use and drug users in popular culture, science and medicine, and history and the social sciences.","Prerequisite: INQR 1100, STSO 1100, INQR 1110, INQR 1220, INQR 1240, INQR 1250, INQR 1320, INQR 1350, INQR 1570, INQR 1580, or INQR 1610",When Offered: Spring term annually.,"['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1220', 'INQR 1240', 'INQR 1250', 'INQR 1320', 'INQR 1350', 'INQR 1570', 'INQR 1580', 'INQR 1610']","['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1220', 'INQR 1240', 'INQR 1250', 'INQR 1320', 'INQR 1350', 'INQR 1570', 'INQR 1580', 'INQR 1610']","Humanities, Arts, and Social Sciences"
+GOVERNING COMPLEX ECOSYS,LEC,4,TF,12:00PM,1:50PM,Jonathan Garrett Wald,Russell Sage Laboratory 5711,19,11,8,STSO,2024-01-08,2024-04-24,SPRING 2024,94900,4960,01,STSO-4960,Governing Complex Ecosys,,,,[],[],"Humanities, Arts, and Social Sciences"
+BIOLOGY OF EVERYDAY LIFE,LEC,4,TF,12:00PM,1:50PM,Matthew Wolf-Meyer,Russell Sage Laboratory 3705,19,11,8,STSO,2024-01-08,2024-04-24,SPRING 2024,94901,4961,01,STSO-4961,Biology Of Everyday Life,,,,[],[],"Humanities, Arts, and Social Sciences"
+GLOBALIZATION & DEVELOPMENT,LEC,4,MR,2:00PM,3:50PM,Jennifer Cardinal,Russell Sage Laboratory 5101,19,19,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94287,4500,01,STSO-4500,Globalization & Development,"Through critical reading, discussion, analysis, and experimental mapping we will engage with emerging global issues, such as sustainable development, mobility and international borders, sovereignty, and gentrification. We will frame these discussions with conceptual tools produced in cultural geography, history, anthropology, sociology, and philosophy.","Prerequisite: STSO 2100, STSO 2300, STSO 2500, STSO 2520.",When Offered: Spring term odd-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+HUMAN FUTURES,LEC,4,TF,10:00AM,11:50AM,Matthew Wolf-Meyer,Russell Sage Laboratory 3705,19,17,2,STSO,2024-01-08,2024-04-24,SPRING 2024,94902,4962,01,STSO-4962,Human Futures,,,,[],[],"Humanities, Arts, and Social Sciences"
+COMMUNITY-ENGAGED STS,LEC,3,M,9:00AM,11:50AM,Abby J. Kinchy,Russell Sage Laboratory 5711,10,4,6,STSO,2024-01-08,2024-04-24,SPRING 2024,94904,6960,01,STSO-6960,COMMUNITY-ENGAGED Sts,Selected topics.,,,[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,2:00PM,3:50PM,Daniel Allen Lyles,Pittsburgh Building 5114,35,34,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94123,4100,01,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,M,10:00AM,11:50AM,Allison Beth Hoffman,Low Center for Industrial Inn. 3045,30,30,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94124,4100,02,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,2:00PM,3:50PM,Allison Beth Hoffman,Troy Building 2018,30,30,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94125,4100,03,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,T,8:00AM,9:50AM,Daniel Allen Lyles,Russell Sage Laboratory 2704,25,16,9,STSO,2024-01-08,2024-04-24,SPRING 2024,94126,4100,04,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,F,8:00AM,9:50AM,Daniel Allen Lyles,Russell Sage Laboratory 4112,20,18,2,STSO,2024-01-08,2024-04-24,SPRING 2024,94132,4100,05,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,M,12:00PM,1:50PM,Allison Beth Hoffman,Low Center for Industrial Inn. 3045,35,34,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94127,4100,06,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,10:00AM,11:50AM,Allison Beth Hoffman,Troy Building 2018,30,30,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94128,4100,07,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,12:00PM,1:50PM,Allison Beth Hoffman,Troy Building 2018,35,34,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94129,4100,08,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,T,2:00PM,3:50PM,Daniel Allen Lyles,Low Center for Industrial Inn. 4034,30,25,5,STSO,2024-01-08,2024-04-24,SPRING 2024,94130,4100,09,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,F,2:00PM,3:50PM,Daniel Allen Lyles,Russell Sage Laboratory 2701,25,24,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94131,4100,10,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,R,2:00PM,3:50PM,Azita Hirsa,Low Center for Industrial Inn. 3130,20,18,2,STSO,2024-01-08,2024-04-24,SPRING 2024,94135,4100,11,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,M,2:00PM,3:50PM,Azita Hirsa,Lally Hall 104,35,34,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94133,4100,12,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,W,10:00AM,11:50AM,Azita Hirsa,Jonsson Engineering Center 4309,20,20,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94134,4100,13,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,MR,2:00PM,3:50PM,Susan Lynn Smith,Jonsson Engineering Center 4309,30,18,12,STSO,2024-01-08,2024-04-24,SPRING 2024,94276,4250,01,STSO-4250,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: One of the following: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Spring term annually,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+DIS SENIOR PROJECT,LEC,4,W,1:00PM,4:50PM,Raquel Velho,Russell Sage Laboratory 2211,29,15,14,STSO,2024-01-08,2024-04-24,SPRING 2024,94278,4970,01,STSO-4970,Dis Senior Project,"Design and Innovation Senior Project serves as a capstone course for DIS majors. Students work individually, supervised by a faculty member, to produce a design project, justified by and described in a written thesis. Class time largely operates as structured research and writing assistance, where students support one another with peer-review as well as receive one-on-one guidance from the instructor.",Prerequisites:STSO 2020,When Offered: Spring term annually.,['STSO 2020'],['STSO 2020'],"Humanities, Arts, and Social Sciences"
+"DESIGN, CULTURE, AND SOCIETY",LEC,4,MR,12:00PM,1:50PM,Brian Tolle,Russell Sage Laboratory 2704,29,27,2,STSO,2024-01-08,2024-04-24,SPRING 2024,94284,2210,01,STSO-2210,"DESIGN, CULTURE, And Society","This course allows students to develop a critical understanding of the relationships between design, culture, and society. ""Design"" is defined broadly, touching on product/industrial design, urban design, and so-called alternative design approaches such as ecological and feminist design. The focus is on the role of design in contemporary culture with the goal of training students' emerging appreciation of design as cultural practice on their professional work as engineers, architects, or business managers. This is a communication-intensive course.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTERS THESIS,LEC,1-9,,,,Nancy D. Campbell,TBA,10,0,10,STSO,2024-01-08,2024-04-24,SPRING 2024,94552,6990,01,STSO-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+ENVIRONMENT AND SOCIETY,LEC,4,MR,12:00PM,1:50PM,Jonathan Garrett Wald,Folsom Library 107,38,38,0,STSO,2024-01-08,2024-04-24,SPRING 2024,94273,2300,01,STSO-2300,Environment And Society,"Society and the natural environment are crucially linked in a number of ways. Environmental problems such as pollution and natural resource depletion are not only problems for society, affecting the way people live their lives; they are also problems of society-the result of patterns of social organization and social practices. In this course, students will explore these society/environment interactions at various levels, from the local to the global, using the concepts and insights of environmental sociology. Environmental sociologists aim to understand the social origins of environmental problems and propose workable solutions to them. By showing how social interaction, institutions, and beliefs shape human behavior, environmental sociology provides a useful complement to the natural sciences in the analysis of the environmental problems faced today.","Prerequisite:INQR 1100, STSO 1100, INQR 1110, INQR 1240, INQR 1250, INQR 1320, or permission of instructor",When Offered: Fall and Spring term annually.,"['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","Humanities, Arts, and Social Sciences"
+STS & SUST SENIOR PROJECT,LEC,4,MR,12:00PM,1:50PM,Jennifer Cardinal,Russell Sage Laboratory 5711,19,7,12,STSO,2024-01-08,2024-04-24,SPRING 2024,94279,4990,01,STSO-4990,Sts & Sust Senior Project,"Senior Project serves as a capstone course for all STS and Sustainability Studies majors. Students work individually, supervised by a faculty member, to produce a written thesis. Class time largely operates as structured research and writing assistance, where students support one another with peer-review as well as receive one-on-one guidance from the instructor.",Prerequisite: STSO 4980,When Offered: Spring term annually.,['STSO 4980'],['STSO 4980'],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Nancy D. Campbell,TBA,10,3,7,STSO,2024-01-08,2024-04-24,SPRING 2024,94325,9990,02,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,James Wilson Malazita,TBA,10,2,8,STSO,2024-01-08,2024-04-24,SPRING 2024,94326,9990,03,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Abby J. Kinchy,TBA,10,2,8,STSO,2024-01-08,2024-04-24,SPRING 2024,94327,9990,04,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Raquel Velho,TBA,10,1,9,STSO,2024-01-08,2024-04-24,SPRING 2024,94328,9990,05,STSO-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+SUSTAINABILITY & STS CAREERS,LEC,4,MR,4:00PM,5:50PM,Brandon James Costelloe-Kuehn,Russell Sage Laboratory 5711,19,18,1,STSO,2024-01-08,2024-04-24,SPRING 2024,94277,4300,01,STSO-4300,Sustainability & Sts Careers,"This course is required for students majoring in STS or Sustainability Studies. Students should take it in their sophomore year to best prepare for Arch internships and leverage the expertise they are developing through their undergraduate studies. Students will investigate the evolving terrain of career pathways at the intersection of science, technology, sustainability, and social change, learn job search strategies, and network with career role models. Note: course is restricted to SUST and STS majors only.",,When Offered: spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+AMERICAN HISTORY,LEC,4,TF,10:00AM,11:50AM,Adam Lawrence Biggs,Russell Sage Laboratory 4101,50,48,2,STSO,2024-01-08,2024-04-24,SPRING 2024,94897,2500,01,STSO-2500,American History,"This course surveys the history of the United States from the colonial era through the present. The course introduces major themes and tensions in United States politics, society, and culture with a focus on environmental factors. Topics will include encounters between American Indians and colonial peoples, independence, the formation of the American government, slavery, immigration, citizenship, rights, social movements, colonialism, war, and the changing identity of the United States in the world.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOCIOLOGY,LEC,4,TF,8:00AM,9:50AM,Katherine Anne Tyrol,Low Center for Industrial Inn. 3051,50,45,5,STSO,2024-01-08,2024-04-24,SPRING 2024,94291,2520,01,STSO-2520,Sociology,"A study of the principles and concepts of sociology and their application to the study of society and self. Students are introduced to the scope, materials, and methods of sociology. The issues and problems to be studied come from basic social institutions such as the family, science, and religion. Other topics may include love, crime, political economy, power, population growth, social class, and minority and ethnic relations.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ENVIRONMENTAL JUSTICE,LEC,4,MR,10:00AM,11:50AM,Jennifer Cardinal,Russell Sage Laboratory 3705,19,21,-2,STSO,2024-01-08,2024-04-24,SPRING 2024,94629,4330,01,STSO-4330,Environmental Justice,"What is environmental justice? Why are some people exposed to environmental hazards while others are not? In this class, we will explore the intersection of environmental concerns and social justice. We will read the works of activists and scholars working across a range of disciplines, engage in discussion, analysis, research, and mapping. We will learn about global historical processes that structure contemporary inequity and contemporary cases including environmental justice work in our own community.","Prerequisites: INQR 1100, STSO 1100, INQR 1110, INQR 1240, STSO 2100, STSO 2300, STSO 2500, or STSO 2520.",When Offered: spring term annually,"['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'STSO 2100', 'STSO 2300', 'STSO 2500', 'STSO 2520']","['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'STSO 2100', 'STSO 2300', 'STSO 2500', 'STSO 2520']","Humanities, Arts, and Social Sciences"
+DESIGN AND INNOVATION STUDIO C,LEC,4,MR,2:00PM,4:50PM,Brian Clyne,Russell Sage Laboratory 2211,29,6,23,STSO,2024-01-08,2024-04-24,SPRING 2024,94283,4610,01,STSO-4610,Design And Innovation Studio C,"DIS Studio C focuses on the co-production of products, organizations, and problem-solving strategies. Students will explore how to facilitate communication across multiple disciplinary and audience modalities, including stakeholders, designers, and users. Projects and course discussions will train students to translate social scientific and engineering problem-solving judgments and to evaluate how complex problems come to be defined. This course is required for DIS students who are dual-majoring with the School of Engineering.",Prerequisite: STSO 2020,When Offered: Spring term annually.,['STSO 2020'],['STSO 2020'],"Humanities, Arts, and Social Sciences"
+TECHNOLOGY STUDIES,LEC,3,R,9:00AM,11:50AM,Hasan Tankut Atuk,Russell Sage Laboratory 5711,10,6,4,STSO,2024-01-08,2024-04-24,SPRING 2024,94903,6040,01,STSO-6040,Technology Studies,"The seminar examines interactions between technology and society from the vantage point of the various disciplinary and interdisciplinary perspectives that have contributed to technology studies. The texts, theories, and arguments that were important for the historical development of the field are covered, as well as contemporary issues. The seminar provides the resources and develops the skill needed for understanding, criticizing, constructing, and developing research in the field.",,When Offered: Fall term odd-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+DESIGN & INNOVATION STUDIO II,LEC,4,TF,9:00AM,11:50AM,James Wilson Malazita/Brian Clyne,Russell Sage Laboratory 2211,29,24,5,STSO,2024-01-08,2024-04-24,SPRING 2024,94898,2610,01,STSO-2610,Design & Innovation Studio Ii,"DIS Studio II introduces students to general principles of user-experience design and industrial design as a set of approaches for attending to matters of aesthetics and form, usability, and meaning-making. It considers industrial designers as a community of practice. Assignments require students to synthesize social, technical, and formal concerns in the design of innovative objects. Students also gain competencies in CAD, real-time rendering, and project presentation.",Prerequisite: INQR 1610,When Offered: Spring term annually,['INQR 1610'],['INQR 1610'],"Humanities, Arts, and Social Sciences"
+ENVIRONMENTAL PHILOSOPHY,LEC,4,TF,2:00PM,3:50PM,Daniel Peter Thero,Jonsson Engineering Center 3207,13,17,-4,STSO,2024-01-08,2024-04-24,SPRING 2024,94899,4340,01,STSO-4340,Environmental Philosophy,"While concepts such as quality of life, environment, nature, global ecology, and the like figure heavily in contemporary discussions, they are seldom integrated into an environmental philosophy. The course tries to achieve this integration by understanding some of the religious, mythic-poetic, and scientific dimensions of the human-nature matrix. Some specific environmental problems are examined to illustrate the system of values implied by various solutions.",Prerequisite: junior or senior standing or permission of instructor.,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+POLITICS OF DESIGN,LEC,4,MR,10:00AM,11:50AM,Brian Tolle,Lally Hall 104,19,23,-4,STSO,2024-01-08,2024-04-24,SPRING 2024,94624,4350,01,STSO-4350,Politics Of Design,"A research seminar exploring the meaning of design in engineering, architecture, political theory, and other fields. How do social ideals and motives inspire design choices? To what extent does the design of human-made things shape the quality of public life? A variety of objects are studied: buildings, machines, artifacts in everyday use, computer programs, political constitutions, etc.","Prerequisites: One of the following: STSO 2100, STSO 2210, STSO 2300, STSO 2520, STSO 2500, or permission of instructor",When Offered: Fall and spring semesters annually,"['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2520', 'STSO 2500']","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2520', 'STSO 2500']","Humanities, Arts, and Social Sciences"
+RESEARCH WRITING,LEC,4,MR,2:00PM,3:50PM,Leah Corinne Jones,Carnegie Building 102,15,15,0,WRIT,2024-01-08,2024-04-24,SPRING 2024,94890,4410,01,WRIT-4410,Research Writing,"In this class, students will write on topics from their major discipline and investigate the kinds of texts that professionals in their field produce. They will identify and explore research questions, use discipline-specific library databases, and write research reports. In addition, they will develop effective note-taking and research skills and learn strategies for effective prose style.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+CREATIVE NONFICTION WRITING,LEC,4,TF,12:00PM,1:50PM,Skye Anicca,Russell Sage Laboratory 2707,19,18,1,WRIT,2024-01-08,2024-04-24,SPRING 2024,92520,2320,01,WRIT-2320,Creative Nonfiction Writing,"This is a workshop course in which novice and more experienced student writers produce creative nonfiction-prose that aims to be both factually accurate and compelling literature; students must have a good command of written English and grammar. Focus may vary by semester among memoir, lyric and personal essays, plotted narrative, oral history, and nature writing. For models, students study classic and contemporary accomplished writers who connect the self to the larger world. Class work centers on drafting and revising essays with regular peer workshops.",,When Offered: Spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CREATIVE WRITING: THE SHORT STORY,LEC,4,TF,8:00AM,9:50AM,Skye Anicca,Russell Sage Laboratory 4510,14,14,0,WRIT,2024-01-08,2024-04-24,SPRING 2024,94341,2330,01,WRIT-2330,Creative WRITING: The Short Story,"A workshop course in reading and writing the literary short story and literary flash fiction; students must have a good command of written English and grammar. This course will focus on reading and analyzing exemplary short fiction and writing and revising original work. Students learn to develop plot, character, setting, point of view, style, and structure, and use revision strategies to re-invent and shape narratives. Peer reading and writing groups offer opportunities for shared response and critique. .",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CREATIVE WRITING: THE SHORT STORY,LEC,4,TF,8:00AM,9:50AM,Skye Anicca,Russell Sage Laboratory 4510,5,6,-1,WRIT,2024-01-08,2024-04-24,SPRING 2024,94342,2330,02,WRIT-2330,Creative WRITING: The Short Story,"A workshop course in reading and writing the literary short story and literary flash fiction; students must have a good command of written English and grammar. This course will focus on reading and analyzing exemplary short fiction and writing and revising original work. Students learn to develop plot, character, setting, point of view, style, and structure, and use revision strategies to re-invent and shape narratives. Peer reading and writing groups offer opportunities for shared response and critique. .",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SPEECH COMMUNICATION,LEC,4,TF,12:00PM,1:50PM,Alexander Scott Hiland,Pittsburgh Building 5114,19,21,-2,WRIT,2024-01-08,2024-04-24,SPRING 2024,94040,2340,01,WRIT-2340,Speech Communication,"This course focuses on developing public speaking skills and critical listening abilities. Guided by rhetorical theory, theories of persuasion, and argumentation theory, students prepare several oral presentations, engage in extemporaneous speaking exercises, and criticize other performances.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SPEECH COMMUNICATION,LEC,4,TF,2:00PM,3:50PM,Alexander Scott Hiland,Pittsburgh Building 5114,19,20,-1,WRIT,2024-01-08,2024-04-24,SPRING 2024,94506,2340,02,WRIT-2340,Speech Communication,"This course focuses on developing public speaking skills and critical listening abilities. Guided by rhetorical theory, theories of persuasion, and argumentation theory, students prepare several oral presentations, engage in extemporaneous speaking exercises, and criticize other performances.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+RESEARCH WRITING,LEC,3,MR,2:00PM,3:50PM,Leah Corinne Jones,Carnegie Building 102,5,5,0,WRIT,2024-01-08,2024-04-24,SPRING 2024,94891,6410,01,WRIT-6410,Research Writing,"In this class, students will write on topics from their major discipline and investigate the kinds of texts that professionals in the field produce. They will identify and explore research questions, use discipline-specific library databases, and write research reports. In addition, students will develop effective note-taking and research skills and learn strategies for effective prose style.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+STRESS AND THE BRAIN,LEC,4,TF,12:00PM,1:50PM,Alicia Ann Walf,Russell Sage Laboratory 3704,4,4,0,COGS,2024-01-08,2024-04-24,SPRING 2024,92456,4610,01,COGS-4610,Stress And The Brain,"This seminar course is a detailed examination of the mind-brain relationship, through study of the stress response. Stress is simply defined as any challenge to an individual's homeostasis or balance. This course will explore the neurobiological underpinnings of the stress response, with particular focus on how stressors can alter perception, affective and cognitive processing in the individual, which can in turn feedback to alter the general health of the individual (body and mind/brain).",Prerequisite: PSYC 1200 or permission of instructor.,,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+STRESS AND THE BRAIN,LEC,4,TF,12:00PM,1:50PM,Alicia Ann Walf,Russell Sage Laboratory 3704,8,8,0,COGS,2024-01-08,2024-04-24,SPRING 2024,94929,4610,02,COGS-4610,Stress And The Brain,"This seminar course is a detailed examination of the mind-brain relationship, through study of the stress response. Stress is simply defined as any challenge to an individual's homeostasis or balance. This course will explore the neurobiological underpinnings of the stress response, with particular focus on how stressors can alter perception, affective and cognitive processing in the individual, which can in turn feedback to alter the general health of the individual (body and mind/brain).",Prerequisite: PSYC 1200 or permission of instructor.,,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Brett R. Fajen,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,92363,9990,01,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Thomas Macaulay Ferguson,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92378,9990,02,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Selmer Bringsjord,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92387,9990,04,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,James A. Hendler,TBA,10,2,8,COGS,2024-01-08,2024-04-24,SPRING 2024,92400,9990,05,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Sergei Nirenburg,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92543,9990,07,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Marjorie McShane,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92544,9990,08,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Mei Si,TBA,10,2,8,COGS,2024-01-08,2024-04-24,SPRING 2024,92598,9990,09,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Ron Sun,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,92673,9990,11,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Christopher Robert Sims,TBA,10,2,8,COGS,2024-01-08,2024-04-24,SPRING 2024,94058,9990,13,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Tomasz Strzalkowski,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,94059,9990,14,COGS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],"Humanities, Arts, and Social Sciences"
+COGNITIVE MODELING,LEC,4,MR,2:00PM,3:50PM,Stefan Tomov Radev,Carnegie Building 210,19,17,2,COGS,2024-01-08,2024-04-24,SPRING 2024,94832,4210,01,COGS-4210,Cognitive Modeling,"Recent advances in Cognitive Science, Computer Science and Mathematics, have resulted in the ability to develop computer programs that implement Probabilistic Cognitive Models (PCMs). The cognitive models that this course covers are based on approximate Bayesian Inference implemented by Markov Chain Monte Carlo and Variational techniques that have made this approach tractable. The objective of this course is to enable the student to develop models of cognition in a Bayesian framework.",Prerequisites/Corequisites: CSCI 2300 or permission of instructor.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],"Humanities, Arts, and Social Sciences"
+LANGUAGE-ENDOWED INTEL AGENTS,LEC,4,MR,2:00PM,3:50PM,Sergei Nirenburg,Russell Sage Laboratory 3705,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,94150,6880,01,COGS-6880,LANGUAGE-ENDOWED Intel Agents,"This course will concentrate on the knowledge-based modeling of intelligent agents, with a special emphasis on semantically-oriented language processing. Theoretical and conceptual discussions will be balanced by practical work within the implemented OntoAgent cognitive architecture. The course will cover the modeling of decision-making, the various aspects of natural-language processing, and the art of knowledge engineering.",Graduate standing.,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO COGNITIVE SCIENCE,LEC,4,MR,4:00PM,5:50PM,Bram Van Heuveln/Benjamin P. Weissman,Darrin Communications Center 330,49,54,-5,COGS,2024-01-08,2024-04-24,SPRING 2024,92215,2120,01,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO COGNITIVE SCIENCE,LEC,4,MR,4:00PM,5:50PM,Benjamin P. Weissman/Bram Van Heuveln,Darrin Communications Center 330,49,44,5,COGS,2024-01-08,2024-04-24,SPRING 2024,94313,2120,02,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ANIMAL COGNITION&INTER W/HUMAN,LEC,4,MR,2:00PM,3:50PM,Marjorie McShane,Darrin Communications Center 236,30,14,16,COGS,2024-01-08,2024-04-24,SPRING 2024,94280,4220,01,COGS-4220,Animal COGNITION&INTER W/HUMAN,"In this course, students will deepen their understanding of research principles and experimental practices in cognitive and behavioral science, and they will gain experience in applying concepts often discussed in human-oriented contexts (e.g., learning, theory of mind) to the animal world. In addition, they will be prepared to participate in revolutionizing our treatment of both the animals and the people with whom we share our lives.","Prerequisite: One of the following: PSYC 1200, COGS 2120, COGS 2340, COGS 4330, or PSYC 4370.","When Offered: Spring term, even-numbered years.","['PSYC 1200', 'COGS 2120', 'COGS 2340', 'COGS 4330', 'PSYC 4370']","['PSYC 1200', 'COGS 2120', 'COGS 2340', 'COGS 4330', 'PSYC 4370']","Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Bram Van Heuveln,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,92366,4990,02,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,4,,,,John R Milanese,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92379,4990,03,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Ron Sun,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92439,4990,07,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Mei Si,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92552,4990,08,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Brett R. Fajen,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92558,4990,09,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Ralph G Noble,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92599,4990,11,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Selmer Bringsjord,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,93021,4990,12,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Alicia Ann Walf,TBA,10,2,8,COGS,2024-01-08,2024-04-24,SPRING 2024,93294,4990,13,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,2-6,,,,Marjorie McShane,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,93739,4990,14,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+UNDERGRADUATE THESIS,LEC,4,,8:00AM,8:01AM,Bram Van Heuveln,TBA,1,0,1,COGS,2024-01-08,2024-04-24,SPRING 2024,94416,4990,15,COGS-4990,Undergraduate Thesis,"Students conduct original scholarly projects: original research, theoretical or analytical reviews of the literature, or computer simulations. Students prepare written reports relating to this project, under the supervision of a faculty member.",Prerequisite: permission of a supervising faculty member (completion of the thesis/project/dissertation registration form).,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO LINGUISTICS,LEC,4,MR,2:00PM,3:50PM,Benjamin P. Weissman,Low Center for Industrial Inn. 3039,19,22,-3,COGS,2024-01-08,2024-04-24,SPRING 2024,94148,2340,01,COGS-2340,Introduction To Linguistics,"This course offers a survey of scientific and applied approaches to the study of human language, highlighting the endlessly surprising nature of this sophisticated mode of communication. A sampling of the topics to be covered: phonology, morphology, syntax, semantics, lexicography, psycholinguistics, and historical linguistics. Lecture course.",,When Offered: Fall term annually; Spring term upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO LINGUISTICS,LEC,4,MR,2:00PM,3:50PM,Benjamin P. Weissman,Low Center for Industrial Inn. 3039,19,21,-2,COGS,2024-01-08,2024-04-24,SPRING 2024,93864,2340,02,COGS-2340,Introduction To Linguistics,"This course offers a survey of scientific and applied approaches to the study of human language, highlighting the endlessly surprising nature of this sophisticated mode of communication. A sampling of the topics to be covered: phonology, morphology, syntax, semantics, lexicography, psycholinguistics, and historical linguistics. Lecture course.",,When Offered: Fall term annually; Spring term upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+ADVANCED TOPICS IN LINGUISTICS,LEC,4,TF,10:00AM,11:50AM,Benjamin P. Weissman,Amos Eaton Hall 216,19,16,3,COGS,2024-01-08,2024-04-24,SPRING 2024,94834,4780,01,COGS-4780,Advanced Topics In Linguistics,"This course will serve as a seminar for advanced students of linguistics. The material to be covered will be selected collaboratively by the instructor and each cohort of students. Students, who ideally will have taken at least two linguistics-oriented courses previously, will be guided in pursuing topics that they have found particularly compelling in previous courses.",Prerequisite: COGS 2340 or permission of instructor.,When Offered: Upon availability of instructor.,['COGS 2340'],['COGS 2340'],"Humanities, Arts, and Social Sciences"
+SOCIAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Tomasz Strzalkowski,Low Center for Industrial Inn. 3112,29,1,28,COGS,2024-01-08,2024-04-24,SPRING 2024,93944,6960,01,COGS-6960,Social Computing,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
+LANGUAGE-ENDOWED INTEL AGENTS,LEC,4,MR,2:00PM,3:50PM,Sergei Nirenburg,Russell Sage Laboratory 3705,19,21,-2,COGS,2024-01-08,2024-04-24,SPRING 2024,94149,4880,01,COGS-4880,LANGUAGE-ENDOWED Intel Agents,"This course will concentrate on the knowledge-based modeling of intelligent agents, with a special emphasis on semantically-oriented language processing. Theoretical and conceptual discussions will be balanced by practical work within the implemented OntoAgent cognitive architecture. It will discuss the modeling of decision-making, the various aspects of natural-language processing, and the art of knowledge engineering.","A 2000-level computer science course or its equivalent, or permission of the instructor.",When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+RESEARCH PROBLEMS IN COG SCI,LEC,2,W,12:00PM,1:50PM,Ron Sun,Carnegie Building 113,60,23,37,COGS,2024-01-08,2024-04-24,SPRING 2024,90447,6961,01,COGS-6961,Research Problems In Cog Sci,,,,[],[],"Humanities, Arts, and Social Sciences"
+COGNITIVE MODELING I,LEC,4,MR,2:00PM,3:50PM,Stefan Tomov Radev,Carnegie Building 210,19,3,16,COGS,2024-01-08,2024-04-24,SPRING 2024,94833,6210,01,COGS-6210,Cognitive Modeling I,"This is a graduate level course that introduces the student to computational cognitive modeling. Cognitive modeling is the simulation of human cognitive, perceptual, and motor processes based on a cognitive architecture. The benefit of cognitive modeling is that it facilitates the testing of ideas about human processes through comparison of model data with empirical data. This course covers ACT-R, a symbolic architecture and LEABRA, a neural-level architecture.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,4:00PM,5:50PM,Alicia Ann Walf,Troy Building 2018,10,6,4,COGS,2024-01-08,2024-04-24,SPRING 2024,94932,4360,01,COGS-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,4:00PM,5:50PM,Alicia Ann Walf,Troy Building 2018,10,9,1,COGS,2024-01-08,2024-04-24,SPRING 2024,94933,4360,02,COGS-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+SOCIAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Tomasz Strzalkowski,Low Center for Industrial Inn. 3112,29,15,14,COGS,2024-01-08,2024-04-24,SPRING 2024,93943,4960,01,COGS-4960,Social Computing,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
+LANGUAGE LEARNING,LEC,4,MR,12:00PM,1:50PM,Marjorie McShane,Darrin Communications Center 236,12,11,1,COGS,2024-01-08,2024-04-24,SPRING 2024,94934,4961,01,COGS-4961,Language Learning,,,,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Ron Sun,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92568,6980,01,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Sergei Nirenburg,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92567,6980,02,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Mei Si,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,92714,6980,03,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Christopher Robert Sims,TBA,10,2,8,COGS,2024-01-08,2024-04-24,SPRING 2024,93534,6980,04,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Selmer Bringsjord,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,93852,6980,05,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Benjamin P. Weissman,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,93982,6980,06,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Brett R. Fajen,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,94057,6980,07,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Alicia Ann Walf,TBA,10,2,8,COGS,2024-01-08,2024-04-24,SPRING 2024,94318,6980,08,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Tomasz Strzalkowski,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,94543,6980,09,COGS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTERS THESIS,LEC,1-12,,,,Brett R. Fajen,TBA,10,1,9,COGS,2024-01-08,2024-04-24,SPRING 2024,92385,6990,02,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+MASTERS THESIS,LEC,1-12,,,,Sergei Nirenburg,TBA,10,0,10,COGS,2024-01-08,2024-04-24,SPRING 2024,94056,6990,06,COGS-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+COST-BENEFIT ANALYSIS,LEC,4,TF,2:00PM,3:50PM,Jianjing Lin,Ricketts Building 212,19,15,4,ECON,2024-01-08,2024-04-24,SPRING 2024,94923,4210,01,ECON-4210,COST-BENEFIT Analysis,"The techniques necessary to appraise the economic desirability and private-sector impact of various public projects and policies are studied. Concepts such as discounting, capital rationing, project selection, shadow pricing, risk assessment, unpriced goods, and economic surplus are developed. Among the topics from which illustrative case studies are drawn are urban and transport planning, energy, water resources, government regulation, and the environment.",Prerequisite: (ECON 1200 or INQR 1200 ) and MATH 2010,When Offered: fall and spring terms annually,"['ECON 1200', 'INQR 1200', 'MATH 2010']","['ECON 1200', 'INQR 1200', 'MATH 2010']","Humanities, Arts, and Social Sciences"
+APLD MICROECON & PUBLIC POLICY,LEC,3,MR,2:00PM,3:50PM,Heng Liu,Russell Sage Laboratory 4112,10,1,9,ECON,2024-01-08,2024-04-24,SPRING 2024,94922,6010,01,ECON-6010,Apld Microecon & Public Policy,"We study foundational theory for a diverse set of topics including models of consumer choice and decision-making, decisions under uncertainty and risk, firm strategy, market structure, information asymmetries, market failure, and intellectual property rights. Using this theory, we examine real world policy applications in areas such as innovation policy, environmental policy, international trade regulations, contract design, and insurance markets.",Experience with probability or statistics preferrable,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+APPLIED GAME THEORY,LEC,4,TF,10:00AM,11:50AM,Jianjing Lin,Low Center for Industrial Inn. 4034,19,15,4,ECON,2024-01-08,2024-04-24,SPRING 2024,94917,4220,01,ECON-4220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. It will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 2010.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 2010']","['ECON 1200', 'INQR 1200', 'MATH 2010']","Humanities, Arts, and Social Sciences"
+APPLIED GAME THEORY,LEC,4,MR,10:00AM,11:50AM,Heng Liu,Carnegie Building 205,19,17,2,ECON,2024-01-08,2024-04-24,SPRING 2024,94918,4220,02,ECON-4220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. It will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 2010.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 2010']","['ECON 1200', 'INQR 1200', 'MATH 2010']","Humanities, Arts, and Social Sciences"
+LABOR MRKTS & DISCRIMINATION,LEC,4,MR,10:00AM,11:50AM,Conor Lennon,Russell Sage Laboratory 3713,19,12,7,ECON,2024-01-08,2024-04-24,SPRING 2024,94916,4380,01,ECON-4380,Labor Mrkts & Discrimination,"This course examines how the US labor market works, addressing topics of labor supply and labor demand, theories of wage determination, employment benefits and regulations, how wage differentials develop and evolve, and the growing role of technology, automation, and artificial intelligence. We will pay special attention to the effects of discrimination, using economic theory and empirical methods to help us understand how gender, racial, and sexual minority discrimination affect earnings and employment. We will also examine the effects of education and skills training on wages and employment prospects, focusing on the effects of training in Science, Technology, Engineering, and Mathematics (STEM).",Prerequisites/Corequisites: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
+ENVIRONMENTAL ECONOMICS,LEC,4,MR,2:00PM,3:50PM,Robeny Bruno Nkuiya Mbakop,Low Center for Industrial Inn. 4034,19,19,0,ECON,2024-01-08,2024-04-24,SPRING 2024,94921,4230,01,ECON-4230,Environmental Economics,"Develops a critical understanding of environmental issues and policy from an interdisciplinary economics perspective. Covers the economics of environmental quality including the links between the economy and the environment, the causes of environmental problems, evaluation of environmental projects and policies, and policies to address environmental issues with an emphasis on efficiency, equity, and sustainability, and the international dimensions of environmental issues.",Prerequisite: ECON 1200 or INQR 1200; permission of instructor. ECON 2010 recommended.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200', 'ECON 2010']","['ECON 1200', 'INQR 1200', 'ECON 2010']","Humanities, Arts, and Social Sciences"
+ADV DATA ANALY & POLICY EVAL,LEC,3,MR,10:00AM,11:50AM,Rui Fan,Russell Sage Laboratory 2715,10,5,5,ECON,2024-01-08,2024-04-24,SPRING 2024,94155,6040,01,ECON-6040,Adv Data Analy & Policy Eval,"Covers advanced estimation and inference techniques for data analysis and policy evaluation. Topics will vary from year to year to introduce advanced statistical methods used in recent literature. Topics may include visualization techniques to summarize and display high dimensional data, selected topics in discrete choice models, spatial analysis, and analysis of panel data. Particularly, methods for panel data will be emphasized. This includes fixed, random, mixed, and multi-level effects models to control for or account for variation from individual characteristics. Dynamic panel data models consider lagged dependent variables as regressors.....",Prerequisites/Corequisites: ECON 6030 or permission of instructor.,When Offered: Spring term annually.,['ECON 6030'],['ECON 6030'],"Humanities, Arts, and Social Sciences"
+BEHAVIORAL ECONOMICS,LEC,3,MR,8:00AM,9:50AM,Ian S. Chadd,Greene Building 120,5,3,2,ECON,2024-01-08,2024-04-24,SPRING 2024,93861,6270,01,ECON-6270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECONOMICS OF GROWTH & INNOV,LEC,4,TF,2:00PM,3:50PM,Michael A. Klein,Russell Sage Laboratory 3205,19,9,10,ECON,2024-01-08,2024-04-24,SPRING 2024,94163,4430,01,ECON-4430,Economics Of Growth & Innov,"Dynamic models of national and international economic growth are introduced and analyzed. Technological innovation is central to growth, and models consider the endogenous determinants of technological innovation and diffusion. National institutions that affect growth, such as law, education, and infrastructure, are considered. Variation in intellectual property rights across countries are examined, together with their effects on economic growth and development. Theories of growth are compared to empirical fact.",Prerequisite: ECON 2010,When Offered: spring term annually,['ECON 2010'],['ECON 2010'],"Humanities, Arts, and Social Sciences"
+ECON OF INNOVATION & NEW TECH,LEC,3,MR,12:00PM,1:50PM,Kenneth L. Simons,Low Center for Industrial Inn. 4034,5,0,5,ECON,2024-01-08,2024-04-24,SPRING 2024,94158,6110,01,ECON-6110,Econ Of Innovation & New Tech,"Technological innovation is responsible for most economic growth and is crucial to deal with major societal concerns. This course examines the economics of innovation and new technologies. It shows how technologies are created and put to use, from basic science through invention and development to diffusion and practical use. Additional topics include R&D determinants, sources of innovation, product improvement, cost reduction, incentivizing and stimulating innovation, patents, evolution of innovation and technology, innovative competition in industry, and the national innovation environment.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECONOMETRIC METHODS-BIG DATA,LEC,3,TF,10:00AM,11:50AM,Huaming Peng,Russell Sage Laboratory 4112,5,0,5,ECON,2024-01-08,2024-04-24,SPRING 2024,94160,6280,01,ECON-6280,Econometric METHODS-BIG Data,"Examine advanced econometric and statistical methods for the analysis of high-dimensional data, otherwise known as ""Big Data."" In this setting, detailed information for each unit of observation informs machine learning techniques such as classification and regression trees; rECandom forests; penalized regressions; and boosted estimation. These prediction methods are then utilized to improve causal modeling, with applications in the study of healthcare demand and supply modeling, and behavior of consumers and businesses.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+APLD MICROECON & PUBLIC POLICY,LEC,4,MR,2:00PM,3:50PM,Heng Liu,Russell Sage Laboratory 4112,19,15,4,ECON,2024-01-08,2024-04-24,SPRING 2024,94911,4010,01,ECON-4010,Apld Microecon & Public Policy,"We study foundational theory for a diverse set of topics including models of consumer choice and decision-making, decisions under uncertainty and risk, firm strategy, market structure, information asymmetries, market failure, and intellectual property rights. Using this theory, we examine real world policy applications in areas such as innovation policy, environmental policy, international trade regulations, contract design, and insurance markets.",Prerequisite: ECON 2010,When Offered: Fall term annually,['ECON 2010'],['ECON 2010'],"Humanities, Arts, and Social Sciences"
+ECON OF BIOTECH & MED INNOV,LEC,3,MR,4:00PM,5:40PM,Vivek Ghosal,Russell Sage Laboratory 3205,5,1,4,ECON,2024-01-08,2024-04-24,SPRING 2024,94915,6290,01,ECON-6290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECON OF INNOVATION & NEW TECH,LEC,4,MR,12:00PM,1:50PM,Kenneth L. Simons,Low Center for Industrial Inn. 4034,19,19,0,ECON,2024-01-08,2024-04-24,SPRING 2024,94157,4110,01,ECON-4110,Econ Of Innovation & New Tech,"Technological innovation is responsible for most economic growth and is crucial to deal with major societal concerns. This course examines the economics of innovation and new technologies. It shows how technologies are created and put to use, from basic science through invention and development to diffusion and practical use. Additional topics include R&D determinants, sources of innovation, product improvement, cost reduction, incentivizing and stimulating innovation, patents, evolution of innovation and technology, innovative competition in industry, and the national innovation environment.","Prerequisites/Corequisites: INQR 1200 or ECON 1200, and MATH 1010 or MATH 1500.",When Offered: Fall term annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+ECONOMETRICS,LEC,4,MR,2:00PM,3:50PM,Rui Fan,Low Center for Industrial Inn. 4040,25,25,0,ECON,2024-01-08,2024-04-24,SPRING 2024,94161,4570,01,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
+ECONOMETRICS,LEC,4,MR,10:00AM,11:50AM,Huaming Peng,Russell Sage Laboratory 2707,25,20,5,ECON,2024-01-08,2024-04-24,SPRING 2024,93536,4570,02,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
+ECONOMETRICS,LEC,4,TF,10:00AM,11:50AM,Prakrati Thakur,Materials Research Center 136,25,5,20,ECON,2024-01-08,2024-04-24,SPRING 2024,94162,4570,03,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
+ECON OF GROWTH & INNOVATION,LEC,3,TF,2:00PM,3:50PM,Michael A. Klein,Russell Sage Laboratory 3205,10,3,7,ECON,2024-01-08,2024-04-24,SPRING 2024,93884,6130,01,ECON-6130,Econ Of Growth & Innovation,"Dynamic models of national and international economic growth are introduced and analyzed. Technological innovation is central to growth, and models consider the endogenous determinants of technological innovation and diffusion. National institutions that affect growth, such as law, education, and infrastructure, are considered. Variation in intellectual property rights across countries are examined, together with their effects on economic growth and development. Theories of growth are compared to empirical fact.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECON MODELS OF DECISION MAKING,LEC,3,MR,10:00AM,11:50AM,Robeny Bruno Nkuiya Mbakop,Russell Sage Laboratory 4203,5,0,5,ECON,2024-01-08,2024-04-24,SPRING 2024,94156,6320,01,ECON-6320,Econ Models Of Decision Making,"An exploration of models of decision-making under alternative assumptions, expanding on ""rational"" models of introductory economics. The course will discuss the assumptions of these standard models and their shortcomings. The shortcomings will be addressed through exploration of limited attention and considerations of fairness, uncertainty, and strategic interaction. Applications in areas such as consumer and household finance, marketing, and public policy will be emphasized throughout.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+BEHAVIORAL ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Ian S. Chadd,Greene Building 120,14,12,2,ECON,2024-01-08,2024-04-24,SPRING 2024,93860,4270,01,ECON-4270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1010 or MATH 1500.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL ECONOMICS,LEC,4,MR,8:00AM,9:50AM,Ian S. Chadd,Greene Building 120,5,4,1,ECON,2024-01-08,2024-04-24,SPRING 2024,94554,4270,02,ECON-4270,Behavioral Economics,"Integrates theory from psychology, neuroscience, and other social sciences into traditional economic models of human behavior. By relaxing the standard assumptions of perfect rationality and selfishness, more realistic modeling features such as loss aversion, present-bias, social norms, and habit formation improve economic analyses. These techniques are used to analyze individuals' health behaviors, health insurance markets, and healthcare policy.",Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1010 or MATH 1500.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","['ECON 1200', 'INQR 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL FINANCIAL ECON,LEC,3,MR,10:00AM,11:50AM,Billur Aksoy,Lally Hall 02,10,1,9,ECON,2024-01-08,2024-04-24,SPRING 2024,93909,6340,01,ECON-6340,Behavioral Financial Econ,"This course describes how individuals and firms make financial decisions, and how those decisions might deviate from those predicted by traditional financial or economic theory. The course examines how the insights of behavioral economics complement the traditional finance paradigm by introducing some of the main psychological biases in financial decision-making and examining the impacts of these biases in financial markets and other financial settings. It will also introduce students to behavioral and experimental methodologies in finance, economics, and other disciplines.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,TF,8:00AM,9:50AM,Robert W. Jones,Low Center for Industrial Inn. 4050,100,81,19,ECON,2024-01-08,2024-04-24,SPRING 2024,90038,2010,01,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. Product pricing strategies are examined. The course also provides an introduction to topics such as the pricing of stocks and bonds, game theory, positive and negative externalities, asymmetric information, and behavioral economics. Applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Regression analysis of demand and cost, linear programming of production and simulation analysis of risk, and capital budgeting are also presented.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,MR,6:00PM,7:50PM,Robert W. Jones,Darrin Communications Center 337,100,92,8,ECON,2024-01-08,2024-04-24,SPRING 2024,90065,2010,02,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. Product pricing strategies are examined. The course also provides an introduction to topics such as the pricing of stocks and bonds, game theory, positive and negative externalities, asymmetric information, and behavioral economics. Applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Regression analysis of demand and cost, linear programming of production and simulation analysis of risk, and capital budgeting are also presented.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,MR,10:00AM,11:50AM,Ian S. Chadd,Greene Building 120,60,55,5,ECON,2024-01-08,2024-04-24,SPRING 2024,94541,2010,03,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. Product pricing strategies are examined. The course also provides an introduction to topics such as the pricing of stocks and bonds, game theory, positive and negative externalities, asymmetric information, and behavioral economics. Applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Regression analysis of demand and cost, linear programming of production and simulation analysis of risk, and capital budgeting are also presented.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+MONEY & BANKING,LEC,4,MR,10:00AM,11:50AM,Sarah Marsden Greene,West Hall AUD,180,172,8,ECON,2024-01-08,2024-04-24,SPRING 2024,90074,4130,01,ECON-4130,Money & Banking,"Financial institutions, especially commercial banking and the Federal Reserve System, are considered from three perspectives: their monetary roles; trends in the economic, organizational, and technological aspects of their operations; and their other economic roles-a critical view. Also, the role of money in macroeconomic theory is considered along with the role of monetary policies in relation to the problems of inflation and unemployment.",Prerequisite: ECON 1200 or INQR 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+ECONOMETRIC METHODS-BIG DATA,LEC,4,TF,10:00AM,11:50AM,Huaming Peng,Russell Sage Laboratory 4112,14,8,6,ECON,2024-01-08,2024-04-24,SPRING 2024,94159,4280,01,ECON-4280,Econometric METHODS-BIG Data,"Examine advanced econometric and statistical methods for the analysis of high-dimensional data, otherwise known as ""Big Data."" In this setting, detailed information for each unit of observation informs machine learning techniques such as classification and regression trees; random forests; penalized regressions; and boosted estimation. These prediction methods are then utilized to improve causal modeling, with applications in the study of healthcare demand and supply modeling, and behavior of consumers and businesses.","Prerequisites/Corequisites: ECON 1200 or INQR 1200; and MATH 1500 or MATH 1010; and ENGR 2600, MGMT 2100, MATP 4600, or PSYC 2310.",When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200', 'MATH 1500', 'MATH 1010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310']","['ECON 1200', 'INQR 1200', 'MATH 1500', 'MATH 1010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310']","Humanities, Arts, and Social Sciences"
+ADV DATA ANALY & POLICY EVAL,LEC,4,MR,10:00AM,11:50AM,Rui Fan,Russell Sage Laboratory 2715,19,8,11,ECON,2024-01-08,2024-04-24,SPRING 2024,94912,4590,01,ECON-4590,Adv Data Analy & Policy Eval,"Covers advanced estimation and inference techniques for data analysis and policy evaluation. Topics will vary from year to year to introduce advanced statistical methods used in recent literature. Topics may include visualization techniques to summarize and display high dimensional data, selected topics in discrete choice models, spatial analysis, and analysis of panel data. Particularly, methods for panel data will be emphasized. This includes fixed, random, mixed, and multi-level effects models to control for or account for variation from individual characteristics. Dynamic panel data models consider lagged dependent variables as regressors.","Prerequisites: ECON 4570 and MATH 2010, or permission of instructor",When Offered: spring term annually,"['ECON 4570', 'MATH 2010']","['ECON 4570', 'MATH 2010']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MR,10:00AM,11:50AM,Mina Mahmoudi,Carnegie Building 210,36,26,10,ECON,2024-01-08,2024-04-24,SPRING 2024,92037,2020,01,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,TF,2:00PM,3:50PM,Huaming Peng,Russell Sage Laboratory 3101,59,56,3,ECON,2024-01-08,2024-04-24,SPRING 2024,92646,2020,02,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MR,2:00PM,3:50PM,Mina Mahmoudi,Troy Building 2012,55,38,17,ECON,2024-01-08,2024-04-24,SPRING 2024,93859,2020,03,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+ECON OF BIOTECH & MED INNOV,LEC,4,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,14,14,0,ECON,2024-01-08,2024-04-24,SPRING 2024,94913,4290,01,ECON-4290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+ECON OF BIOTECH & MED INNOV,LEC,4,MR,4:00PM,5:50PM,Vivek Ghosal,Russell Sage Laboratory 3205,5,1,4,ECON,2024-01-08,2024-04-24,SPRING 2024,94914,4290,02,ECON-4290,Econ Of Biotech & Med Innov,"Students will learn about markets related to healthcare, insurance, biopharmaceuticals, and medical devices. Examine economic issues, models and quantitative analysis related to firms' activities in areas such as innovation, R&D expenditures, patenting, pricing, mergers and acquisitions, and competition in markets. Examine the role played by health insurance systems. Study the economic implications of regulations, such as those by the U.S. FDA. Economic and policy aspects will be examined within the context of the U.S. healthcare sector, along with selected comparisons to European national healthcare systems.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+EXPERIMENTAL ECONOMICS,LEC,3,MR,12:00PM,1:50PM,Billur Aksoy,Lally Hall 02,10,3,7,ECON,2024-01-08,2024-04-24,SPRING 2024,93905,6360,01,ECON-6360,Experimental Economics,"This course explores human motivation and behavior across different settings and experimental paradigms. The course familiarizes students with previous work in selected topics in behavioral and experimental economics such as charitable giving, individual decision making and preferences, health, scarcity, and worker motivation. It also prepares students to design, implement and analyze their own economics experiments.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECON DATA ANALYSIS & APPLIC.,LEC,4,TF,12:00PM,1:50PM,Jason Ung Huh,Carnegie Building 205,25,24,1,ECON,2024-01-08,2024-04-24,SPRING 2024,94542,2100,01,ECON-2100,Econ Data Analysis & APPLIC.,"This course provides an introduction to economic data and analysis. There will be an emphasis on applications using data that pertain to various areas of economics, such as labor market, technology-related markets, economics of climate change, and healthcare sector. Students will learn basic statistical methods to analyze data and interpret current economic and policy issues.",Prerequisite: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
+ECON DATA ANALYSIS & APPLIC.,LEC,4,TF,2:00PM,3:50PM,Prakrati Thakur,Low Center for Industrial Inn. 4040,25,25,0,ECON,2024-01-08,2024-04-24,SPRING 2024,94910,2100,02,ECON-2100,Econ Data Analysis & APPLIC.,"This course provides an introduction to economic data and analysis. There will be an emphasis on applications using data that pertain to various areas of economics, such as labor market, technology-related markets, economics of climate change, and healthcare sector. Students will learn basic statistical methods to analyze data and interpret current economic and policy issues.",Prerequisite: INQR 1200 or ECON 1200,When Offered: Fall and spring terms annually,"['INQR 1200', 'ECON 1200']","['INQR 1200', 'ECON 1200']","Humanities, Arts, and Social Sciences"
+LAW & ECONOMICS,LEC,4,TF,10:00AM,11:50AM,Robert W. Jones,Low Center for Industrial Inn. 4050,19,18,1,ECON,2024-01-08,2024-04-24,SPRING 2024,93409,4310,01,ECON-4310,Law & Economics,"Market-based economies depend upon legal systems that establish and protect property rights. In this and many other instances the law is designed to encourage and support economic activity; in others it is designed to restrain certain types of otherwise rational economic behavior. This course will apply fundamental economic concepts, such as supply and demand, competition, monopoly, externalities, and Pareto efficiency to a range of legal topics, including contracts, torts, criminal, and intellectual property law to explain the economic motivation and consequences of the legal framework. For those students considering law school, this course offers an exposure to many of the legal concepts found in the first year law school curriculum.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+HEALTH ECONOMICS AND POLICY,LEC,3,TF,10:00AM,11:50AM,Jason Ung Huh,Carnegie Building 205,5,2,3,ECON,2024-01-08,2024-04-24,SPRING 2024,93642,6170,01,ECON-6170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ECON MODELS OF DECISION MAKING,LEC,4,MR,10:00AM,11:50AM,Robeny Bruno Nkuiya Mbakop,Russell Sage Laboratory 4203,19,8,11,ECON,2024-01-08,2024-04-24,SPRING 2024,93907,4320,01,ECON-4320,Econ Models Of Decision Making,"An exploration of models of decision-making under alternative assumptions, expanding on ""rational"" models of introductory economics. The course will discuss the assumptions of these standard models and their shortcomings. The shortcomings will be addressed through the exploration of limited attention and considerations of fairness, uncertainty, and strategic interaction. Applications in areas such as consumer and household finance, marketing, and public policy will be emphasized throughout.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+ADV INTL ECON & GLOBALIZATION,LEC,3,TF,12:00PM,1:50PM,Mina Mahmoudi,Low Center for Industrial Inn. 3130,5,0,5,ECON,2024-01-08,2024-04-24,SPRING 2024,93630,6190,01,ECON-6190,Adv Intl Econ & Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national governments and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the World Trade Organization and International Monetary Fund. The major controversies surrounding globalization are identified, and alternative arguments are evaluated based on available evidence.",,When Offered: Upon availability of instructor.,[],[],"Humanities, Arts, and Social Sciences"
+HEALTH ECONOMICS AND POLICY,LEC,4,TF,10:00AM,11:50AM,Jason Ung Huh,Carnegie Building 205,14,14,0,ECON,2024-01-08,2024-04-24,SPRING 2024,93643,4170,01,ECON-4170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,"Prerequisites/Corequisites: INQR 1200 or ECON 1200, and MATH 1010 or MATH 1500.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+HEALTH ECONOMICS AND POLICY,LEC,4,TF,10:00AM,11:50AM,Jason Ung Huh,Carnegie Building 205,5,2,3,ECON,2024-01-08,2024-04-24,SPRING 2024,94553,4170,02,ECON-4170,Health Economics And Policy,Examine various facets of the healthcare industry. Application of microeconomic theory and tools will be used to: analyze healthcare demand and supply; examine the impact of public policies; study market segments such as health insurance and pharmaceuticals; explore economic choices of healthcare professionals; identify potential socioeconomic and demographic determinants of health status and healthcare; and gain insights into issues related to the ongoing healthcare policy reform.,"Prerequisites/Corequisites: INQR 1200 or ECON 1200, and MATH 1010 or MATH 1500.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+ADV COST-BENEFIT ANALYSIS,LEC,3,TF,2:00PM,3:50PM,Jianjing Lin,Ricketts Building 212,5,0,5,ECON,2024-01-08,2024-04-24,SPRING 2024,94924,6210,01,ECON-6210,Adv COST-BENEFIT Analysis,"The techniques necessary to appraise the economic desirability and private-sector impact of various public projects and policies are studied. Concepts such as discounting, capital rationing, project selection, shadow pricing, risk assessment, unpriced goods, and economic surplus are developed. Among the topics from which illustrative case studies are drawn are urban and transport planning, energy, water resources, government regulation, and the environment. Suitable for graduate students in professional programs.",,When Offered: fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+BEHAVIORAL FINANCIAL ECON,LEC,4,MR,10:00AM,11:50AM,Billur Aksoy,Lally Hall 02,19,18,1,ECON,2024-01-08,2024-04-24,SPRING 2024,93908,4340,01,ECON-4340,Behavioral Financial Econ,"This course describes how individuals and firms make financial decisions, and how those decisions might deviate from those predicted by traditional financial or economic theory. The course examines how the insights of behavioral economics complement the traditional finance paradigm by introducing some of the main psychological biases in financial decision-making and examining the impacts of these biases in financial markets and other financial settings. It will also introduce students to behavioral and experimental methodologies in finance, economics, and other disciplines.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+APPLIED GAME THEORY,LEC,3,TF,10:00AM,11:50AM,Jianjing Lin,Low Center for Industrial Inn. 4034,5,2,3,ECON,2024-01-08,2024-04-24,SPRING 2024,94919,6220,01,ECON-6220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. Students will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+APPLIED GAME THEORY,LEC,3,MR,10:00AM,11:50AM,Heng Liu,Carnegie Building 205,5,1,4,ECON,2024-01-08,2024-04-24,SPRING 2024,94920,6220,02,ECON-6220,Applied Game Theory,"Game theory has been emerging as a branch of mathematical economics and applied to analyze situations where each decision-maker needs to think strategically about others' perspectives and actions in order to determine ones' own optimal choice. This course provides an introduction and presents selected topics in game theory. Students will look into basic definitions and equilibrium concepts and develop a wide range of applications in Economics, Biology, sports, health care, and various fields. The goal of the lecture is to improve understanding of strategic interaction in economic, business, and social situations.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTL ECONOMICS & GLOBALIZATION,LEC,4,TF,12:00PM,1:50PM,Mina Mahmoudi,Low Center for Industrial Inn. 3130,19,15,4,ECON,2024-01-08,2024-04-24,SPRING 2024,93631,4190,01,ECON-4190,Intl Economics & Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national government and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the world trade organization and international monetary fund. The major controversies surroundin globalization are identified, and alternative arguments are evaluated based on available evidence.",Prerequisite: ECON 1200 or INQR 1200 or permission of instructor.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+INTL ECONOMICS & GLOBALIZATION,LEC,4,TF,10:00AM,11:50AM,Michael A. Klein,Carnegie Building 208,25,24,1,ECON,2024-01-08,2024-04-24,SPRING 2024,94164,4190,02,ECON-4190,Intl Economics & Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national government and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the world trade organization and international monetary fund. The major controversies surroundin globalization are identified, and alternative arguments are evaluated based on available evidence.",Prerequisite: ECON 1200 or INQR 1200 or permission of instructor.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+EXPERIMENTAL ECONOMICS,LEC,4,MR,12:00PM,1:50PM,Billur Aksoy,Lally Hall 02,19,18,1,ECON,2024-01-08,2024-04-24,SPRING 2024,93885,4360,01,ECON-4360,Experimental Economics,"This course explores human motivation and behavior across different settings and experimental paradigms. The course familiarizes students with previous work in selected topics in behavioral and experimental economics such as charitable giving, individual decision making and preferences, health, scarcity, and worker motivation. It also prepares students to design, implement and analyze their own economics experiments.",Prerequisites/Corequisites: ECON 1200 or INQR 1200,When Offered: Spring term annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+GAME DEVELOPMENT II,LEC,4,W,1:00PM,4:50PM,Eric Louis Ameres/Yiyuan Zeng,Lally Hall 104,49,39,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,93645,4540,01,GSAS-4540,Game Development Ii,"This course follows Game Development I. Students work in interdisciplinary teams to create one large-scale 3D game, working from concept to public release. Projects may include games, educational games, serious games and simulations, and interactive artworks, and will focus on creative design, technical execution, and use of game design principles. The course builds on skills and knowledge in previous courses in the GSAS core, including game design, game mechanics, game programming, art, and narrative.",Prerequisite: GSAS 4520; or permission of instructor.,When Offered: Spring term annually.,['GSAS 4520'],['GSAS 4520'],"Humanities, Arts, and Social Sciences"
+ART FOR INTERACTIVE MEDIA,LEC,4,MR,2:00PM,3:50PM,Nina Stanley,West Hall 214,19,19,0,GSAS,2024-01-08,2024-04-24,SPRING 2024,93446,1040,01,GSAS-1040,Art For Interactive Media,"This course combines an introduction to traditional visual arts and digital media and serves as a foundation for work in game design and interactive art. Using studio projects that incorporate physical media, digital imaging and computer code, students develop their formal vocabulary, observational skills, and their understanding of issues in visual and interactive arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+ART FOR INTERACTIVE MEDIA,LEC,4,TF,2:00PM,3:50PM,Nina Stanley,West Hall 214,19,14,5,GSAS,2024-01-08,2024-04-24,SPRING 2024,93883,1040,02,GSAS-1040,Art For Interactive Media,"This course combines an introduction to traditional visual arts and digital media and serves as a foundation for work in game design and interactive art. Using studio projects that incorporate physical media, digital imaging and computer code, students develop their formal vocabulary, observational skills, and their understanding of issues in visual and interactive arts.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+GAME ARCHITECTURE,LEC,4,TF,10:00AM,11:50AM,Benjamin Chia-Ming Chang,Low Center for Industrial Inn. 3039,11,10,1,GSAS,2024-01-08,2024-04-24,SPRING 2024,94858,4550,01,GSAS-4550,Game Architecture,"This is a class on the composition of game engines, the substrate between hardware and scripting. Topics include entity/component systems, multithreading, event management, graphics and shader programming, rigid body dynamics, collision detection, multiplayer networking, audio, and other elements of modern game engines.",Prerequisite: CSCI 4530 or ECSE 4750,When Offered: Spring term annually.,"['CSCI 4530', 'ECSE 4750']","['CSCI 4530', 'ECSE 4750']","Humanities, Arts, and Social Sciences"
+HISTORY AND CULTURE OF GAMES,LEC,4,TF,8:00AM,9:50AM,Brandi Lee Ann Brace,Russell Sage Laboratory 4711,19,21,-2,GSAS,2024-01-08,2024-04-24,SPRING 2024,93488,1600,01,GSAS-1600,History And Culture Of Games,"This course surveys 5000 years of game history, from ancient Sumer/Sumerian to the latest next-generation consoles and MMOGs. In parallel with this historical tour, several major theories will be examined about the nature of play and the nature of games. Along the way, it will also look at how games and play influence the cultures they are found in, and how culture in turn influences how people structure their leisure time will also be considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+HISTORY AND CULTURE OF GAMES,LEC,4,TF,2:00PM,3:50PM,Brandi Lee Ann Brace,West Hall 112,19,20,-1,GSAS,2024-01-08,2024-04-24,SPRING 2024,94852,1600,02,GSAS-1600,History And Culture Of Games,"This course surveys 5000 years of game history, from ancient Sumer/Sumerian to the latest next-generation consoles and MMOGs. In parallel with this historical tour, several major theories will be examined about the nature of play and the nature of games. Along the way, it will also look at how games and play influence the cultures they are found in, and how culture in turn influences how people structure their leisure time will also be considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PSYCHOLOGY OF GAMES,LEC,4,MR,10:00AM,11:50AM,Ralph G Noble,Russell Sage Laboratory 4510,19,6,13,GSAS,2024-01-08,2024-04-24,SPRING 2024,94586,4960,01,GSAS-4960,Psychology Of Games,,,,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Eric Louis Ameres,TBA,10,1,9,GSAS,2024-01-08,2024-04-24,SPRING 2024,94319,6980,01,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Robert F. Nideffer,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94321,6980,03,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Kathleen Ruiz,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94322,6980,04,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Silvia Ruzanka,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94323,6980,05,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Mei Si,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94324,6980,06,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Benjamin Chia-Ming Chang,TBA,10,1,9,GSAS,2024-01-08,2024-04-24,SPRING 2024,94544,6980,07,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Kathleen A. Galloway,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94545,6980,08,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,James Wilson Malazita,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94546,6980,09,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+MASTER'S PROJECT,LEC,1-9,,,,Maurice W Suckling,TBA,10,2,8,GSAS,2024-01-08,2024-04-24,SPRING 2024,94547,6980,10,GSAS-6980,MASTER'S Project,"The CGD Master's Project is an independent, individual student project undertaken throughout the student's Master's education. Master's Projects include a production aspect, such as a deliverable game, interactive installation, or tech demo, as well as a written document that firmly establishes the project's methods and grounding as research-driven through an academic literature review and design document. The design document and literature review may pull from disciplines that contribute to game design, including, but not limited to, Visual Arts, Humanities and Media Studies, Social Science, Psychology, and Computer Science. The student will be advised by a member of the GSAS faculty. A committee of the student's advisor, a second GSAS faculty member, and a third faculty member from outside the program or Institution will approve the student's Master's Proposal document, which contains the literature review and design proposal, and is to be completed no later than the end of the first Master's semester.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+GAME ANIMATION,LEC,4,TF,12:00PM,1:50PM,Silvia Ruzanka,Russell Sage Laboratory 2411,19,14,5,GSAS,2024-01-08,2024-04-24,SPRING 2024,94854,4230,01,GSAS-4230,Game Animation,"A course building on the fundamentals of animation and focusing on implementing these fundamentals in the process of making games for 3D engines like Unreal, which involves hand-keyed cycle animation as well as utilizing motion capture data.",Prerequisites/Corequisites: ARTS 2230,When Offered: spring term annually,['ARTS 2230'],['ARTS 2230'],"Humanities, Arts, and Social Sciences"
+TOPICS IN GAMES RESEARCH,LEC,4,MR,12:00PM,1:50PM,Mei Si,Carnegie Building 102,19,5,14,GSAS,2024-01-08,2024-04-24,SPRING 2024,94862,4961,01,GSAS-4961,Topics In Games Research,,,,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Kathleen Ruiz,TBA,10,1,9,GSAS,2024-01-08,2024-04-24,SPRING 2024,94863,9990,01,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Robert F. Nideffer,TBA,10,4,6,GSAS,2024-01-08,2024-04-24,SPRING 2024,94331,9990,02,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Benjamin Chia-Ming Chang,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94548,9990,03,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,James Wilson Malazita,TBA,10,1,9,GSAS,2024-01-08,2024-04-24,SPRING 2024,94549,9990,04,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Silvia Ruzanka,TBA,10,1,9,GSAS,2024-01-08,2024-04-24,SPRING 2024,94550,9990,05,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+DISSERTATION,LEC,1-15,,,,Maurice W Suckling,TBA,10,0,10,GSAS,2024-01-08,2024-04-24,SPRING 2024,94551,9990,06,GSAS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME STORYTELLING,LEC,4,TF,10:00AM,11:50AM,Brandi Lee Ann Brace,Russell Sage Laboratory 2715,19,20,-1,GSAS,2024-01-08,2024-04-24,SPRING 2024,94166,2520,01,GSAS-2520,Intro To Game Storytelling,"This course is designed to provide an overview of the art of effective story development. Students will come away with a heightened awareness of the structures and principles that master storytellers apply to their craft in games and other popular media. It is intended for all GSAS majors and other interested students, as well as the prerequisite for the GSAS concentration in Writing.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME STORYTELLING,LEC,4,TF,2:00PM,3:50PM,Gregory Orlando,Low Center for Industrial Inn. 3130,19,18,1,GSAS,2024-01-08,2024-04-24,SPRING 2024,94853,2520,02,GSAS-2520,Intro To Game Storytelling,"This course is designed to provide an overview of the art of effective story development. Students will come away with a heightened awareness of the structures and principles that master storytellers apply to their craft in games and other popular media. It is intended for all GSAS majors and other interested students, as well as the prerequisite for the GSAS concentration in Writing.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+WRITING FOR GAMES I,LEC,4,MR,8:00AM,9:50AM,Gregory Orlando,Low Center for Industrial Inn. 3112,19,12,7,GSAS,2024-01-08,2024-04-24,SPRING 2024,94855,4240,01,GSAS-4240,Writing For Games I,"This is the second course in the central track of the Writing concentration for GSAS students. In this project-intensive course, students will learn and practice basic, in-the-trenches writing and narrative development for games, including story outlines, cutscenes, scripted dialogue, systemic dialogue, and mission writing and design, across multiple game types and narrative genres.","Prerequisites: GSAS 2520 or WRIT 2330, or permission of instructor.",When Offered: Spring term annually.,"['GSAS 2520', 'WRIT 2330']","['GSAS 2520', 'WRIT 2330']","Humanities, Arts, and Social Sciences"
+INTRO TO GAME PROGRAMMING,LEC,4,MR,10:00AM,11:50AM,Yiyuan Zeng,Russell Sage Laboratory 2411,22,23,-1,GSAS,2024-01-08,2024-04-24,SPRING 2024,93489,2540,01,GSAS-2540,Intro To Game Programming,"This hands-on class introduces many fundamental concepts in game development. Students will learn to program multiple video games. Topics include render loops, rigid body dynamics, interfaces, event and messaging systems, and co-routines.",,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO GAME PROGRAMMING,LEC,4,MR,2:00PM,3:50PM,Yiyuan Zeng,Russell Sage Laboratory 2510,22,21,1,GSAS,2024-01-08,2024-04-24,SPRING 2024,93735,2540,02,GSAS-2540,Intro To Game Programming,"This hands-on class introduces many fundamental concepts in game development. Students will learn to program multiple video games. Topics include render loops, rigid body dynamics, interfaces, event and messaging systems, and co-routines.",,When Offered: Fall or spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+WRITING FOR GAMES II,LEC,4,MR,12:00PM,1:50PM,Maurice W Suckling,Russell Sage Laboratory 3705,19,5,14,GSAS,2024-01-08,2024-04-24,SPRING 2024,94560,4250,01,GSAS-4250,Writing For Games Ii,"This is the third course in the central track of the Writing concentration for GSAS students. In this course, students gain exposure to elements of the bigger creative picture, including intellectual property (IP) development, world-building, and original character design. Students also continue to refine their competency in game writing essentials while exploring complex game narrative challenges such as branching, open-world, and other non-linear structures.",Prerequisites/Corequisites: GSAS 4240,When Offered: Fall term annually.,['GSAS 4240'],['GSAS 4240'],"Humanities, Arts, and Social Sciences"
+GAME NARRATIVE DESIGN,LEC,4,MR,10:00AM,11:50AM,Gregory Orlando,Darrin Communications Center 239,19,7,12,GSAS,2024-01-08,2024-04-24,SPRING 2024,94170,4260,01,GSAS-4260,Game Narrative Design,Game Narrative Design moves the focus more squarely onto the design elements of game writing - most especially integration with gameplay design structure - and away from line-by-line writing.​,Prerequisite: GSAS 2520,When Offered: Spring term annually.,['GSAS 2520'],['GSAS 2520'],"Humanities, Arts, and Social Sciences"
+GSAS CAPSTONE,LEC,4,MR,10:00AM,11:50AM,Maurice W Suckling,Russell Sage Laboratory 4711,19,20,-1,GSAS,2024-01-08,2024-04-24,SPRING 2024,94167,4990,01,GSAS-4990,Gsas Capstone,"Senior capstone project course for GSAS majors. Students work individually or in teams, supervised by a faculty member, to complete a self-directed project in games that is innovative, experimental, or artistically engaged. The course emphasizes the complete development cycle, through continual iteration and critique towards completion and public release.",Prerequisites/Corequisites: GSAS 4510,When Offered: Fall and spring terms annually,['GSAS 4510'],['GSAS 4510'],"Humanities, Arts, and Social Sciences"
+TOPICS IN GAME RESEARCH,LEC,3,MR,12:00PM,1:50PM,Mei Si,Carnegie Building 102,19,14,5,GSAS,2024-01-08,2024-04-24,SPRING 2024,94168,6200,01,GSAS-6200,Topics In Game Research,"Topics in Games Research is a special topics course for the Critical Game Design MS and PhD program in which students are exposed to cutting-edge research being conducted by faculty, learn advanced scholarly research methods, and experience a research-infused pedagogy. The content of this course will shift each semester, reflecting the research focus of the faculty member who offers it. This course may also be used to develop new curriculum. May be taken multiple times for credit.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+EXPERIMENTAL GAME DESIGN,LEC,4,W,2:00PM,5:50PM,Kathleen Ruiz,Russell Sage Laboratory 2411,19,11,8,GSAS,2024-01-08,2024-04-24,SPRING 2024,93490,4510,01,GSAS-4510,Experimental Game Design,"Experimental Game Design is an upper level studio arts course focusing on the creation of innovative, workable game prototypes using a variety of interactive multimedia. Games are considered as a new genre and are analyzed as cultural artifacts. The aesthetics of game design including character development, level design, game play experience, and delivery systems are covered. Flow, game theory, and game play gestalt are considered. Alternate gaming paradigms and emerging forms are encouraged.",Prerequisites: GSAS 4540 or CSCI 4540,When Offered: Fall and spring terms annually.,['GSAS 4540'],['GSAS 4540'],"Humanities, Arts, and Social Sciences"
+ADVANCED GAME DESIGN,LEC,3,MR,8:00AM,9:30AM,Eric Louis Ameres,Russell Sage Laboratory 2510,19,13,6,GSAS,2024-01-08,2024-04-24,SPRING 2024,94628,6500,01,GSAS-6500,Advanced Game Design,"Advanced Game Design/User-Experience Methods is a blended theory and production studio course where students apply critical theory towards the design of games. The course provides students with the opportunity to design and develop their own game concepts, and also gives students foundational design principles ranging from user experience design, human-computer interaction, co- design, and product testing. The goal of the course is for students to acquire critical design and evaluation skills for the understanding and creating digital artifacts that will remain valid over a long period of technological innovation, equipping them to design for the post-VR landscape and beyond.",,When Offered: spring term annually,[],[],"Humanities, Arts, and Social Sciences"
+ANIMAL COGNITION&INTER W/HUMAN,LEC,4,MR,2:00PM,3:50PM,Marjorie McShane,Darrin Communications Center 236,30,15,15,PSYC,2024-01-08,2024-04-24,SPRING 2024,94281,4220,01,PSYC-4220,Animal COGNITION&INTER W/HUMAN,"In this course, students will deepen their understanding of research principles and experimental practices in cognitive and behavioral science, and they will gain experience in applying concepts often discussed in human-oriented contexts (e.g., learning, theory of mind) to the animal world. In addition, they will be prepared to participate in revolutionizing our treatment of both the animals and the people with whom we share our lives.","Prerequisite: One of the following: PSYC 1200, COGS 2120, COGS 2340, COGS 4330, or PSYC 4370","When Offered: Spring term, even-numbered years.","['PSYC 1200', 'COGS 2120', 'COGS 2340', 'COGS 4330', 'PSYC 4370']","['PSYC 1200', 'COGS 2120', 'COGS 2340', 'COGS 4330', 'PSYC 4370']","Humanities, Arts, and Social Sciences"
+ABNORMAL PSYCHOLOGY,LEC,4,MR,2:00PM,3:50PM,Sonja Ann Miller,Voorhees Computing Center SO,15,14,1,PSYC,2024-01-08,2024-04-24,SPRING 2024,94983,4720,01,PSYC-4720,Abnormal Psychology,"The definition, history, major schools of thought, and models of the normal and abnormal personality are presented. Disorders are examined within the framework of D.S.M. and competing schools of thought. The description, etiology, treatment, including pharmacologic, and prevention of each of the disorders are considered. Illustrative cases are presented. Students write a paper on a topic, approved by the instructor, that focuses upon the impact of public policies on psychopathology.",Prerequisite: PSYC 1200.,When Offered: Fall and spring terms annually,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+ABNORMAL PSYCHOLOGY,LEC,4,MR,2:00PM,3:50PM,Sonja Ann Miller,Voorhees Computing Center SO,4,5,-1,PSYC,2024-01-08,2024-04-24,SPRING 2024,94984,4720,02,PSYC-4720,Abnormal Psychology,"The definition, history, major schools of thought, and models of the normal and abnormal personality are presented. Disorders are examined within the framework of D.S.M. and competing schools of thought. The description, etiology, treatment, including pharmacologic, and prevention of each of the disorders are considered. Illustrative cases are presented. Students write a paper on a topic, approved by the instructor, that focuses upon the impact of public policies on psychopathology.",Prerequisite: PSYC 1200.,When Offered: Fall and spring terms annually,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+CRITICAL THINKING,LEC,4,MR,2:00PM,3:50PM,John R Milanese/Bram Van Heuveln,Darrin Communications Center 324,40,38,2,PSYC,2024-01-08,2024-04-24,SPRING 2024,90308,2100,01,PSYC-2100,Critical Thinking,"This course provides tools for the identification, analysis, and evaluation of the various patterns of reasoning as they occur in the real world. Patterns of reasoning include deductive reasoning, inductive reasoning, scientific reasoning, statistical reasoning, and causal reasoning. The course also covers some basic psychology and sociology of reasoning and belief and concludes with a critical discussion of science and the scientific method.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+POSITIVE PSYCHOLOGY,LEC,4,TF,2:00PM,3:50PM,Holly A Traver,Russell Sage Laboratory 3510,120,118,2,PSYC,2024-01-08,2024-04-24,SPRING 2024,93267,4730,01,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+POSITIVE PSYCHOLOGY,LEC,4,TF,2:00PM,3:50PM,Holly A Traver,Russell Sage Laboratory 3510,40,40,0,PSYC,2024-01-08,2024-04-24,SPRING 2024,93403,4730,02,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+RESEARCH METHODS AND STATISTICS I,LEC,4,MR,10:00AM,11:50AM,Lucy Cui,Darrin Communications Center 235,9,10,-1,PSYC,2024-01-08,2024-04-24,SPRING 2024,93638,2310,01,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+RESEARCH METHODS AND STATISTICS I,LEC,4,MR,10:00AM,11:50AM,Lucy Cui,Darrin Communications Center 235,10,11,-1,PSYC,2024-01-08,2024-04-24,SPRING 2024,93866,2310,02,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+MATH METHODS IN PSYC SCI,LEC,4,TF,2:00PM,3:50PM,Christopher Robert Sims,Russell Sage Laboratory 5510,9,13,-4,PSYC,2024-01-08,2024-04-24,SPRING 2024,93911,4350,01,PSYC-4350,Math Methods In Psyc Sci,"This course will provide students with a systematic overview of practical and important mathematical tools and skills used in modern psychological sciences. Students completing the course will gain experience using mathematical tools drawn from diverse fields including calculus, linear algebra, probability theory, nonlinear optimization, and other closely related disciplines. Rather than providing complete coverage of each field or focusing on formal proofs, the goal will be to provide students with the essential elements necessary to understand and use these tools to solve current and outstanding problems in the field today. This class will be hands-on, using examples drawn from across the cognitive sciences. Students will also gain experience implementing mathematical models in the R programming language.","Prerequisites: PSYC 1200, CSCI 1100 and PSYC 4310 or COGS 2120.",When Offered: Spring term annually.,"['PSYC 1200', 'CSCI 1100', 'PSYC 4310', 'COGS 2120']","['PSYC 1200', 'CSCI 1100', 'PSYC 4310', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+MATH METHODS IN PSYC SCI,LEC,4,TF,2:00PM,3:50PM,Christopher Robert Sims,Russell Sage Laboratory 5510,10,6,4,PSYC,2024-01-08,2024-04-24,SPRING 2024,93912,4350,02,PSYC-4350,Math Methods In Psyc Sci,"This course will provide students with a systematic overview of practical and important mathematical tools and skills used in modern psychological sciences. Students completing the course will gain experience using mathematical tools drawn from diverse fields including calculus, linear algebra, probability theory, nonlinear optimization, and other closely related disciplines. Rather than providing complete coverage of each field or focusing on formal proofs, the goal will be to provide students with the essential elements necessary to understand and use these tools to solve current and outstanding problems in the field today. This class will be hands-on, using examples drawn from across the cognitive sciences. Students will also gain experience implementing mathematical models in the R programming language.","Prerequisites: PSYC 1200, CSCI 1100 and PSYC 4310 or COGS 2120.",When Offered: Spring term annually.,"['PSYC 1200', 'CSCI 1100', 'PSYC 4310', 'COGS 2120']","['PSYC 1200', 'CSCI 1100', 'PSYC 4310', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,4:00PM,5:50PM,Alicia Ann Walf,Troy Building 2018,10,13,-3,PSYC,2024-01-08,2024-04-24,SPRING 2024,94930,4360,01,PSYC-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,4:00PM,5:50PM,Alicia Ann Walf,Troy Building 2018,10,10,0,PSYC,2024-01-08,2024-04-24,SPRING 2024,94931,4360,02,PSYC-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+RESEARCH IN PSYCHOLOGY,LEC,1,,,,Lucy Cui,TBA,1,1,0,PSYC,2024-01-08,2024-04-24,SPRING 2024,95424,2940,03,PSYC-2940,Research In Psychology,,,,[],[],"Humanities, Arts, and Social Sciences"
+COGNITIVE PSYCHOLOGY,LEC,4,MR,10:00AM,11:50AM,Stefan Tomov Radev,Low Center for Industrial Inn. 4050,60,60,0,PSYC,2024-01-08,2024-04-24,SPRING 2024,93867,4370,01,PSYC-4370,Cognitive Psychology,"The focus of this course is on the flow of information from sensory input to retrieval from long-term memory. Within this framework, topics such as mnemonics, pattern recognition, attention, computer simulation, reasoning, and the relationship between culture and thought are discussed.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Fall and spring terms annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+COGNITIVE PSYCHOLOGY,LEC,4,MR,10:00AM,11:50AM,Stefan Tomov Radev,Low Center for Industrial Inn. 4050,20,19,1,PSYC,2024-01-08,2024-04-24,SPRING 2024,94896,4370,02,PSYC-4370,Cognitive Psychology,"The focus of this course is on the flow of information from sensory input to retrieval from long-term memory. Within this framework, topics such as mnemonics, pattern recognition, attention, computer simulation, reasoning, and the relationship between culture and thought are discussed.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Fall and spring terms annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+PSYCHOLOGY OF MINDFULNESS,LEC,4,TF,8:00AM,9:50AM,Holly A Traver,Lally Hall 102,14,16,-2,PSYC,2024-01-08,2024-04-24,SPRING 2024,93887,4430,01,PSYC-4430,Psychology Of Mindfulness,"Mindfulness involves giving particular attention to our moment-to-moment experiences in a way that emphasizes observing, rather than judging or evaluating. There is empirical evidence of the many health benefits of mindfulness meditation, including the potential to produce fundamental changes in brain structure and epigenetic change. In this class, participants will discuss the historical and psychological foundations of mindfulness and empirical findings supporting its positive effects. Students will participate in structured exercises. This course is a very hands-on approach to mindfulness. Students will be required to practice mindfulness and meditation and develop their mindful skills.",,When Offered: Fall and summer terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+PSYCHOLOGY OF MINDFULNESS,LEC,4,TF,8:00AM,9:50AM,Holly A Traver,Lally Hall 102,5,6,-1,PSYC,2024-01-08,2024-04-24,SPRING 2024,93888,4430,02,PSYC-4430,Psychology Of Mindfulness,"Mindfulness involves giving particular attention to our moment-to-moment experiences in a way that emphasizes observing, rather than judging or evaluating. There is empirical evidence of the many health benefits of mindfulness meditation, including the potential to produce fundamental changes in brain structure and epigenetic change. In this class, participants will discuss the historical and psychological foundations of mindfulness and empirical findings supporting its positive effects. Students will participate in structured exercises. This course is a very hands-on approach to mindfulness. Students will be required to practice mindfulness and meditation and develop their mindful skills.",,When Offered: Fall and summer terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+PSYCHOLOGY OF GAMES,LEC,4,MR,10:00AM,11:50AM,Ralph G Noble,Russell Sage Laboratory 4510,9,12,-3,PSYC,2024-01-08,2024-04-24,SPRING 2024,94587,4960,01,PSYC-4960,Psychology Of Games,An advanced course concerned with selected topics in psychology.,Prerequisite: PSYC 1200 or permission of instructor.,,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+INTRO TO PSYCHOLOGICAL SCIENCE,LEC,4,MR,2:00PM,3:50PM,Lucy Cui,Russell Sage Laboratory 3303,240,194,46,PSYC,2024-01-08,2024-04-24,SPRING 2024,90073,1200,01,PSYC-1200,Intro To Psychological Science,"This course embraces the science of psychology. The aim is for students to learn how using the scientific method provides important insights about mind, brain, and behavior. This course integrates research on neuroscience throughout all the standard topics in an introductory course in psychology. The course presents advances across all subfields of psychology. In addition to standard exams, there are online assignments for each chapter and online laboratory experiences.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO PSYCHOLOGICAL SCIENCE,LEC,4,MR,4:00PM,5:50PM,Lucy Cui,Russell Sage Laboratory 3303,240,213,27,PSYC,2024-01-08,2024-04-24,SPRING 2024,90037,1200,02,PSYC-1200,Intro To Psychological Science,"This course embraces the science of psychology. The aim is for students to learn how using the scientific method provides important insights about mind, brain, and behavior. This course integrates research on neuroscience throughout all the standard topics in an introductory course in psychology. The course presents advances across all subfields of psychology. In addition to standard exams, there are online assignments for each chapter and online laboratory experiences.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+STRESS AND THE BRAIN,LEC,4,TF,12:00PM,1:50PM,Alicia Ann Walf,Russell Sage Laboratory 3704,4,6,-2,PSYC,2024-01-08,2024-04-24,SPRING 2024,92457,4610,01,PSYC-4610,Stress And The Brain,"This seminar course is a detailed examination of the mind-brain relationship, through study of the stress response. Stress is simply defined as any challenge to an individual's homeostasis, or balance. This course will explore the neurobiological underpinnings of the stress response, with particular focus on how stressors can alter perception, affective and cognitive processing in the individual, which can in turn feedback to alter the general health of the individual (body and mind/brain).",Prerequisite: PSYC 1200 or permission of instructor.,When Offered: Spring term annually.,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+STRESS AND THE BRAIN,LEC,4,TF,12:00PM,1:50PM,Alicia Ann Walf,Russell Sage Laboratory 3704,8,10,-2,PSYC,2024-01-08,2024-04-24,SPRING 2024,94928,4610,02,PSYC-4610,Stress And The Brain,"This seminar course is a detailed examination of the mind-brain relationship, through study of the stress response. Stress is simply defined as any challenge to an individual's homeostasis, or balance. This course will explore the neurobiological underpinnings of the stress response, with particular focus on how stressors can alter perception, affective and cognitive processing in the individual, which can in turn feedback to alter the general health of the individual (body and mind/brain).",Prerequisite: PSYC 1200 or permission of instructor.,When Offered: Spring term annually.,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+INDUSTRIAL & ORG'L PSYCHOLOGY,LEC,4,TF,10:00AM,11:50AM,Holly A Traver,Lally Hall 102,60,58,2,PSYC,2024-01-08,2024-04-24,SPRING 2024,94317,4200,01,PSYC-4200,Industrial & ORG'L Psychology,"A broad introduction to the field of Industrial and Organizational Psychology. Topics covered include personnel selection, job analysis, training, performance appraisal, work-related attitudes, employee motivation, leadership, decision making, and organizational theory.",Prerequisite: PSYC 1200.,When Offered: Spring term annually.,['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+XINFORMATICS,LEC,3,W,9:00AM,11:50AM,Thilanka Munasinghe,Pittsburgh Building 4114,24,9,15,ITWS,2024-01-08,2024-04-24,SPRING 2024,92459,6400,01,ITWS-6400,Xinformatics,"Informatics covers a broad range of disciplines addressing challenges in the explosion of data and information resources. X-informatics provides commonality for implementations in specific disciplines, e.g. X=astro, geo. Informatics' theoretical bases are information and computer science, cognitive science, social science, library science, aggregating these studies and adding the practice of information processing and the engineering of information systems. This course grounds the material that students will learn in discipline areas by coursework and project assignments.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+ETHICAL INFORMATICS,LEC,4,MR,2:00PM,3:50PM,Kathleen Sturey Fontaine,Carnegie Building 205,25,7,18,ITWS,2024-01-08,2024-04-24,SPRING 2024,94576,4960,01,ITWS-4960,Ethical Informatics,,,,[],[],Information Technology and Web Science
+BIG DATA POLICY,LEC,3,W,12:00PM,2:50PM,Kathleen Sturey Fontaine,Russell Sage Laboratory 2704,30,6,24,ITWS,2024-01-08,2024-04-24,SPRING 2024,94240,6440,01,ITWS-6440,Big Data Policy,"Although the term ‘big data' is relatively new on the scene, the idea of collecting, protecting, and sharing large data sets has been around since before computers were a major player. Similarly, the concept of a ‘policy,' high-level guidelines providing a general course of action (or inaction) in a given area, is not new. Putting those two concepts together, however, is a recent phenomenon which has created a set of intriguing challenges. What is ‘open data?' What does it mean to ‘share' data? Who makes such policies and how are they implemented? Do data policies look the same all over the world? What are the economic, cultural, and technological implications/impacts of/on a given data policy? How would one even go about understanding and evaluating a data policy? This course takes the basics of policy design and analysis, blends in critical thinking skills, ethics, group dynamics, national perspectives, and international perspectives, and applies it all to the world of big data.",,When Offered: Fall term annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,MR,12:00PM,1:50PM,Richard M. Plotka,Lally Hall 102,30,30,0,ITWS,2024-01-08,2024-04-24,SPRING 2024,93407,1100,01,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,M,6:00PM,7:50PM,TBA,Lally Hall 102,30,30,0,ITWS,2024-01-08,2024-04-24,SPRING 2024,93407,1100,01,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,M,12:00PM,1:50PM,Richard M. Plotka,Lally Hall 102,30,28,2,ITWS,2024-01-08,2024-04-24,SPRING 2024,94632,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,M,6:00PM,7:50PM,TBA,Lally Hall 102,30,28,2,ITWS,2024-01-08,2024-04-24,SPRING 2024,94632,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INTRO TO IT & WEB SCIENCE,LEC,4,R,10:00AM,11:50AM,TBA,Lally Hall 102,30,28,2,ITWS,2024-01-08,2024-04-24,SPRING 2024,94632,1100,02,ITWS-1100,Intro To It & Web Science,"This course introduces students to the field of information technology and Web science, the types of problems encountered in the field, and the solution approaches used to solve them. Through a series of activities and projects, students are introduced to topics such as Web systems design, emerging Web standards, database systems, security, and computer networking. Guest speakers highlight information technology practices in industry. Students work in groups on a team project and presentation at the end of the course.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+IT & WEB SCIENCE CAPSTONE,LEC,4,MR,4:00PM,5:50PM,Kevin R. Stewart,Lally Hall 102,26,12,14,ITWS,2024-01-08,2024-04-24,SPRING 2024,92216,4100,01,ITWS-4100,It & Web Science Capstone,"Students work on collaborative projects to design innovative ITWS solutions which address a specific problem or area of need in the student's field. Students work to identify a problem and research viable solutions. They go on to propose, design, and prototype their ITWS solution learning best practices for ITWS project management, communication, and user-center design. This course serves as the culminating experience for the undergraduate ITWS program. Restricted to ITWS majors. This is a communication-intensive course.",Prerequisites: ITWS 2210 and ITWS 4310.,When Offered: Fall and spring terms annually.,"['ITWS 2210', 'ITWS 4310']","['ITWS 2210', 'ITWS 4310']",Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Thilanka Munasinghe,Lally Hall 104,15,5,10,ITWS,2024-01-08,2024-04-24,SPRING 2024,93005,6600,01,ITWS-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather then individual analyses or analysis steps.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Thilanka Munasinghe,Lally Hall 104,15,4,11,ITWS,2024-01-08,2024-04-24,SPRING 2024,93529,6600,02,ITWS-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather then individual analyses or analysis steps.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+SOFTWARE DEVELOPMENT,LEC,3,W,2:00PM,4:50PM,Richard M. Plotka,Lally Hall 02,24,19,5,ITWS,2024-01-08,2024-04-24,SPRING 2024,94805,6700,01,ITWS-6700,Software Development,"This course teaches students about the roles and infrastructure of IT departments in modern organizations, IT software engineering technologies and methodologies for software development life cycle through hands-on experience. The course is for students with software development background to enhance their knowledge of software development and management, the software development industry, open source community, etc.","Prerequisites: Programming languages (Java, or C#, or C++, and Script, XML, SQL), concepts of OO and design patterns, and basics of IDE.",When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+IT & SOCIETY,LEC,4,TF,10:00AM,10:50AM,Katherine Anne Tyrol/Justin Dowdall,Russell Sage Laboratory 3510,19,20,-1,ITWS,2024-01-08,2024-04-24,SPRING 2024,92036,1220,01,ITWS-1220,It & Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT & SOCIETY,LEC,4,TF,11:00AM,11:50AM,Justin Dowdall/Katherine Anne Tyrol,Russell Sage Laboratory 3510,19,20,-1,ITWS,2024-01-08,2024-04-24,SPRING 2024,92036,1220,01,ITWS-1220,It & Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT & SOCIETY,LEC,4,TF,10:00AM,10:50AM,Katherine Anne Tyrol/Justin Dowdall,Russell Sage Laboratory 3510,19,19,0,ITWS,2024-01-08,2024-04-24,SPRING 2024,93179,1220,02,ITWS-1220,It & Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT & SOCIETY,LEC,4,TF,11:00AM,11:50AM,Justin Dowdall/Katherine Anne Tyrol,West Hall 112,19,19,0,ITWS,2024-01-08,2024-04-24,SPRING 2024,93179,1220,02,ITWS-1220,It & Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT & SOCIETY,LEC,4,TF,10:00AM,10:50AM,Katherine Anne Tyrol/Justin Dowdall,Russell Sage Laboratory 3510,19,19,0,ITWS,2024-01-08,2024-04-24,SPRING 2024,93682,1220,03,ITWS-1220,It & Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT & SOCIETY,LEC,4,TF,11:00AM,11:50AM,Justin Dowdall/Katherine Anne Tyrol,West Hall 211,19,19,0,ITWS,2024-01-08,2024-04-24,SPRING 2024,93682,1220,03,ITWS-1220,It & Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT AND SOCIETY,LEC,4,TF,10:00AM,10:50AM,Justin Dowdall/Katherine Anne Tyrol,Russell Sage Laboratory 3510,19,16,3,ITWS,2024-01-08,2024-04-24,SPRING 2024,95051,1220,04,ITWS-1220,It And Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT AND SOCIETY,LEC,4,TF,12:00PM,12:50PM,Justin Dowdall/Katherine Anne Tyrol,Russell Sage Laboratory 4711,19,16,3,ITWS,2024-01-08,2024-04-24,SPRING 2024,95051,1220,04,ITWS-1220,It And Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+IT  MASTER'S CAPSTONE,LEC,3,MR,4:00PM,5:50PM,Kevin R. Stewart,Lally Hall 102,6,16,-10,ITWS,2024-01-08,2024-04-24,SPRING 2024,92020,6800,01,ITWS-6800,It MASTER'S Capstone,"Integration of the knowledge and professional practice of the Master's in IT core and concentration courses. Topics in database systems, networking, software design, human computer interaction, management of technology, and ethics are applied within a framework of global e-business strategy. The course utilizes a Team Project with a real organization to practice major IT concepts. Team members select, develop, and present a significant technology implementation project, incorporating strategy, systems development, and business planning.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+MANAGING IT RESOURCES,LEC,4,MR,8:00AM,9:50AM,Matthew John Grill,Lally Hall 102,30,12,18,ITWS,2024-01-08,2024-04-24,SPRING 2024,93695,4310,01,ITWS-4310,Managing It Resources,"This course provides an introduction to fundamental concepts of management and applies them to IT. It examines the use of IT in business processes and the management issues of integrating IT into organizational processes to gain competitive advantage. Topics include: management, organizations, and information systems; development life cycle; project management and systems engineering; process reengineering; and organizational learning. This course includes the planning, development, and implementation of an IT project for a real client.",Prerequisite: CSCI 1200. Prerequisite or Corequisite: ITWS 2110. Restricted to juniors or seniors.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'ITWS 2110']","['CSCI 1200', 'ITWS 2110']",Information Technology and Web Science
+PLATFORM BUS. FOR ENG. & SCI.,LEC,3,MR,6:00PM,7:50PM,Kevin R. Stewart,Lally Hall 02,10,3,7,ITWS,2024-01-08,2024-04-24,SPRING 2024,94807,6960,01,ITWS-6960,Platform BUS. For ENG. & SCI.,,,,[],[],Information Technology and Web Science
+INFORMATION SYSTEM SECURITY,LEC,4,MR,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 104,40,20,20,ITWS,2024-01-08,2024-04-24,SPRING 2024,92217,4370,01,ITWS-4370,Information System Security,"This course covers foundational models for information security, policies, authentication, access control, database security, assurance, auditing, and intrusion detection. It also devotes substantial time to secure coding practices. Students will be expected to complete projects that explore an aspect of information security in detail. Cryptography is not covered since it is a focus of other courses.",Prerequisites: CSCI 2500 or ECSE 2660; and prerequisite or corequisite: CSCI 2300.,When Offered: Spring term annually.,"['CSCI 2500', 'ECSE 2660', 'CSCI 2300']","['CSCI 2500', 'ECSE 2660', 'CSCI 2300']",Information Technology and Web Science
+XINFORMATICS,LEC,3,W,9:00AM,11:50AM,Thilanka Munasinghe,Pittsburgh Building 4114,7,1,6,ITWS,2024-01-08,2024-04-24,SPRING 2024,92458,4400,01,ITWS-4400,Xinformatics,"Informatics covers a broad range of disciplines addressing challenges in the explosion of data and information resources. X-informatics provides commonality for implementations in specific disciplines, e.g. X=astro, geo. Informatics' theoretical bases are information and computer science, cognitive science, social science, library science, aggregating these studies and adding the practice of information processing, and the engineering of information systems. This course grounds the material that students will learn in discipline areas by coursework and project assignments.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+WEB SCIENCE SYSTEMS DEV,LEC,4,TF,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 102,45,43,2,ITWS,2024-01-08,2024-04-24,SPRING 2024,92636,4500,01,ITWS-4500,Web Science Systems Dev,"Building on the technology covered in Web Systems Development, students will be exposed to current technologies, frameworks, and practices in the area of Web development. Types of topics included will be HTML5/CSS3, API's for data, node.js, MongoDB, and Angular. Methodology to be explored will be application design, software versioning, and team development. Lab intensive, this course is intended to complete a foundation for the advanced courses in Data Science and Advanced Web Science.",Prerequisites: ITWS 2110 and CSCI 1200.,When Offered: Spring term annually.,"['ITWS 2110', 'CSCI 1200']","['ITWS 2110', 'CSCI 1200']",Information Technology and Web Science
+WEB SCIENCE SYSTEMS DEV,LEC,4,TF,2:00PM,3:50PM,Brian Robert Callahan,Lally Hall 102,45,31,14,ITWS,2024-01-08,2024-04-24,SPRING 2024,93683,4500,02,ITWS-4500,Web Science Systems Dev,"Building on the technology covered in Web Systems Development, students will be exposed to current technologies, frameworks, and practices in the area of Web development. Types of topics included will be HTML5/CSS3, API's for data, node.js, MongoDB, and Angular. Methodology to be explored will be application design, software versioning, and team development. Lab intensive, this course is intended to complete a foundation for the advanced courses in Data Science and Advanced Web Science.",Prerequisites: ITWS 2110 and CSCI 1200.,When Offered: Spring term annually.,"['ITWS 2110', 'CSCI 1200']","['ITWS 2110', 'CSCI 1200']",Information Technology and Web Science
+INTRODUCTION TO HCI,LEC,4,MR,8:00AM,9:50AM,Justin Dowdall,Darrin Communications Center 337,100,105,-5,ITWS,2024-01-08,2024-04-24,SPRING 2024,94618,2210,01,ITWS-2210,Introduction To Hci,"An introduction to the current theories, methods, and issues in human-computer interaction. Theory and research along with practical application are discussed within the context of organizational impact. The course provides the knowledge of HCI systems and research used for the implementation of safe, quick, and useable interactive technologies.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Thilanka Munasinghe,Lally Hall 104,5,0,5,ITWS,2024-01-08,2024-04-24,SPRING 2024,93004,4600,01,ITWS-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Thilanka Munasinghe,Lally Hall 104,5,1,4,ITWS,2024-01-08,2024-04-24,SPRING 2024,93684,4600,02,ITWS-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+BUSINESS ISSUES FOR ENGINEERS AND SCIENTISTS,LEC,3,W,11:00AM,1:50PM,Kevin R. Stewart,Troy Building 2015,15,11,4,ITWS,2024-01-08,2024-04-24,SPRING 2024,92019,6300,01,ITWS-6300,Business Issues For Engineers And Scientists,"Investigates business-related considerations in successfully commercializing new technology in a new venture or within an existing enterprise: market and customer analysis, beating the competition, planning and managing for profitability, high-tech marketing and sales, and business partnerships and acquisitions. Not a general management course; focuses explicitly on what is relevant for engineers and scientists working in a commercial environment. For junior/senior undergraduate or graduate students.",,When Offered: Fall and spring terms annually.,[],[],Information Technology and Web Science
+INFORMATION SYSTEM SECURITY,LEC,3,MR,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 104,15,1,14,ITWS,2024-01-08,2024-04-24,SPRING 2024,94993,6370,01,ITWS-6370,Information System Security,"This course covers foundational models for information security, policies, authentication, access control, database security, assurance, auditing, and intrusion detection. It also devotes substantial time to secure coding practices. Students will be expected to complete projects that explore an aspect of information security in detail. Cryptography is not covered since it is a focus of other courses.",Prerequisites: CSCI 2500 or ECSE 2660 Prerequisite or corequisite: CSCI 2300,When Offered: Spring term annually.,"['CSCI 2500', 'ECSE 2660', 'CSCI 2300']","['CSCI 2500', 'ECSE 2660', 'CSCI 2300']",Information Technology and Web Science
+INTRO TO MACHINE LEARNING APPS,LEC,4,MR,12:00PM,1:50PM,Lydia Manikonda,Low Center for Industrial Inn. 3039,45,15,30,MGMT,2024-01-08,2024-04-24,SPRING 2024,94691,4190,01,MGMT-4190,Intro To Machine Learning Apps,"The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context. Students will learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+BUSINESS UG INTERNSHIP,LEC,0,,,,Kevin Albro Fletcher,TBA,45,47,-2,MGMT,2024-01-08,2024-04-24,SPRING 2024,94727,4800,01,MGMT-4800,Business Ug Internship,"This is a required course for management majors. It is designed to introduce students to the key operational characteristics of a real company. Students are expected to secure an internship and successfully complete it before registering for this class. Students will submit a written report documenting what they did, what they learned, etc.  It is a 0-credit hour class used to document the fact that Lally students have completed an internship.  This is a requirement for graduation for all Lally students.",None.,When Offered: Upon availability of instructor.,[],[],Management and Technology
+FINANCIAL COMPUTATION & SIMUL,LEC,3,MR,2:00PM,3:20PM,Brian John Clark,Carnegie Building 208,35,23,12,MGMT,2024-01-08,2024-04-24,SPRING 2024,94232,6510,01,MGMT-6510,Financial Computation & Simul,"The primary objective of this course is to provide the first or second semester financial engineering student with basic quantitative and analytical tools necessary for sound financial decision making, particularly in quantitative finance and risk analytics contexts. The course emphasizes financial computation techniques, whereby students learn standard methodologies to obtain numerical solutions to financial problems. Topics include solving linear and nonlinear systems of equations, optimization, lattices, Monte Carlo simulation, and finite difference methods as applied to common financial problems.R is the primary computing language used in this course.",Prerequisites/Corequisites: MGMT 6520 or permission of instructor.,When Offered: Spring term annually.,['MGMT 6520'],['MGMT 6520'],Management and Technology
+ORG BEHAVIOR IN HIGH PERF ORG,LEC,4,TF,10:00AM,11:50AM,Kevin Albro Fletcher,Pittsburgh Building 5216,55,46,9,MGMT,2024-01-08,2024-04-24,SPRING 2024,90126,4850,01,MGMT-4850,Org Behavior In High Perf Org,"This course provides an overview of basic processes in human behavior that influence the effectiveness of individuals, groups and organizations. Its focus is on understanding what happens during interpersonal interactions in work situations, and what can be done to make employees more effective. Topics covered include organizational socialization, motivation, decision-making, team dynamics, virtual teams, influence, and conflict management. Numerous exercises and case analyses are used in class to help provide students with insights into these processes.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,"When Offered: Fall, spring, and summer terms annually.",['MGMT 1100'],['MGMT 1100'],Management and Technology
+PRAC LIFE SCIENCES ENTREPRNSHP,LEC,3,TF,10:00AM,11:20AM,Brett Orzechowski,Lally Hall 02,25,10,15,MGMT,2024-01-08,2024-04-24,SPRING 2024,94440,6511,01,MGMT-6511,Prac Life Sciences Entreprnshp,"This is a graduate level class for those in the Life Sciences Entrepreneurship MBA program, and it serves as a practical, project-based, and culminating experience where students work on real-life projects associated with the life sciences industry. Students will work directly in a consultant-type or developmental role for a life sciences company where they will tackle issues facing the client company, either working individually or preferably in small teams.",Prerequisite: Culminating experience for Life Sciences MBA students,,[],[],Management and Technology
+PROTECTING & COMMERCIALIZING Y,LEC,2,T,4:30PM,6:00PM,Johan Maharjan,TBA,15,7,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,94401,6961,01,MGMT-6961,Protecting & Commercializing Y,,,,[],[],Management and Technology
+MANAGEMENT PROFESSIONAL DEVELOPMENT II,LEC,2,T,8:00AM,9:50AM,Christine M Allard,Pittsburgh Building 5216,40,32,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,90226,1250,01,MGMT-1250,Management Professional Development Ii,"The course is the second in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: professional oral and written presentation, professional goal setting, feedback giving and receiving, conflict and business ethics, networking, and meeting management.",,When Offered: Spring term annually.,[],[],Management and Technology
+MANAGEMENT PROFESSIONAL DEVELOPMENT II,LEC,2,W,10:00AM,11:50AM,Christine M Allard,Pittsburgh Building 4206,40,39,1,MGMT,2024-01-08,2024-04-24,SPRING 2024,90227,1250,02,MGMT-1250,Management Professional Development Ii,"The course is the second in a two-part series of Professional Development Workshops that teach practical skills to enhance business students' readiness to enter the professional world and achieve workplace success and a high degree of professionalism. The course emphasizes the following themes: professional oral and written presentation, professional goal setting, feedback giving and receiving, conflict and business ethics, networking, and meeting management.",,When Offered: Spring term annually.,[],[],Management and Technology
+STATISTICAL METHODS,LEC,4,MR,10:00AM,11:50AM,Raffi Enmanuel Garcia,Pittsburgh Building 5114,30,20,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,90238,2100,01,MGMT-2100,Statistical Methods,"This course develops an understanding of concepts in business statistics and focuses on application of concepts in problem-solving situations. In particular, students learn to present and describe data, analyze probability distributions, make statistical inferences based on data samples, and develop models for prediction and forecasting.",Prerequisites: MATH 1500 and MATH 1520 or permission of instructor.,When Offered: Fall and spring terms annually.,"['MATH 1500', 'MATH 1520']","['MATH 1500', 'MATH 1520']",Management and Technology
+STATISTICAL METHODS,LEC,4,MR,12:00PM,1:50PM,Raffi Enmanuel Garcia,Pittsburgh Building 5114,35,31,4,MGMT,2024-01-08,2024-04-24,SPRING 2024,93389,2100,02,MGMT-2100,Statistical Methods,"This course develops an understanding of concepts in business statistics and focuses on application of concepts in problem-solving situations. In particular, students learn to present and describe data, analyze probability distributions, make statistical inferences based on data samples, and develop models for prediction and forecasting.",Prerequisites: MATH 1500 and MATH 1520 or permission of instructor.,When Offered: Fall and spring terms annually.,"['MATH 1500', 'MATH 1520']","['MATH 1500', 'MATH 1520']",Management and Technology
+HR RESOURCES IN HIGH PERF ORGS,LEC,4,MR,10:00AM,11:50AM,Timothy D. Golden,Carnegie Building 201,40,23,17,MGMT,2024-01-08,2024-04-24,SPRING 2024,90092,4860,01,MGMT-4860,Hr Resources In High Perf Orgs,"This course provides an overview of human resources principles and practices in business organizations. Students are given tools for understanding how people are managed on a day-to-day basis. Topics include: the recruiting and hiring process; self, peer, and managerial evaluations; training and development; and legal issues related to the work setting and the job-search process. Students come away with an understanding of the difficulties and challenges associated with workforce management. This course utilizes a combination of lecture, discussion, and experiential exercises.",Prerequisites/Corequisites: MGMT 1100 Introduction to Management or permission of the instructor.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+ADV AI/MACHINE LEARN FOR FIN,LEC,3,MR,12:00PM,1:20PM,Brian John Clark,Carnegie Building 208,30,10,20,MGMT,2024-01-08,2024-04-24,SPRING 2024,93913,6962,01,MGMT-6962,Adv AI/MACHINE Learn For Fin,,,,[],[],Management and Technology
+RISK ANALYTICS AND MANAGEMENT,LEC,3,TF,4:00PM,5:20PM,Christopher Joseph Donohue,Pittsburgh Building 4114,30,20,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,93886,7760,01,MGMT-7760,Risk Analytics And Management,"Overview of risk management, concepts and measurement of risk; types of risks (market, credit, liquidity, operational, business, strategic). Clustering, classification and optimization tools applied to risk management. Frameworks and instruments available for risk management. Specific issues related with managing specific risk types - credit, liquidity and operational risk, with emphasis on current challenges. Securitization, asset-liability management, and role of insurance for risk management.",Prerequisites/Corequisites: MGMT 6520 or permission of instructor.,When Offered: Spring term annually.,['MGMT 6520'],['MGMT 6520'],Management and Technology
+BUSINESS LAW AND ETHICS,LEC,4,MR,8:00AM,9:50AM,Tanya Singh,Pittsburgh Building 4206,40,30,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,90014,1260,01,MGMT-1260,Business Law And Ethics,"This course focuses on legal and ethical considerations in management. Topics include torts, contracts, criminal and property law, constitutional and administrative law, dispute resolution, business formation, and equal opportunity. Students will also develop an awareness of ethics in managerial decision making, including recognizing and analyzing ethical issues in the workplace, promoting ethical behavior in corporations, and recognizing social responsibilities of business.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+BUSINESS LAW AND ETHICS,LEC,4,MR,10:00AM,11:50AM,Tanya Singh/Owen Samuel Burnsworth,Pittsburgh Building 4206,45,43,2,MGMT,2024-01-08,2024-04-24,SPRING 2024,92973,1260,02,MGMT-1260,Business Law And Ethics,"This course focuses on legal and ethical considerations in management. Topics include torts, contracts, criminal and property law, constitutional and administrative law, dispute resolution, business formation, and equal opportunity. Students will also develop an awareness of ethics in managerial decision making, including recognizing and analyzing ethical issues in the workplace, promoting ethical behavior in corporations, and recognizing social responsibilities of business.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+STRATEGY AND POLICY,LEC,4,MR,2:00PM,3:50PM,Murali Dharan Raman Chari,Pittsburgh Building 5216,50,31,19,MGMT,2024-01-08,2024-04-24,SPRING 2024,91261,4870,01,MGMT-4870,Strategy And Policy,This is a course that integrates the functional fields of management. The first part of the course focuses on the tools and discipline commonly used in strategy formulation. The second part focuses on the implementation of strategy in a variety of contexts.,"Prerequisites/Corequisites: MGMT 2300 Accounting for Decision Making, MGMT 2320 Managerial Finance, MGMT 2430 Marketing Principles, and MGMT 4110 Operations Management.",When Offered: Fall and spring terms annually.,"['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']","['MGMT 2300', 'MGMT 2320', 'MGMT 2430', 'MGMT 4110']",Management and Technology
+FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,TF,10:00AM,11:50AM,Jamshed Jal Mistry,Pittsburgh Building 4206,40,32,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,92352,2300,01,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,MR,2:00PM,3:50PM,Jamshed Jal Mistry,Pittsburgh Building 4114,40,37,3,MGMT,2024-01-08,2024-04-24,SPRING 2024,90002,2300,02,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+FINANCIAL ACCTG IN DIGITAL AGE,LEC,4,TF,8:00AM,9:50AM,Jamshed Jal Mistry,Pittsburgh Building 4206,40,7,33,MGMT,2024-01-08,2024-04-24,SPRING 2024,94434,2300,03,MGMT-2300,Financial Acctg In Digital Age,"An introduction to the basic concepts and standards underlying financial accounting systems. Several important concepts will be studied in detail, including: revenue recognition, inventory, long-lived assets, long term liabilities, and equity. The course emphasizes the construction of the basic financial accounting statements - the income statement, balance sheet, and cash flow statement - as well as their interpretation.",Prerequisites/Corequisites: MGMT 1100 Upon Instructor permission.,When Offered: Fall and spring terms annually.,['MGMT 1100'],['MGMT 1100'],Management and Technology
+NEGOTIATIONS,LEC,4,MR,12:00PM,1:50PM,Timothy D. Golden,Carnegie Building 201,40,23,17,MGMT,2024-01-08,2024-04-24,SPRING 2024,94754,4090,01,MGMT-4090,Negotiations,"This course is designed to help develop essential expertise in managing negotiations that occur in a broad array of business settings. The goal is for students to be better able to recognize types of negotiation situations, understand the spectrum of choices available, develop a realistic set of options for inclusion in the negotiation, and gain proficiency in helping to shape beneficial outcomes of the negotiation. The course allows students to develop negotiation skills experientially using a variety of exercises and case studies while implementing useful analytical frameworks. A variety of negotiation situations are covered so that students can gain insight and skill in addressing a wide spectrum of negotiation situations.",None,When Offered: Spring term annually.,[],[],Management and Technology
+STUDENT MANAGED INVEST FUND,LEC,4,TF,2:00PM,3:50PM,Meimuneh Sumadi,Carnegie Building 201,40,14,26,MGMT,2024-01-08,2024-04-24,SPRING 2024,94349,4420,01,MGMT-4420,Student Managed Invest Fund,"The Student Managed Fund course will actively invest real capital using financial market principles. The goal of the fund is to produce excess returns consistent with the performance of long/short hedge funds through use of fundamental, technical, and quantitative strategies driven by economic analysis. The goal of the course is to directly apply the analytical financial skills developed within other Lally courses and provide students with both instructor and peer real-time feedback for their work.",Prerequisites/Corequisites: MGMT 2320 or permission of instructor.,When Offered: Spring term annually.,['MGMT 2320'],['MGMT 2320'],Management and Technology
+MARKETING COMM & PROMO STRAT,LEC,3,MR,2:00PM,3:50PM,Sarah K. Parker Ward,Low Center for Industrial Inn. 3045,40,8,32,MGMT,2024-01-08,2024-04-24,SPRING 2024,91060,6540,01,MGMT-6540,Marketing Comm & Promo Strat,"Advanced study of the promotion management process including market situation analysis, media selection, spending plans, copy strategy, and advertising research methods. The focus is on integrating promotion strategies with buyer needs in terms of unifying brand strategies. Other brand elements include product conceptualization, distribution strategies, and new communication technologies.",None,When Offered: Spring term annually.,[],[],Management and Technology
+PROFESSIONAL DEVELOPMENT WORKSHOP II - MS,LEC,0,W,12:00PM,1:50PM,Jonathan Alexis McKinney,Pittsburgh Building 5216,50,32,18,MGMT,2024-01-08,2024-04-24,SPRING 2024,93159,7780,01,MGMT-7780,Professional Development Workshop Ii - Ms,"The PDW sequence is designed to develop the professional skills of students in the M.S. Programs that are needed to be a successful contributor in a business setting. The PDW II will continue to follow a framework of Leadership, Followership, and Membership in a professional community. Students will gain practical experience through exposure to experts in specific skill areas, role play and practice sessions, and exercise completions. The second semester emphasizes developing influence skills, understanding and shaping group dynamics, and navigating organizational politics. Additionally, membership in one's professional community will be emphasized through engagement in four hours of activities specific to the student's M.S. program.",,When Offered: Spring term annually.,[],[],Management and Technology
+PROFESSIONAL DEVELOPMENT WORKSHOP II - MS,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Pittsburgh Building 5216,15,16,-1,MGMT,2024-01-08,2024-04-24,SPRING 2024,93160,7780,02,MGMT-7780,Professional Development Workshop Ii - Ms,"The PDW sequence is designed to develop the professional skills of students in the M.S. Programs that are needed to be a successful contributor in a business setting. The PDW II will continue to follow a framework of Leadership, Followership, and Membership in a professional community. Students will gain practical experience through exposure to experts in specific skill areas, role play and practice sessions, and exercise completions. The second semester emphasizes developing influence skills, understanding and shaping group dynamics, and navigating organizational politics. Additionally, membership in one's professional community will be emphasized through engagement in four hours of activities specific to the student's M.S. program.",,When Offered: Spring term annually.,[],[],Management and Technology
+MANAGERIAL FINANCE,LEC,4,MR,12:00PM,1:50PM,Johan Maharjan,Troy Building 2018,50,40,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,90011,2320,01,MGMT-2320,Managerial Finance,"An introduction to corporate financial analysis and decision making. This course covers the following topics: financial statement analysis, valuation principles, risk and return analysis, working capital management, capital budgeting, cost of capital, capital structure, and dividend policy.",Prerequisites: MGMT 2300,"When Offered: Fall, spring, and summer terms annually.",['MGMT 2300'],['MGMT 2300'],Management and Technology
+QUANTITATIVE METHODS FOR BUS,LEC,4,MR,12:00PM,1:50PM,Mert Hakan Hekimoglu,Pittsburgh Building 4206,40,40,0,MGMT,2024-01-08,2024-04-24,SPRING 2024,90405,4100,01,MGMT-4100,Quantitative Methods For Bus,"This course introduces the student to the business management of production and operations systems. The concepts are related to inventory control, forecasting, scheduling, man-powers, and facilities planning. Computer usage includes Excel and specialized packages.",Prerequisites/Corequisites: MGMT 2100,When Offered: Fall and spring terms annually.,['MGMT 2100'],['MGMT 2100'],Management and Technology
+QUANTITATIVE METHODS FOR BUS,LEC,4,MR,2:00PM,3:50PM,Mert Hakan Hekimoglu,Pittsburgh Building 4206,40,36,4,MGMT,2024-01-08,2024-04-24,SPRING 2024,93391,4100,02,MGMT-4100,Quantitative Methods For Bus,"This course introduces the student to the business management of production and operations systems. The concepts are related to inventory control, forecasting, scheduling, man-powers, and facilities planning. Computer usage includes Excel and specialized packages.",Prerequisites/Corequisites: MGMT 2100,When Offered: Fall and spring terms annually.,['MGMT 2100'],['MGMT 2100'],Management and Technology
+INTERNET MARKETING,LEC,4,TF,2:00PM,3:50PM,Margaret A McDermott,Pittsburgh Building 4206,50,12,38,MGMT,2024-01-08,2024-04-24,SPRING 2024,92331,4450,01,MGMT-4450,Internet Marketing,"Technology is a vital link in how modern corporations identify, acquire, transact with, and keep their customers. This course provides an introduction to both the technology infrastructure most relevant to the customer relationship as well marketing issues that result from the application of computers and communication networks. Topics include issues related to social media, search, online advertising, blogging, customer relationship management, online market segmentation, and marketing of IT products. A student cannot receive credit for both the graduate and undergraduate versions of this course.",Prerequisites/Corequisites: MGMT 2430,When Offered: Spring term annually.,['MGMT 2430'],['MGMT 2430'],Management and Technology
+CORPORATE ENTREPRENERSHIP,LEC,4,,,,Kevin Albro Fletcher,TBA,1,0,1,MGMT,2024-01-08,2024-04-24,SPRING 2024,95377,4940,01,MGMT-4940,Corporate Entreprenership,,,,[],[],Management and Technology
+QUANTITATIVE ASSET MANAGEMENT,LEC,3,MR,6:00PM,7:20PM,Johan Maharjan,Pittsburgh Building 5114,30,21,9,MGMT,2024-01-08,2024-04-24,SPRING 2024,92222,6410,01,MGMT-6410,Quantitative Asset Management,"The course begins by providing students with a theoretical and practical background in the field of investments. This includes comparison of asset classes characteristics and returns as well as discussion of relevant models, financial institutions, and behavioral issues facing investors. These principles are then quantitatively applied in areas including portfolio construction, index-linked strategies, smart beta/factor portfolios, portfolio risk management, and dynamic portfolio management",Prerequisites: MGMT 6020 or permission of the instructor.,When Offered: Spring term annually.,['MGMT 6020'],['MGMT 6020'],Management and Technology
+NEGOTIATION,LEC,3,MR,12:00PM,1:20PM,Timothy D. Golden,Carnegie Building 201,40,13,27,MGMT,2024-01-08,2024-04-24,SPRING 2024,93157,6690,01,MGMT-6690,Negotiation,"This course is designed to help develop essential expertise in managing negotiations that occur in a broad array of settings. Students will learn to recognize types of negotiation, and gain proficiency in helping to shape beneficial outcomes. Students will develop negotiation skills experientially using a variety of exercises and case studies while implementing useful analytical frameworks.",,When Offered: Spring term annually.,[],[],Management and Technology
+MARKETING PRINCIPLES,LEC,4,TF,12:00PM,1:50PM,Gaurav Jain,Pittsburgh Building 4114,50,50,0,MGMT,2024-01-08,2024-04-24,SPRING 2024,92630,2430,01,MGMT-2430,Marketing Principles,"This course provides students with an understanding of marketing principles and the role of the marketing discipline. The course is intended to help students learn the basic concepts and practices of marketing and to familiarize them with the terminology and techniques for properly framing and analyzing marketing problems. In addition to marketing concepts, processes, and strategy, issues such as the social consequences of marketing are discussed.",None,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+MARKETING PRINCIPLES,LEC,4,TF,2:00PM,3:50PM,Gaurav Jain,Pittsburgh Building 4114,50,49,1,MGMT,2024-01-08,2024-04-24,SPRING 2024,92631,2430,02,MGMT-2430,Marketing Principles,"This course provides students with an understanding of marketing principles and the role of the marketing discipline. The course is intended to help students learn the basic concepts and practices of marketing and to familiarize them with the terminology and techniques for properly framing and analyzing marketing problems. In addition to marketing concepts, processes, and strategy, issues such as the social consequences of marketing are discussed.",None,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+OPERATIONS MANAGEMENT,LEC,4,TF,12:00PM,1:50PM,Christopher McDermott,Low Center for Industrial Inn. 3045,40,37,3,MGMT,2024-01-08,2024-04-24,SPRING 2024,90224,4110,01,MGMT-4110,Operations Management,"This course introduces the student to the operations function in services and manufacturing-oriented firms. Students develop an appreciation of the concepts, principles, and techniques used for decision making in the operations function. The course takes a managerial perspective.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+OPERATIONS MANAGEMENT,LEC,4,TF,10:00AM,11:50AM,Christopher McDermott,Low Center for Industrial Inn. 3045,40,38,2,MGMT,2024-01-08,2024-04-24,SPRING 2024,90406,4110,02,MGMT-4110,Operations Management,"This course introduces the student to the operations function in services and manufacturing-oriented firms. Students develop an appreciation of the concepts, principles, and techniques used for decision making in the operations function. The course takes a managerial perspective.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+STUDENT MANAGED INVEST FUND,LEC,3,TF,2:00PM,3:50PM,Meimuneh Sumadi,Carnegie Building 201,40,21,19,MGMT,2024-01-08,2024-04-24,SPRING 2024,94231,6420,01,MGMT-6420,Student Managed Invest Fund,"The Student Managed Fund course will actively invest real capital using financial market principles. The goal of the fund is to produce excess returns consistent with the performance of long/short hedge funds through use of fundamental, technical, and quantitative strategies driven by economic analysis. The goal of the course is to directly apply the analytical financial skills developed within other Lally courses and provide students with both instructor and peer real-time feedback for their work.",Prerequisites/Corequisites: MGMT 6020 or MGMT 6520 or permission of instructor. Course restricted to students with graduate status only.,When Offered: Spring term annually.,"['MGMT 6020', 'MGMT 6520']","['MGMT 6020', 'MGMT 6520']",Management and Technology
+INTRODUCTION TO MACHINE LEARNING APPLICATIONS,LEC,3,MR,12:00PM,1:50PM,Lydia Manikonda,Low Center for Industrial Inn. 3039,45,28,17,MGMT,2024-01-08,2024-04-24,SPRING 2024,93392,6560,01,MGMT-6560,Introduction To Machine Learning Applications,"""The widespread proliferation of IT-influenced economic activity leaves behind a rich trail of micro-level data, enabling organizations to use analytics and experimentation in both strategy and operations. This course provides a hands-on introduction to the concepts, methods, and processes for machine learning from data, the foundation of artificial intelligence. Students will learn how to manipulate data and apply machine learning models to business context."" They will also learn how to obtain data and draw business inferences from data by asking the right questions and using the appropriate tools.",None,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+MANAGEMENT THESIS,LEC,1-16,,,,TBA,TBA,200,0,200,MGMT,2024-01-08,2024-04-24,SPRING 2024,90177,6990,01,MGMT-6990,Management Thesis,,,,[],[],Management and Technology
+INTRO TO DATA MGMT & ANALYTICS,LEC,4,TF,12:00PM,1:50PM,Jonathan Alexis McKinney,Amos Eaton Hall 216,40,36,4,MGMT,2024-01-08,2024-04-24,SPRING 2024,93390,2510,01,MGMT-2510,Intro To Data Mgmt & Analytics,"An introduction to the fundamentals of data management and analysis with applications in business and information systems. Through hands-on exercises students will develop competencies in working with data through spreadsheets applications and relational databases. Topics include foundational concepts in information systems, spreadsheets, and basic data modeling and database design.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+FINANCIAL STATEMENT ANALYSIS,LEC,4,TF,10:00AM,11:50AM,Meimuneh Sumadi,Russell Sage Laboratory 5101,40,7,33,MGMT,2024-01-08,2024-04-24,SPRING 2024,94228,4260,01,MGMT-4260,Financial Statement Analysis,"This course is designed to strengthen students' ability to correctly analyze, interpret, and evaluate financial statements and their accompanying disclosures. The course is aimed at anyone whose career might involve working with accounting data, and should be especially useful for those interested in consulting and financial analysis. Throughout the semester the course will cover how to use financial accounting information for evaluating past performance and predicting future performance of a company or division. The course revolves around a number of topics of recent interest to the business community including accounting and financial analysis, performance forecasting, the quality of earnings, mergers and acquisitions, purchased R&D, post-employment benefits, executive compensation, and intangible assets. This course assumes that students have a basic knowledge of accounting, finance, economics, and business strategy. The focus is on integrating key concepts from each of these areas and applying them to financial decision-making. Half of the course time will be devoted to case analysis. Students are responsible for reading each case thoroughly and familiarizing themselves with the relevant accounting issues before the class.","Prerequisites/Corequisites: MGMT 2300 required pre/co-requisite, may be taken concurrently.",When Offered: Spring Term Annually,['MGMT 2300'],['MGMT 2300'],Management and Technology
+FOUNDATIONS OF DATA SCIENCE,LEC,3,MR,8:00AM,9:20AM,Sebastian Souyris,Amos Eaton Hall 216,40,20,20,MGMT,2024-01-08,2024-04-24,SPRING 2024,94229,6100,01,MGMT-6100,Foundations Of Data Science,"Every dataset tells a unique story, and in this course, students learn to elicit these stories from data. The course develops students' ability to ask critical questions about their data in order to better understand it. Students will run tests to identify data problems and will learn how to take corrective actions. In addition, the course covers important parametric and non-parametric tests, and discusses their benefits and limitations in a big data world.",None,When Offered: Fall and Spring term annually.,[],[],Management and Technology
+FOUNDATIONS OF DATA SCIENCE,LEC,3,MR,2:00PM,3:20PM,Sebastian Souyris,Amos Eaton Hall 216,40,32,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,94432,6100,02,MGMT-6100,Foundations Of Data Science,"Every dataset tells a unique story, and in this course, students learn to elicit these stories from data. The course develops students' ability to ask critical questions about their data in order to better understand it. Students will run tests to identify data problems and will learn how to take corrective actions. In addition, the course covers important parametric and non-parametric tests, and discusses their benefits and limitations in a big data world.",None,When Offered: Fall and Spring term annually.,[],[],Management and Technology
+ADVANCED FINANCIAL STATEMENT ANALYSIS,LEC,3,TF,10:00AM,11:50AM,Meimuneh Sumadi,Russell Sage Laboratory 5101,40,7,33,MGMT,2024-01-08,2024-04-24,SPRING 2024,92332,6430,01,MGMT-6430,Advanced Financial Statement Analysis,"This course is designed to strengthen students' ability to correctly analyze, interpret, and evaluate financial statements and their accompanying disclosures. The course is aimed at anyone whose career might involve working with accounting data, and should be especially useful for those interested in consulting and financial analysis. Discussed throughout the semester will be how to use financial accounting information for evaluating past performance and predicting future performance of a company or division. Also discussed will be the key disclosure rules in the United States, the communication methods available to managers, managers' incentives and ability to exert discretion over reported earnings, and the interplay between a company's corporate strategy and its financial reporting policies and practices. The course revolves around a number of topics of recent interest to the business community including accounting and financial analysis, performance forecasting, the quality of earnings, mergers and acquisitions, purchased R&D, post-employment benefits, executive compensation, and intangible assets. This course assumes that students have a basic knowledge of accounting, finance, economics, and business strategy. The focus is on integrating key concepts from each of these areas and applying them to financial decision-making. Half of the course time will be devoted to case analysis. Students are responsible for reading each case thoroughly and familiarizing themselves with the relevant accounting issues before the class.",Prerequisites/Corequisites: MGMT 6190 or MGMT 7740 or permission of the instructor.,When Offered: Spring term annually.,"['MGMT 6190', 'MGMT 7740']","['MGMT 6190', 'MGMT 7740']",Management and Technology
+ADV STRAT & PROMOTIONS,LEC,4,MR,2:00PM,3:50PM,Sarah K. Parker Ward,Low Center for Industrial Inn. 3045,45,12,33,MGMT,2024-01-08,2024-04-24,SPRING 2024,90010,4490,01,MGMT-4490,Adv Strat & Promotions,Development of branding strategies to accomplish marketing objectives. The development of media plans and schedules to deliver advertising promotions element in the marketing mix. A student cannot receive credit for both the graduate and undergraduate versions of this course.,None.,When Offered: Spring term annually.,[],[],Management and Technology
+"ENGINEERING, SCIENCE & MGMT",LEC,0,W,11:00AM,11:50AM,Margaret A McDermott,Ricketts Building 208,20,7,13,MGMT,2024-01-08,2024-04-24,SPRING 2024,93427,4961,01,MGMT-4961,"ENGINEERING, Science & Mgmt",,,,[],[],Management and Technology
+BUSINESS CAPSTONE,LEC,3,TF,10:00AM,11:20AM,Jason Nicholas Kuruzovich,Amos Eaton Hall 217,30,15,15,MGMT,2024-01-08,2024-04-24,SPRING 2024,94441,6445,01,MGMT-6445,Business Capstone,This course provides students with an opportunity to work on real business problems with a company. Students work in small consultant teams with a client and advisor(s) to develop solutions that will be put to use by the client to achieve significant business benefits. Student teams develop their analysis and recommendations and complete the project with the delivery of a final report and presentation to the client organizations. The course encompasses domain knowledge as well as knowledge of business strategy and communications skills.,,,[],[],Management and Technology
+BUSINESS CAPSTONE,LEC,3,TF,10:00AM,11:20AM,Thiagarajan Ravichandran,Low Center for Industrial Inn. 4040,30,12,18,MGMT,2024-01-08,2024-04-24,SPRING 2024,94442,6445,02,MGMT-6445,Business Capstone,This course provides students with an opportunity to work on real business problems with a company. Students work in small consultant teams with a client and advisor(s) to develop solutions that will be put to use by the client to achieve significant business benefits. Student teams develop their analysis and recommendations and complete the project with the delivery of a final report and presentation to the client organizations. The course encompasses domain knowledge as well as knowledge of business strategy and communications skills.,,,[],[],Management and Technology
+ADV DATA RESOURCE MANAGEMENT,LEC,3,MR,10:00AM,11:50AM,Jonathan Alexis McKinney,Troy Building 2012,40,17,23,MGMT,2024-01-08,2024-04-24,SPRING 2024,93667,6570,01,MGMT-6570,Adv Data Resource Management,"The primary objective of this course is to introduce the multifaceted role of data as a resource of the organization, in three ways. First, it examines the role of data at the operational, tactical, and strategic levels of the organization. Second, it provides students with knowledge and hands on training of technologies that manipulate data, including structured query language (SQL), extraction transformation and loading tools (ETL), data warehousing (DW), online analytical processing (OLAP), and data mining (DM). The course exposes students to big data management techniques. Finally, the course provides students the theory and hands on training to understand the transformation of data to information.",,When Offered: Fall and Spring terms annually.,[],[],Management and Technology
+PROFESSIONAL DEVELOPMENT WORKSHOP II,LEC,0,W,2:00PM,3:50PM,Jonathan Alexis McKinney,Pittsburgh Building 5216,55,31,24,MGMT,2024-01-08,2024-04-24,SPRING 2024,90523,7240,01,MGMT-7240,Professional Development Workshop Ii,"This course is the second in a three-part series of Professional Development Workshops that teach practical skills in laboratory settings, in the context of Leadership, Followership, and Membership. Over the first three semesters, the MBA cohort student will be exposed to professional skills training, distinguished speakers, and critical leadership development. This second workshop will concentrate on building leadership skills through exercises, corporate site visits, and audiences with distinguished speakers.",MBA Cohort.,"When Offered: Spring term of the first year of the MBA cohort, every other week, for six weeks.",[],[],Management and Technology
+COMPUTER INFO SYSTEMS,LEC,4,TF,12:00PM,1:50PM,Saggi Nevo,Pittsburgh Building 4206,40,23,17,MGMT,2024-01-08,2024-04-24,SPRING 2024,90225,4140,01,MGMT-4140,Computer Info Systems,"This course provides the undergraduate management student with an introduction to the concept and components of computer-based ""management information systems"" (MIS) and their integration into organizational processes to gain competitive advantage. This course will examine approaches for developing and using information systems in support of business processes. Topics include: the impact of computer-based information systems on organizations; the basic technology components of modern information systems; the process by which information systems are created and changed; and selected management and technology issues.",,"When Offered: Fall, spring, and summer terms anually.",[],[],Management and Technology
+"ENGINEERING, SCIENCE & MGMT",LEC,0,,,,Margaret A McDermott,TBA,30,9,21,MGMT,2024-01-08,2024-04-24,SPRING 2024,94749,4962,01,MGMT-4962,"ENGINEERING, Science & Mgmt",,,,[],[],Management and Technology
+MARKETING HIGH - TECH PROD,LEC,3,M,6:00PM,8:40PM,Sarah K. Parker Ward,Pittsburgh Building 4114,55,47,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,94238,6580,01,MGMT-6580,Marketing High - Tech Prod,"This course is designed to help students develop an understanding of the strategies and practices involved in marketing technologically oriented products and services. Students will learn where these strategies differ from marketing of non-technical products/services, and appreciate how and why they vary.",,When Offered: Spring term annually.,[],[],Management and Technology
+INTERNET MARKETING,LEC,3,TF,2:00PM,3:50PM,Margaret A McDermott,Pittsburgh Building 4206,50,23,27,MGMT,2024-01-08,2024-04-24,SPRING 2024,92380,6720,01,MGMT-6720,Internet Marketing,"Technology is a vital link in how modern corporations identify, acquire, transact with, and keep their customers. This course provides an introduction to both the technology infrastructure most relevant to the customer relationship as well as marketing issues that result from the application of computers and communication networks. Topics include issues related to social media, search, online advertising, blogging, customer relationship management, online market segmentation, and marketing of IT products. A student cannot receive credit for both the graduate and undergraduate versions of this course.",None,When Offered: Spring term annually.,[],[],Management and Technology
+"STRATEGY, TECH & COMPETITION I",LEC,3,MR,4:00PM,5:20PM,Murali Dharan Raman Chari,Pittsburgh Building 5216,55,54,1,MGMT,2024-01-08,2024-04-24,SPRING 2024,94233,7030,01,MGMT-7030,"STRATEGY, Tech & Competition I","This course covers the fundamentals of business and corporate strategy, integrating these concepts into an environment of technological change, competition, and entrepreneurship. The course includes the following areas of emphasis: concepts of strategy, industry environment, resources and capabilities of the firm, organization and systems of the firm, the dynamics of competitive advantage, strategic alternative analysis, and strategies in different contexts. The course uses business cases and a project to enrich the theoretical concepts.",Prerequisites/Corequisites: MGMT 6040 and MGMT 7730 or permission of the instructor,When Offered: Spring terms annually.,"['MGMT 6040', 'MGMT 7730']","['MGMT 6040', 'MGMT 7730']",Management and Technology
+IT PROJECT MANAGEMENT,LEC,4,TF,2:00PM,3:50PM,Jonathan Alexis McKinney,Amos Eaton Hall 216,30,26,4,MGMT,2024-01-08,2024-04-24,SPRING 2024,93154,4150,01,MGMT-4150,It Project Management,This capstone concentration course provides the student with conceptual and applied material focusing on the effective implementation of information. A central theme underlying this course is that information system implementation is best thought of as a bridge between systems design and utilization and that it must be understood in the context of the development process as a whole. The course examines a wide array of interrelated issues not generally covered in a systems analysis and design course including: process development life cycle; project management and systems engineering; process reengineering and maturity; organizational learning and evaluation.,,When Offered: Spring term annually.,[],[],Management and Technology
+INTRO TO TECH ENTREPRENEURSHIP,LEC,4,TF,12:00PM,1:50PM,M.V. Shyam Kumar,Low Center for Industrial Inn. 3039,45,10,35,MGMT,2024-01-08,2024-04-24,SPRING 2024,90407,4520,01,MGMT-4520,Intro To Tech Entrepreneurship,"An introductory course for initiating a new business venture and developing it into a self-sustaining and profitable enterprise. Provides understanding of the process whereby a person decides to become an entrepreneur, screens opportunities, selects an appropriate product/market target, and obtains the necessary resources. Also, provides the theoretical and practical knowledge for the preparation of formal business plans for the development of new products, processes, and services and for the financing of new enterprises. A student cannot receive credit for both the graduate and undergraduate versions of this course.",None,When Offered: Spring term annually.,[],[],Management and Technology
+SPORT MARKETING,LEC,4,W,6:00PM,9:50PM,John D'Argenio,Pittsburgh Building 4114,30,23,7,MGMT,2024-01-08,2024-04-24,SPRING 2024,94246,4963,01,MGMT-4963,Sport Marketing,,,,[],[],Management and Technology
+MANAGE DIGITIZATION & TRANSFRM,LEC,3,TF,6:00PM,7:20PM,Saggi Nevo,Amos Eaton Hall 216,40,38,2,MGMT,2024-01-08,2024-04-24,SPRING 2024,91270,6140,01,MGMT-6140,Manage Digitization & Transfrm,"Understanding technology-enabled changes in contemporary business environments, and how insightful executives leverage IT, is key to creating value and winning competitive advantage. This course develops an understanding of cutting-edge technological trends and their potential business impact. The course also explores the business drivers of technology-related decisions in firms and stimulates thought on new applications of technology for commerce, including new products, processes, and business models. Topics covered include: how different business models necessitate different kinds of IT investments; how IT coupled with big data analytics impacts different industries; whether and how IT hastens and aids the growth of disruptive innovations; and how organizations should adapt to the digital economy.",None,When Offered: Spring term annually.,[],[],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,TF,10:00AM,11:50AM,Margaret A McDermott,Folsom Library 107,45,43,2,MGMT,2024-01-08,2024-04-24,SPRING 2024,90013,1100,01,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,TF,12:00PM,1:50PM,Kevin Albro Fletcher,Pittsburgh Building 5216,45,41,4,MGMT,2024-01-08,2024-04-24,SPRING 2024,90086,1100,02,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,MR,12:00PM,1:50PM,Brett Orzechowski,Russell Sage Laboratory 3713,45,37,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,93388,1100,03,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+MANAGEMENT IN THE DIGITAL AGE,LEC,4,TF,2:00PM,3:50PM,M.V. Shyam Kumar,Low Center for Industrial Inn. 3039,45,21,24,MGMT,2024-01-08,2024-04-24,SPRING 2024,94662,1100,04,MGMT-1100,Management In The Digital Age,"This is a required first course for management majors and minors. In a case-based format, it emphasizes broad, basic principles of managerial functions and processes using an interdisciplinary approach to goal-oriented situations of private and public organizations.",,When Offered: Fall and spring terms annually.,[],[],Management and Technology
+APPL ANALY & PREDICTIVE MOD,LEC,4,MR,8:00AM,9:50AM,Lydia Manikonda,Russell Sage Laboratory 3101,60,3,57,MGMT,2024-01-08,2024-04-24,SPRING 2024,94227,4160,01,MGMT-4160,Appl Analy & Predictive Mod,"Business analytics enables organizations to leverage large volumes of data in order to make more informed decisions. It encompasses a range of approaches to integrating, organizing, and applying data in various settings. This course develops an understanding of concepts in business analytics and data manipulation. In particular, through hands-on experience with a range of techniques students will learn to work with large data sets, analyze trends and segmentations, and develop models for prediction and forecasting.",Prerequisites/Corequisites: MGMT 4100.,When Offered: Spring term annually.,['MGMT 4100'],['MGMT 4100'],Management and Technology
+STARTING UP A NEW VENTURE,LEC,4,TF,2:00PM,3:50PM,Jason Nicholas Kuruzovich,Darrin Communications Center 232,30,8,22,MGMT,2024-01-08,2024-04-24,SPRING 2024,94428,4530,01,MGMT-4530,Starting Up A New Venture,An understanding of the critical issues related to starting up a new business is gained through team-based experiential learning. Small teams of students develop a comprehensive business plan that can be used to raise money for a new or relatively new venture. The business plans are eligible for submission to the Rensselaer Business Plan Competition. The experiential learning process is enhanced through team meetings with faculty and/or course advisers and through oral presentations to the entire class.,None,When Offered: Spring term annually.,[],[],Management and Technology
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Thilanka Munasinghe,Lally Hall 104,15,2,13,MGMT,2024-01-08,2024-04-24,SPRING 2024,94333,6600,01,MGMT-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps. When Offered:Fall term annually.",,When Offered: Fall term annually,[],[],Management and Technology
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Thilanka Munasinghe,Lally Hall 104,10,5,5,MGMT,2024-01-08,2024-04-24,SPRING 2024,94334,6600,02,MGMT-6600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps. When Offered:Fall term annually.",,When Offered: Fall term annually,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Gaurav Jain,TBA,10,1,9,MGMT,2024-01-08,2024-04-24,SPRING 2024,90178,9990,01,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Thiagarajan Ravichandran,TBA,10,4,6,MGMT,2024-01-08,2024-04-24,SPRING 2024,92367,9990,02,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Raffi Enmanuel Garcia,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,90497,9990,03,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Aparna Gupta,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,91001,9990,04,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Timothy D. Golden,TBA,10,1,9,MGMT,2024-01-08,2024-04-24,SPRING 2024,94636,9990,05,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Jason Nicholas Kuruzovich,TBA,10,3,7,MGMT,2024-01-08,2024-04-24,SPRING 2024,90179,9990,06,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Bill Francis,TBA,15,1,14,MGMT,2024-01-08,2024-04-24,SPRING 2024,91423,9990,07,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Brian John Clark,TBA,10,3,7,MGMT,2024-01-08,2024-04-24,SPRING 2024,94672,9990,08,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,M.V. Shyam Kumar,TBA,10,2,8,MGMT,2024-01-08,2024-04-24,SPRING 2024,91727,9990,09,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Sebastian Souyris,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,90415,9990,10,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Nishtha Langer,TBA,10,1,9,MGMT,2024-01-08,2024-04-24,SPRING 2024,90416,9990,11,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Mert Hakan Hekimoglu,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,92409,9990,12,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Christopher McDermott,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,91893,9990,13,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Nalin Chanaka Perera Edirisinghe,TBA,10,1,9,MGMT,2024-01-08,2024-04-24,SPRING 2024,92211,9990,14,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Lydia Manikonda,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,92415,9990,15,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,Murali Dharan Raman Chari,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,92072,9990,17,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MGMT,2024-01-08,2024-04-24,SPRING 2024,92121,9990,18,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+DATA RESOURCE MANAGEMENT,LEC,4,MR,10:00AM,11:50AM,Jonathan Alexis McKinney,Troy Building 2012,40,13,27,MGMT,2024-01-08,2024-04-24,SPRING 2024,91342,4170,01,MGMT-4170,Data Resource Management,"This is a hands-on course where students will learn a mix of theoretical and practical tools. Using these tools, they will solve a variety of supply chain problems, both analytically and numerically. Students will examine data and use this to understand supply, demand, and inventory levels using R to model many of these problems. The course will also review the data and assess its suitability for modelling. Time series, Markov chain, optimal control, linear programming, statistical analysis, and other mathematical tools will be used to reveal the data's secrets. The bottom line is these insights will be used to make recommendations to firms and other decision makers. Students will also look at qualitative problems through the examination and discussions of cases in class. Not everything can be distilled to a number and so a holistic view of business problems will be taken to make more strategic recommendations. Teams of students will then solve and present these case results",Prerequisites/Corequisites: MGMT 4100 and MGMT 4110,When Offered: Fall and Springs terms annually,"['MGMT 4100', 'MGMT 4110']","['MGMT 4100', 'MGMT 4110']",Management and Technology
+APP ANALYTICS & PRED MODELING,LEC,3,MR,8:00AM,9:50AM,Lydia Manikonda,Russell Sage Laboratory 3101,60,22,38,MGMT,2024-01-08,2024-04-24,SPRING 2024,93155,6160,01,MGMT-6160,App Analytics & Pred Modeling,"Business analytics enables organizations to leverage large volumes of data in order to make more informed decisions. It encompasses a range of approaches to integrating, organizing, and applying data in various settings. This course develops an understanding of concepts in business analytics and data manipulation. In particular, through hands-on experience with a range of techniques students will learn to work with large data sets, analyze trends and segments, and develop models for prediction and forecasting. This course is part of the Master's program in Business Analytics and builds on foundations learned in the fall semester.",Prerequisites/Corequisites: MGMT 6100 or equivalent.,When Offered: Spring term annually.,['MGMT 6100'],['MGMT 6100'],Management and Technology
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Thilanka Munasinghe,Lally Hall 104,5,2,3,MGMT,2024-01-08,2024-04-24,SPRING 2024,94979,4600,01,MGMT-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall term annually,[],[],Management and Technology
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Thilanka Munasinghe,Lally Hall 104,5,0,5,MGMT,2024-01-08,2024-04-24,SPRING 2024,94980,4600,02,MGMT-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall term annually,[],[],Management and Technology
+TECHNOL ENTREPRENEURSHIP,LEC,3,TF,12:00PM,1:50PM,M.V. Shyam Kumar,Low Center for Industrial Inn. 3039,45,29,16,MGMT,2024-01-08,2024-04-24,SPRING 2024,92333,6620,01,MGMT-6620,Technol Entrepreneurship,"An introductory graduate course in initiating new technology-based business ventures and developing them into self-sustaining and profitable enterprises. Examines the process whereby a person decides to become an entrepreneur, screens opportunities, selects an appropriate product/market target, and obtains the necessary resources. Provides the theoretical and practical knowledge for the preparation of formal business plans. Students enrolled in the full-time MBA program cannot use this course on the Plan of Study. This course is intended for students enrolled in the part-time MBA, M.S. in Management, or those seeking degrees in other schools at Rensselaer.",None,When Offered: Spring term annually.,[],[],Management and Technology
+FINANCIAL MANAGEMENT I,LEC,3,MR,10:00AM,11:20AM,Bill Francis,Pittsburgh Building 4114,55,41,14,MGMT,2024-01-08,2024-04-24,SPRING 2024,92045,6020,01,MGMT-6020,Financial Management I,"The purpose of this course is to develop a working understanding of the major investment and financial decisions of the firm. Emphasis will be placed upon identifying and solving the problems commonly faced by financial managers. The course presents the needed theory and develops financial problem solving skills through individualized problem solving, structured case analysis, and industry and company analysis using Internet sources.",NoneWaiver: This course can be waived and replaced with an upper level Finance course by approval.,When Offered: Spring term annually.,[],[],Management and Technology
+STARTING UP A NEW VENTURE,LEC,3,TF,2:00PM,3:50PM,Jason Nicholas Kuruzovich,Darrin Communications Center 232,30,6,24,MGMT,2024-01-08,2024-04-24,SPRING 2024,94427,6630,01,MGMT-6630,Starting Up A New Venture,An understanding of the critical issues related to starting up a new business is gained through team-based experiential learning. Small teams of students develop a comprehensive business plan that can be used to raise money for a new or relatively new venture. The experiential learning process is enhanced through team meetings with faculty and/or course advisers and through oral presentations to the entire class. A student cannot receive credit for both the graduate and undergraduate versions of this course.,None,When Offered: Spring term annually.,[],[],Management and Technology
+GRAVITATION & COSMOLOGY,LEC,4,TF,10:00AM,11:50AM,Joel T. Giedt,Jonsson-Rowland Science Center 2C13,15,3,12,ASTR,2024-01-08,2024-04-24,SPRING 2024,92660,4240,01,ASTR-4240,Gravitation & Cosmology,"Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with PHYS 4240.)",Prerequisite: PHYS 4330 and MATH 4600.,When Offered: Spring term annually.,"['PHYS 4330', 'MATH 4600']","['PHYS 4330', 'MATH 4600']",Science
+ASTROPHYSICS OF GALAXIES,LEC,2,W,12:00PM,1:50PM,Heidi Jo Newberg,Jonsson-Rowland Science Center 1W01,15,3,12,ASTR,2024-01-08,2024-04-24,SPRING 2024,93216,4960,01,ASTR-4960,Astrophysics Of Galaxies,,,,[],[],Science
+PARTICLE ASTROPHYSICS,LEC,4,MR,2:00PM,3:50PM,Ethan Craig Brown,Darrin Communications Center 239,20,2,18,ASTR,2024-01-08,2024-04-24,SPRING 2024,94520,4961,01,ASTR-4961,Particle Astrophysics,,,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Ethan Craig Brown,TBA,10,0,10,ASTR,2024-01-08,2024-04-24,SPRING 2024,93375,6970,01,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Heidi Jo Newberg,TBA,10,1,9,ASTR,2024-01-08,2024-04-24,SPRING 2024,94712,6970,02,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Yong Zheng,TBA,10,1,9,ASTR,2024-01-08,2024-04-24,SPRING 2024,95020,6970,03,ASTR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+"STARS, GALAXIES AND THE COSMOS",LEC,4,MR,2:00PM,3:50PM,Charles Harold Martin,Ricketts Building 203,85,95,-10,ASTR,2024-01-08,2024-04-24,SPRING 2024,94338,1520,01,ASTR-1520,"STARS, Galaxies And The Cosmos","This course serves as an introduction to astronomy, focusing on understanding the physical nature of stars and galaxies, the vastness of the cosmos, and how astronomers have built up a comprehensive picture of the Universe in which we live through meticulous study.",,When Offered: Spring and summer terms annually.,[],[],Science
+PARTICLE ASTROPHYSICS,LEC,4,MR,2:00PM,3:50PM,Ethan Craig Brown,Darrin Communications Center 239,10,1,9,ASTR,2024-01-08,2024-04-24,SPRING 2024,95001,6960,01,ASTR-6960,Particle Astrophysics,Supervised reading and study in various fields of astrophysics.,,,[],[],Science
+OBSERVATIONAL ASTRONOMY,LEC,4,MR,12:00PM,1:50PM,Heidi Jo Newberg,Pittsburgh Building 4114,18,18,0,ASTR,2024-01-08,2024-04-24,SPRING 2024,92355,4120,01,ASTR-4120,Observational Astronomy,"An introduction to astronomical observing techniques and instrumentation. Optical telescope design. Observatory site selection. Telescopes above the atmosphere. Imaging techniques: photography, charge-coupled devices. Optical photometry, spectroscopy, and polarimetry, and their applications. Infrared techniques and applications. Radio astronomy. Includes evening laboratory sessions.",Prerequisite: ASTR 2050 or permission of instructor.,When Offered: Spring term annually.,['ASTR 2050'],['ASTR 2050'],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Eric Matthew Rutledge,TBA,1,0,1,BCBP,2024-01-08,2024-04-24,SPRING 2024,91881,4990,01,BCBP-4990,Senior Research Thesis,"Independent laboratory research, on or off campus, supervised by a faculty member, culminating in a written thesis; or literature research culminating in the writing of a review article. The thesis research must also be presented in the form of a poster presentation or a talk. This is a communication-intensive course.",Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Susan P. Gilbert,TBA,1,0,1,BCBP,2024-01-08,2024-04-24,SPRING 2024,91144,4990,02,BCBP-4990,Senior Research Thesis,"Independent laboratory research, on or off campus, supervised by a faculty member, culminating in a written thesis; or literature research culminating in the writing of a review article. The thesis research must also be presented in the form of a poster presentation or a talk. This is a communication-intensive course.",Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Robert J. Linhardt,TBA,1,0,1,BCBP,2024-01-08,2024-04-24,SPRING 2024,91193,4990,03,BCBP-4990,Senior Research Thesis,"Independent laboratory research, on or off campus, supervised by a faculty member, culminating in a written thesis; or literature research culminating in the writing of a review article. The thesis research must also be presented in the form of a poster presentation or a talk. This is a communication-intensive course.",Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Blanca L. Barquera,TBA,1,0,1,BCBP,2024-01-08,2024-04-24,SPRING 2024,91901,4990,04,BCBP-4990,Senior Research Thesis,"Independent laboratory research, on or off campus, supervised by a faculty member, culminating in a written thesis; or literature research culminating in the writing of a review article. The thesis research must also be presented in the form of a poster presentation or a talk. This is a communication-intensive course.",Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Chunyu Wang,TBA,0,0,0,BCBP,2024-01-08,2024-04-24,SPRING 2024,91963,4990,05,BCBP-4990,Senior Research Thesis,"Independent laboratory research, on or off campus, supervised by a faculty member, culminating in a written thesis; or literature research culminating in the writing of a review article. The thesis research must also be presented in the form of a poster presentation or a talk. This is a communication-intensive course.",Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+THE BIOLOGY OF SYSTEMS,LEC,4,TF,2:00PM,3:50PM,Jennifer Marie Hurley,Troy Building 2015,30,1,29,BCBP,2024-01-08,2024-04-24,SPRING 2024,93425,6650,01,BCBP-6650,The Biology Of Systems,"This course is designed to be a first course in the study of ""systems biology"", to introduce students to the field, the experimental and computational methods that are used within it, and the type of insights that the field can provide to biology. To fully appreciate the complexity of living systems, researchers gather systematic, quantitative measurements of a system's components using cutting-edge omics techniques. In addition, researchers also leverage computing power to describe, model, and predict dynamic behaviors that could otherwise not be perceived in such large-scale omics data. Along with these topics, students will learn to critically read current scientific literature. A student cannot get credit for both BCBP 4660/ BIOL 4660 and BCBP 6650/ BIOL 6650.",Prerequisites/Corequisites: BIOL 4620 and BCBP 4760 or permission of the instructor.,When Offered: Spring term annually.,"['BIOL 4620', 'BCBP 4760']","['BIOL 4620', 'BCBP 4760']",Science
+PROFESSIONAL PROJECT,LEC,1-4,,,,Catherine Ann Royer,TBA,10,2,8,BCBP,2024-01-08,2024-04-24,SPRING 2024,94995,6970,01,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-4,,,,Wilfredo Colon,TBA,10,0,10,BCBP,2024-01-08,2024-04-24,SPRING 2024,94398,6970,02,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-4,,,,Richard Alan Gross,TBA,10,1,9,BCBP,2024-01-08,2024-04-24,SPRING 2024,95111,6970,03,BCBP-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+GENETIC ENGINEERING,LEC,4,MR,10:00AM,11:50AM,Christopher Bystroff,Jonsson Engineering Center 3210,35,21,14,BCBP,2024-01-08,2024-04-24,SPRING 2024,91260,4310,01,BCBP-4310,Genetic Engineering,"In this course, students will explore the molecular methods and applications of recombinant DNA technology and the issues regarding their use through case studies on the effect of genetic engineering in medicine, agriculture, biology, forensics, and various other areas of technology. The course has three major components: 1) techniques used in the generation of recombinant molecules, 2) application of recombinant technology to diagnostics and therapeutics and 3) genetically modified organisms.",Prerequisites or corequisites: BIOL 4620 and BIOL 4760 or BCBP 4760 or CHEM 4760; or permission of instructor.,When Offered: Spring term annually.,"['BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']","['BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']",Science
+MASTER'S THESIS,LEC,1-9,,,,TBA,TBA,80,0,80,BCBP,2024-01-08,2024-04-24,SPRING 2024,90204,6990,03,BCBP-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,TBA,TBA,80,0,80,BCBP,2024-01-08,2024-04-24,SPRING 2024,90205,6990,04,BCBP-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MOLECULAR MODELING,LEC,4,TF,10:00AM,11:50AM,Christopher Bystroff/Chunyu Wang,Low Center for Industrial Inn. 3116,30,4,26,BCBP,2024-01-08,2024-04-24,SPRING 2024,92473,4550,01,BCBP-4550,Molecular Modeling,"This course covers the theory and practice of the structural modeling of proteins and other biomolecules using informatics-driven and energy-based approaches. Topics include template-based comparative modeling, secondary structure prediction, tertiary structure prediction, protein classification, sidechain rotamers, docking, protein design, energy minimization, electrostatics, molecular dynamics, and molecular surfaces. Molecular modeling software will be provided. Laptop computers are required. BIOL 4550, BIOL 6420, BCBP 4550, and BCBP 6420 meet jointly; only one of these courses can be taken for credit.",Prerequisite: MATH 1020 and BIOL 4620; and BIOL 4760 or (CHEM 4760 or BCBP 4760),When Offered: Spring term annually.,"['MATH 1020', 'BIOL 4620', 'BIOL 4760']","['MATH 1020', 'BIOL 4620', 'BIOL 4760']",Science
+DISSERTATION,LEC,1-15,,,,Gaetano T. Montelione,TBA,10,1,9,BCBP,2024-01-08,2024-04-24,SPRING 2024,95060,9990,01,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Blanca L. Barquera,TBA,10,0,10,BCBP,2024-01-08,2024-04-24,SPRING 2024,92676,9990,02,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Catherine Ann Royer,TBA,10,2,8,BCBP,2024-01-08,2024-04-24,SPRING 2024,93532,9990,03,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,George I. Makhatadze,TBA,10,1,9,BCBP,2024-01-08,2024-04-24,SPRING 2024,91848,9990,04,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Chunyu Wang,TBA,10,3,7,BCBP,2024-01-08,2024-04-24,SPRING 2024,91849,9990,05,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Scott Thomas Forth,TBA,25,0,25,BCBP,2024-01-08,2024-04-24,SPRING 2024,93244,9990,06,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Douglas Martin Swank,TBA,10,0,10,BCBP,2024-01-08,2024-04-24,SPRING 2024,91851,9990,07,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Christopher Bystroff,TBA,10,1,9,BCBP,2024-01-08,2024-04-24,SPRING 2024,91850,9990,08,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Susan P. Gilbert,TBA,10,0,10,BCBP,2024-01-08,2024-04-24,SPRING 2024,92967,9990,09,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Steven Cramer,TBA,10,1,9,BCBP,2024-01-08,2024-04-24,SPRING 2024,93138,9990,10,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jennifer Marie Hurley,TBA,10,2,8,BCBP,2024-01-08,2024-04-24,SPRING 2024,93533,9990,11,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Mattheos Koffas,TBA,10,1,9,BCBP,2024-01-08,2024-04-24,SPRING 2024,94358,9990,12,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Thilanka Munasinghe,Lally Hall 104,5,1,4,BCBP,2024-01-08,2024-04-24,SPRING 2024,94986,4600,01,BCBP-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",,When Offered: Fall term annually,[],[],Science
+THE BIOLOGY OF SYSTEMS,LEC,4,TF,2:00PM,3:50PM,Jennifer Marie Hurley,Troy Building 2015,30,11,19,BCBP,2024-01-08,2024-04-24,SPRING 2024,93424,4660,01,BCBP-4660,The Biology Of Systems,"This course is designed to be a first course in the study of ""systems biology"", to introduce students to the field, the experimental and computational methods that are used within it, and the type of insights that the field can provide to biology. To fully appreciate the complexity of living systems, researchers gather systematic, quantitative measurements of a system's components using cutting-edge omics techniques. In addition, researchers also leverage computing power to describe, model, and predict dynamic behaviors that could otherwise not be perceived in such large-scale omics data. Along with these topics, students will learn to critically read current scientific literature.",Prerequisites/Corequisites: BIOL 4620 and BIOL 4760 or BCBP 4760 or CHEM 4760; or permission of the instructor.,When Offered: Spring term annually.,"['BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']","['BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']",Science
+BIOCHEMISTRY LAB,LEC,6,T,12:30PM,5:20PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center BW01,8,5,3,BCBP,2024-01-08,2024-04-24,SPRING 2024,93704,4710,01,BCBP-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. (Students cannot obtain credit for both this course and BIOL 4710.) This is a communication-intensive course.",Prerequisite:BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+BIOCHEMISTRY LAB,LEC,6,F,2:00PM,3:50PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center 2C13,8,5,3,BCBP,2024-01-08,2024-04-24,SPRING 2024,93704,4710,01,BCBP-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. (Students cannot obtain credit for both this course and BIOL 4710.) This is a communication-intensive course.",Prerequisite:BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+BIOCHEMISTRY LAB,LEC,6,W,12:30PM,5:20PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center BW01,8,2,6,BCBP,2024-01-08,2024-04-24,SPRING 2024,94235,4710,02,BCBP-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. (Students cannot obtain credit for both this course and BIOL 4710.) This is a communication-intensive course.",Prerequisite:BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+BIOCHEMISTRY LAB,LEC,6,F,2:00PM,3:50PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center 2C13,8,2,6,BCBP,2024-01-08,2024-04-24,SPRING 2024,94235,4710,02,BCBP-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. (Students cannot obtain credit for both this course and BIOL 4710.) This is a communication-intensive course.",Prerequisite:BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+MOLECULAR BIOCHEM II,LEC,4,MR,2:00PM,3:50PM,George I. Makhatadze,Lally Hall 102,40,21,19,BCBP,2024-01-08,2024-04-24,SPRING 2024,90019,4770,01,BCBP-4770,Molecular Biochem Ii,"The second semester of the molecular biochemistry sequence. Topics include lipids and lipid metabolism, amino acid metabolism and the coenzymes involved in this metabolism, nucleic acid synthesis and chemistry, protein synthesis and degradation, integration of metabolism, photobiology, and photosynthesis. This course is taught in studio mode. (Students cannot obtain credit for both this course and either BIOL 4770 or CHEM 4770.)",Prerequisite: BCBP 4760 or BIOL 4760 or CHEM 4760; or equivalent.,When Offered: Spring term annually.,"['BCBP 4760', 'BIOL 4760', 'CHEM 4760']","['BCBP 4760', 'BIOL 4760', 'CHEM 4760']",Science
+GENETIC ENGINEERING,LEC,4,MR,10:00AM,11:50AM,Christopher Bystroff,Jonsson Engineering Center 3210,15,5,10,BCBP,2024-01-08,2024-04-24,SPRING 2024,91259,6310,01,BCBP-6310,Genetic Engineering,"In this course, students will explore the molecular methods and applications of recombinant DNA technology and the issues regarding their use through case studies on the effect of genetic engineering on medicine, agriculture, biology, forensics, and various other areas of technology. The course has three major components: 1) techniques used in the generation of recombinant molecules, 2) application of recombinant technology to diagnostics and therapeutics and 3) genetically modified organisms.",Undergraduate course in molecular biology and biochemistry or permission of instructor.,When Offered: Spring term annually.,[],[],Science
+MOLECULAR MODELING,LEC,4,TF,10:00AM,11:50AM,Christopher Bystroff/Chunyu Wang,Low Center for Industrial Inn. 3116,30,1,29,BCBP,2024-01-08,2024-04-24,SPRING 2024,92472,6420,01,BCBP-6420,Molecular Modeling,"This course covers the theory and practice of the structural modeling of proteins and other biomolecules using informatics-driven and energy-based approaches. Topics include template-based comparative modeling, secondary structure prediction, tertiary structure prediction, protein classification, sidechain rotamers, docking, protein design, energy minimization, electrostatics, molecular dynamics, and molecular surfaces. Molecular modeling software will be provided. Laptop computers are required. BIOL 4550, BIOL 6420, BCBP 4550, and BCBP 6420 meet jointly; only one of these courses can be taken for credit.","Prerequisite: MATH 1020, BIOL 4620, BIOL 4760.",When Offered: Spring term annually.,"['MATH 1020', 'BIOL 4620', 'BIOL 4760']","['MATH 1020', 'BIOL 4620', 'BIOL 4760']",Science
+ACCELERATED PROGRAM,LEC,0,,,,Susan P. Gilbert,TBA,15,15,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,95030,0060,01,BIOL-0060,Accelerated Program,,,,[],[],Science
+INVESTIGATIVE MEDICINE II,LEC,1,,,,Douglas Martin Swank,Off-Campus ,20,15,5,BIOL,2024-01-08,2024-04-24,SPRING 2024,93212,4120,01,BIOL-4120,Investigative Medicine Ii,Students will be exposed to several clinical experiences at a level typically found in college graduates/post graduates who are entering medical school.,Prerequisite: BIOL 4110 or BMED 4110; Intended only for 3rd Year RPI students who are in the combined B.S./M.D. Physician Scientist Program with Albany Medical College.,When Offered: Spring term annually.,"['BIOL 4110', 'BMED 4110']","['BIOL 4110', 'BMED 4110']",Science
+BIOMEDICAL RESEARCH,LEC,6,,,,Douglas Martin Swank,TBA,16,15,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94603,4130,01,BIOL-4130,Biomedical Research,"Independent research in health sciences, supervised by a faculty member, for the purpose of developing research skills. Such skills include defining a research project, both as a written and oral exercise for a scientific and general audience, and gathering preliminary research data enabling both a written and oral description of the project in the form of a research proposal and an oral defense. This is a communication-intensive course.",Restricted to 3rd Year RPI students who are in the combined B.S./M.D. Physician Scientist Program with Albany Medical College. Permission of instructor.,When Offered: Spring term annually.,[],[],Science
+MOLECULAR MODELING,LEC,4,TF,10:00AM,11:50AM,Christopher Bystroff/Chunyu Wang,Low Center for Industrial Inn. 3116,30,4,26,BIOL,2024-01-08,2024-04-24,SPRING 2024,90371,4550,01,BIOL-4550,Molecular Modeling,"This course covers the theory and practice of the structural modeling of proteins and other biomolecules using informatics-driven and energy-based approaches. Topics include template-based comparative modeling, secondary structure prediction, tertiary structure prediction, protein classification, sidechain rotamers, docking, protein design, energy minimization, electrostatics, molecular dynamics, and molecular surfaces. Molecular modeling software will be provided. Laptop computers are required. BIOL 4550, BIOL 6420, BCBP 4550, and BCBP 6420 meet jointly.","Prerequisites: MATH 1020, BIOL 4620 and BIOL 4760/BCBP 4760/CHEM 4760.",When Offered: Spring term annually.,"['MATH 1020', 'BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']","['MATH 1020', 'BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']",Science
+CELLULAR NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Marvin D Bentley,Jonsson-Rowland Science Center 2C13,4,3,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,93729,6150,01,BIOL-6150,Cellular Neuroscience,"Neurons are uniquely organized to facilitate signal transmission and information processing in the brain. This course will examine the mechanisms that develop and maintain neurons, the unusual cell-biological problems these cells solve, and the experimental tools that drive modern neuroscience research. Students will read current scientific literature, evaluate it critically, and develop a research project.","Prerequisites: BIOL 4100 and BIOL 4260 or equivalents, or by permission of instructor.",When Offered: Spring term annually.,"['BIOL 4100', 'BIOL 4260']","['BIOL 4100', 'BIOL 4260']",Science
+MOLECULAR BIOLOGY,LEC,4,TF,10:00AM,11:50AM,Eric Matthew Rutledge,Darrin Communications Center 324,90,92,-2,BIOL,2024-01-08,2024-04-24,SPRING 2024,90020,4620,01,BIOL-4620,Molecular Biology,"Nucleotide biosynthesis; structure, replication, transcription, and translation of nucleic acids; reassociation of nucleic acids; molecular cloning, sequencing, and endonuclease mapping of DNA; control of gene expression in bacteria and higher organisms.",Prerequisites: BIOL 2120 and BIOL 2500 or permission of the instructor.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2500']","['BIOL 2120', 'BIOL 2500']",Science
+CELLULAR NEUROSCIENCE,LEC,4,TF,12:00PM,1:50PM,Marvin D Bentley,Jonsson-Rowland Science Center 2C13,18,15,3,BIOL,2024-01-08,2024-04-24,SPRING 2024,93728,4150,01,BIOL-4150,Cellular Neuroscience,"Neurons are uniquely organized to facilitate signal transmission and information processing in the brain. This course will examine the mechanisms that develop and maintain neurons, the unusual cell-biological problems these cells solve, and the experimental tools that drive modern neuroscience research. Students will read current scientific literature, evaluate it critically, and develop a research project.","Prerequisites: BIOL 4100 and BIOL 4260 or equivalents, or by permission of instructor.",When Offered: Spring term annually.,"['BIOL 4100', 'BIOL 4260']","['BIOL 4100', 'BIOL 4260']",Science
+SENIOR RESEARCH THESIS,LEC,1-4,,,,Chunyu Wang,TBA,0,0,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,91961,4990,05,BIOL-4990,Senior Research Thesis,"Independent research, supervised by a faculty member, culminating in a written thesis and oral presentation.",Permission of instructor.,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Susan P. Gilbert,TBA,0,0,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,92674,4990,08,BIOL-4990,Senior Research Thesis,"Independent research, supervised by a faculty member, culminating in a written thesis and oral presentation.",Permission of instructor.,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+SENIOR RESEARCH THESIS,LEC,4,,,,Christopher Bystroff,TBA,0,1,-1,BIOL,2024-01-08,2024-04-24,SPRING 2024,92000,4990,10,BIOL-4990,Senior Research Thesis,"Independent research, supervised by a faculty member, culminating in a written thesis and oral presentation.",Permission of instructor.,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+BIOSTATISTICS,LEC,4,TF,10:00AM,11:50AM,Jeremy Lynch Farrell,Low Center for Industrial Inn. 3130,30,26,4,BIOL,2024-01-08,2024-04-24,SPRING 2024,92966,4200,01,BIOL-4200,Biostatistics,"An introduction to the concepts and techniques of modern statistics. Computer-based, in-class sessions will emphasize hands-on application of statistical techniques using data and examples drawn from the biological and medical sciences. Pre-class, online exercises will prepare students for in-depth classroom explorations. Topics covered will include sampling, regression, analysis of variance, and factor analysis, MANOVA, maximum likelihood methods, discriminant analysis, time series analysis, and forecasting. The final project requires analysis of a major research-related data set and write-up of results in the format of a scientific paper.","Prerequisites: BIOL 1010 and MATH 1010, or permission of the instructor.","When Offered: Fall, spring, and summer term annually.","['BIOL 1010', 'MATH 1010']","['BIOL 1010', 'MATH 1010']",Science
+BIOSTATISTICS,LEC,4,MR,12:00PM,1:50PM,Jonathan T Stetler,Jonsson Engineering Center 4309,35,35,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,94453,4200,02,BIOL-4200,Biostatistics,"An introduction to the concepts and techniques of modern statistics. Computer-based, in-class sessions will emphasize hands-on application of statistical techniques using data and examples drawn from the biological and medical sciences. Pre-class, online exercises will prepare students for in-depth classroom explorations. Topics covered will include sampling, regression, analysis of variance, and factor analysis, MANOVA, maximum likelihood methods, discriminant analysis, time series analysis, and forecasting. The final project requires analysis of a major research-related data set and write-up of results in the format of a scientific paper.","Prerequisites: BIOL 1010 and MATH 1010, or permission of the instructor.","When Offered: Fall, spring, and summer term annually.","['BIOL 1010', 'MATH 1010']","['BIOL 1010', 'MATH 1010']",Science
+THE BIOLOGY OF SYSTEMS,LEC,4,TF,2:00PM,3:50PM,Jennifer Marie Hurley,Troy Building 2015,30,11,19,BIOL,2024-01-08,2024-04-24,SPRING 2024,93422,4660,01,BIOL-4660,The Biology Of Systems,"This course is designed to be a first course in the study of ""systems biology"", to introduce students to the field, the experimental and computational methods that are used within it, and the type of insights that the field can provide to biology. To fully appreciate the complexity of living systems, researchers gather systematic, quantitative measurements of a system's components using cutting-edge omics techniques. In addition, researchers also leverage computing power to describe, model, and predict dynamic behaviors that could otherwise not be perceived in such large scale omics data. Along with these topics, students will learn to critically read current scientific literature.",Prerequisites: BIOL 4620 and BIOL 4760 or BCBP 4760 or CHEM 4760; or permission of the instructor.,When Offered: Spring term annually.,"['BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']","['BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']",Science
+SEMINAR IN BIOLOGY,LEC,1,M,12:00PM,12:50PM,Marvin D Bentley,Walker Laboratory 6113,60,32,28,BIOL,2024-01-08,2024-04-24,SPRING 2024,90087,6900,01,BIOL-6900,Seminar In Biology,Weekly discussion of selected topics in biology by graduate students and staff.,,When Offered: Fall and spring terms annually.,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Ricky A Relyea,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92057,6970,01,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Eric Matthew Rutledge,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92158,6970,02,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,George I. Makhatadze,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92212,6970,03,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Christopher Bystroff,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92241,6970,04,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Douglas Martin Swank,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92268,6970,05,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Qun Wan,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92416,6970,06,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,4,,,,Mattheos Koffas,TBA,1,0,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,93561,6970,07,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Lee Ligon,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,94976,6970,08,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Catherine Ann Royer,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,94996,6970,09,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Kevin Christopher Rose,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,94997,6970,10,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+MASTERS PROFESSIONAL PROJECT,LEC,1-9,,,,Scott Thomas Forth,TBA,10,1,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,95446,6970,11,BIOL-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Science
+DEVELOPMENTAL BIOLOGY,LEC,4,MR,2:00PM,3:50PM,Douglas Martin Swank,Folsom Library 107,50,46,4,BIOL,2024-01-08,2024-04-24,SPRING 2024,91444,4250,01,BIOL-4250,Developmental Biology,"Model systems provide the experimental basis for understanding the conserved principles of developmental biology. This class will cover fundamental topics including axis specification, pattern formation, cell fate and determination, cell differentiation, senescence, and apoptosis. Emphasis will be placed on integrating gene function and cell behavior with development. Model systems include vertebrates (e.g. frog and chick) and genetically tractable invertebrates (e.g. fruit flies and roundworms).",Prerequisites: BIOL 2120 and BIOL 2500.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2500']","['BIOL 2120', 'BIOL 2500']",Science
+BIOCHEMISTRY LAB,LEC,6,T,12:30PM,5:20PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center BW01,8,6,2,BIOL,2024-01-08,2024-04-24,SPRING 2024,93701,4710,01,BIOL-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated, as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.",Prerequisites: BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+BIOCHEMISTRY LAB,LEC,6,F,2:00PM,3:50PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center 2C13,8,6,2,BIOL,2024-01-08,2024-04-24,SPRING 2024,93701,4710,01,BIOL-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated, as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.",Prerequisites: BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+BIOCHEMISTRY LAB,LEC,6,W,12:30PM,5:20PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center BW01,8,3,5,BIOL,2024-01-08,2024-04-24,SPRING 2024,94234,4710,02,BIOL-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated, as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.",Prerequisites: BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+BIOCHEMISTRY LAB,LEC,6,F,2:00PM,3:50PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center 2C13,8,3,5,BIOL,2024-01-08,2024-04-24,SPRING 2024,94234,4710,02,BIOL-4710,Biochemistry Lab,"Major principles of biochemistry are illustrated, as students purify and analyze specific proteins. Experience is obtained with various techniques including protein extraction from bacteria and tissues, chromatography, ultracentrifugation, spectrophotometric analysis, and electrophoresis. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.",Prerequisites: BIOL 2120 and BIOL 2125.,When Offered: Spring term annually.,"['BIOL 2120', 'BIOL 2125']","['BIOL 2120', 'BIOL 2125']",Science
+RESEARCH,LEC,1-16,,,,Eric Matthew Rutledge,TBA,1,0,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,92157,6980,01,BIOL-6980,Research,,,,[],[],Science
+MOLECULAR MODELING,LEC,4,TF,10:00AM,11:50AM,Christopher Bystroff/Chunyu Wang,Low Center for Industrial Inn. 3116,30,1,29,BIOL,2024-01-08,2024-04-24,SPRING 2024,92474,6420,01,BIOL-6420,Molecular Modeling,"This course covers the theory and practice of the structural modeling of proteins and other biomolecules using informatics-driven and energy-based approaches. Topics include template-based comparative modeling, secondary structure prediction, tertiary structure prediction, protein classification, sidechain rotamers, docking, protein design, energy minimization, electrostatics, molecular dynamics, and molecular surfaces. Molecular modeling software will be provided. Laptop computers are required. BIOL 4550, BIOL 6420, BCBP 4550, and BCBP 6420 meet jointly.","Prerequisites/Corequisites: MATH 1020, BIOL 4620, and BIOL 4760/BCBP 4760/CHEM 4760.",When Offered: Spring term annually.,"['MATH 1020', 'BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']","['MATH 1020', 'BIOL 4620', 'BIOL 4760', 'BCBP 4760', 'CHEM 4760']",Science
+RESEARCH ROTATION III,LEC,2,,,,Jennifer Marie Hurley,TBA,12,3,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,92498,6930,01,BIOL-6930,Research Rotation Iii,"The student will perform hands-on research in the lab of a Biology faculty member to learn basic research methods and techniques, accomplish a small research project, and determine whether the lab is a good fit for thesis research.",,When Offered: Spring term annually.,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Susan P. Gilbert,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92004,6990,01,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Christopher Bystroff/Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92071,6990,02,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Eric Matthew Rutledge,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92210,6990,03,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92382,6990,04,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,George I. Makhatadze,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,91846,9990,01,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Susan P. Gilbert,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,91847,9990,02,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,90191,9990,03,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Kevin Christopher Rose,TBA,10,4,6,BIOL,2024-01-08,2024-04-24,SPRING 2024,92370,9990,04,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Catherine Ann Royer,TBA,10,1,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,92414,9990,05,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Christopher Bystroff,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,90329,9990,06,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Ricky A Relyea,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,92685,9990,07,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Qun Wan,TBA,10,1,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,94682,9990,08,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Jonathan Dordick,TBA,10,1,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,92680,9990,11,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Jennifer Marie Hurley,TBA,10,3,7,BIOL,2024-01-08,2024-04-24,SPRING 2024,93252,9990,13,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Blanca L. Barquera,TBA,10,1,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,90555,9990,14,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Marvin D Bentley,TBA,10,2,8,BIOL,2024-01-08,2024-04-24,SPRING 2024,93426,9990,15,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Richard Alan Gross,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,93745,9990,16,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Scott Thomas Forth,TBA,10,2,8,BIOL,2024-01-08,2024-04-24,SPRING 2024,93509,9990,17,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Chunyu Wang,TBA,10,2,8,BIOL,2024-01-08,2024-04-24,SPRING 2024,90557,9990,19,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Mattheos Koffas,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,90556,9990,20,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Lee Ligon,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,91272,9990,24,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Douglas Martin Swank,TBA,10,0,10,BIOL,2024-01-08,2024-04-24,SPRING 2024,91273,9990,25,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+CURR TOPICS-CYTOSKELETAL RSCH,LEC,2,M,10:00AM,11:50AM,Scott Thomas Forth,Russell Sage Laboratory 4112,12,7,5,BIOL,2024-01-08,2024-04-24,SPRING 2024,93738,6960,01,BIOL-6960,Curr TOPICS-CYTOSKELETAL Rsch,"This is an in-depth study of current papers within the broad field of biology research. Students will read and critique primary papers, present current research articles, and lead critical discussions.",Varies depending on topic offered.,When Offered: Varies,[],[],Science
+INTRODUCTION TO BIOLOGY,LEC,3,MR,10:00AM,11:50AM,Georgi G. Shablovsky/Jeremy Lynch Farrell,Ricketts Building 203,135,129,6,BIOL,2024-01-08,2024-04-24,SPRING 2024,92464,1010,01,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,MR,12:00PM,1:50PM,Georgi G. Shablovsky/Jeremy Lynch Farrell,Ricketts Building 203,135,129,6,BIOL,2024-01-08,2024-04-24,SPRING 2024,92465,1010,02,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,TF,10:00AM,11:50AM,Georgi G. Shablovsky/Seemanti Ramanath,Darrin Communications Center 330,135,132,3,BIOL,2024-01-08,2024-04-24,SPRING 2024,92466,1010,03,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+MOLECULAR BIOCHEM II,LEC,4,MR,2:00PM,3:50PM,George I. Makhatadze,Lally Hall 102,60,8,52,BIOL,2024-01-08,2024-04-24,SPRING 2024,90021,4770,01,BIOL-4770,Molecular Biochem Ii,"The second semester of the molecular biochemistry sequence. Topics include lipids and lipid metabolism, amino acid metabolism and the coenzymes involved in this metabolism, nucleic acid synthesis and chemistry, protein synthesis and degradation, integration of metabolism, photobiology, and photosynthesis. This course is taught in studio mode.",Prerequisite: BIOL 4760 or BCBP 4760 or CHEM 4760; or permission of instructor.,When Offered: Spring term annually.,"['BIOL 4760', 'BCBP 4760', 'CHEM 4760']","['BIOL 4760', 'BCBP 4760', 'CHEM 4760']",Science
+BIOLOGY CORE COURSE II,LEC,4,MW,4:00PM,5:20PM,Lee Ligon,Jonsson-Rowland Science Center 2C13,20,3,17,BIOL,2024-01-08,2024-04-24,SPRING 2024,91442,6520,01,BIOL-6520,Biology Core Course Ii,"An intensive course designed to provide instruction and stimulate discussion on important topics relevant to biological research. It is loosely divided into three sections: 1) overview of major areas of faculty research; 2) professional development topics such as hypothesis testing and design of experiments, responsible use of statistics, and scientific funding; and 3) scientific writing. This course is required of and limited to first year students in the Biology and Biochemistry/Biophysics Ph.D. programs.",Prerequisite: This is a continuation of the fall course BIOL 6510. Completed bachelor's degree or permission of instructor.,When Offered: Spring term annually.,['BIOL 6510'],['BIOL 6510'],Science
+BIOLOGY CORE COURSE II,LEC,4,F,4:00PM,5:20PM,Lee Ligon,Jonsson-Rowland Science Center 2C13,20,3,17,BIOL,2024-01-08,2024-04-24,SPRING 2024,91442,6520,01,BIOL-6520,Biology Core Course Ii,"An intensive course designed to provide instruction and stimulate discussion on important topics relevant to biological research. It is loosely divided into three sections: 1) overview of major areas of faculty research; 2) professional development topics such as hypothesis testing and design of experiments, responsible use of statistics, and scientific funding; and 3) scientific writing. This course is required of and limited to first year students in the Biology and Biochemistry/Biophysics Ph.D. programs.",Prerequisite: This is a continuation of the fall course BIOL 6510. Completed bachelor's degree or permission of instructor.,When Offered: Spring term annually.,['BIOL 6510'],['BIOL 6510'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,M,9:00AM,11:50AM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 5113,60,24,36,BIOL,2024-01-08,2024-04-24,SPRING 2024,92468,1015,01,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,M,1:00PM,3:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 5113,64,53,11,BIOL,2024-01-08,2024-04-24,SPRING 2024,92469,1015,02,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,T,12:00PM,2:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,55,9,BIOL,2024-01-08,2024-04-24,SPRING 2024,92470,1015,03,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,W,10:00AM,12:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,58,6,BIOL,2024-01-08,2024-04-24,SPRING 2024,92471,1015,04,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,W,1:00PM,3:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,59,5,BIOL,2024-01-08,2024-04-24,SPRING 2024,93146,1015,05,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,F,12:00PM,2:50PM,Georgi G. Shablovsky/Seemanti Ramanath,Walker Laboratory 6113,64,22,42,BIOL,2024-01-08,2024-04-24,SPRING 2024,93147,1015,06,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+INTRO TO CELL & MOLEC BIOLOGY,LEC,3,MR,10:00AM,11:50AM,Michael T Klein,Academy Hall AUD,95,82,13,BIOL,2024-01-08,2024-04-24,SPRING 2024,94201,2120,01,BIOL-2120,Intro To Cell & Molec Biology,"Structural and functional relationships of cells are discussed with regard to similarities among all living organisms. Introduction to cellular biochemistry, metabolism and energy flow, cellular and Mendelian genetics, and the chemical basis of heredity.",Prerequisite: BIOL 1010; Corequisite: BIOL 2125,When Offered: Spring and fall terms annually.,"['BIOL 1010', 'BIOL 2125']","['BIOL 1010', 'BIOL 2125']",Science
+INTRO TO CELL & MOLEC BIOLOGY,LEC,3,MR,2:00PM,3:50PM,Michael T Klein,Academy Hall AUD,95,84,11,BIOL,2024-01-08,2024-04-24,SPRING 2024,94202,2120,02,BIOL-2120,Intro To Cell & Molec Biology,"Structural and functional relationships of cells are discussed with regard to similarities among all living organisms. Introduction to cellular biochemistry, metabolism and energy flow, cellular and Mendelian genetics, and the chemical basis of heredity.",Prerequisite: BIOL 1010; Corequisite: BIOL 2125,When Offered: Spring and fall terms annually.,"['BIOL 1010', 'BIOL 2125']","['BIOL 1010', 'BIOL 2125']",Science
+INTRO BIOL COMPUTATIONAL LAB,LEC,1,W,10:00AM,12:50PM,Jonathan T Stetler/Georgi G. Shablovsky,Low Center for Industrial Inn. 4050,64,60,4,BIOL,2024-01-08,2024-04-24,SPRING 2024,94719,1016,01,BIOL-1016,Intro Biol Computational Lab,"The goal of this laboratory course is to learn about biology through computational data analysis. Students will be introduced to a wide variety of real-world biological data sets. Students will learn how to manage, visualize, analyze, and interpret biological data. This class culminates in a collaborative research project. Students enrolled in a major other than biology and students with an interest in computational biology are particularly encouraged to register for this course",Prerequisites/Corequisites: Corequisite: BIOL 1010.,When Offered: Fall term annually.,['BIOL 1010'],['BIOL 1010'],Science
+INTRO BIOL COMPUTATIONAL LAB,LEC,1,W,1:00PM,3:50PM,Jonathan T Stetler/Georgi G. Shablovsky,Low Center for Industrial Inn. 4050,64,63,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94720,1016,02,BIOL-1016,Intro Biol Computational Lab,"The goal of this laboratory course is to learn about biology through computational data analysis. Students will be introduced to a wide variety of real-world biological data sets. Students will learn how to manage, visualize, analyze, and interpret biological data. This class culminates in a collaborative research project. Students enrolled in a major other than biology and students with an interest in computational biology are particularly encouraged to register for this course",Prerequisites/Corequisites: Corequisite: BIOL 1010.,When Offered: Fall term annually.,['BIOL 1010'],['BIOL 1010'],Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,M,2:00PM,4:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3W18,22,22,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,94203,2125,01,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,M,2:00PM,4:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3C30,16,0,16,BIOL,2024-01-08,2024-04-24,SPRING 2024,94538,2125,02,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,T,9:00AM,11:50AM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3W18,20,20,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,94204,2125,03,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,T,9:00AM,11:50AM,Richard Peter Bonocora/Keylon Levere Cheeseman,Jonsson-Rowland Science Center 3C30,16,16,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,94205,2125,04,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,T,1:00PM,3:50PM,Richard Peter Bonocora/Michael T Klein,Jonsson-Rowland Science Center 3W18,20,19,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94206,2125,05,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,T,1:00PM,3:50PM,Richard Peter Bonocora/Keylon Levere Cheeseman,Jonsson-Rowland Science Center 3C30,16,15,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94207,2125,06,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,W,9:00AM,11:50AM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3W18,20,20,0,BIOL,2024-01-08,2024-04-24,SPRING 2024,94208,2125,07,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,W,9:00AM,11:50AM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3C30,16,17,-1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94209,2125,08,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,W,1:00PM,3:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3W18,20,19,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94210,2125,09,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+INTRO CELL & MOLEC BIOL LAB,LEC,1,W,1:00PM,3:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3C30,16,15,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,94211,2125,10,BIOL-2125,Intro Cell & Molec Biol Lab,The goal of this course is to gain practical experience with cellular and molecular biology through hands-on experimental techniques. The laboratory exercises are designed to illustrate current concepts in cellular and molecular biology.,Prerequisite: BIOL 1010; Corequisite: BIOL 2120.,"When Offered: Summer, fall and spring terms annually.","['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+PRINCIPLES OF ECOLOGY,LEC,4,TF,12:00PM,1:50PM,Ricky A Relyea,Low Center for Industrial Inn. 4040,30,29,1,BIOL,2024-01-08,2024-04-24,SPRING 2024,91274,4850,01,BIOL-4850,Principles Of Ecology,"A study of the fundamental principles of the ecology of plants and animals. Interrelationships between organisms and their environments are discussed as well as material and energy balances in the ecosystem. Emphasis on the biology of populations (producers, consumers, and decomposers).",Prerequisite: BIOL 1010 or BIOL 2120.,When Offered: Spring term annually.,"['BIOL 1010', 'BIOL 2120']","['BIOL 1010', 'BIOL 2120']",Science
+ETHICAL ISSUES IN BIOTECHNOLOGY,LEC,3,MR,10:00AM,11:20AM,Deepak Vashishth,TBA,25,5,20,BIOL,2024-01-08,2024-04-24,SPRING 2024,94473,6550,01,BIOL-6550,Ethical Issues In Biotechnology,"This course reviews the principles of ethical behavior and responsible conduct of research and discusses specific areas of biotechnology research, medical research, and societal issues in the context of these principles. Representative topics include genetic engineering, stem cell research, assisted reproduction, human subjects, animal research, and nanotechnology. Active student participation is expected.",Undergraduate registration only with permission of instructor.,When Offered: Fall term annually.,[],[],Science
+HUMAN POPULATION,LEC,4,TF,2:00PM,3:50PM,Christopher Bystroff,Jonsson Engineering Center 4309,24,0,24,BIOL,2024-01-08,2024-04-24,SPRING 2024,94214,4520,01,BIOL-4520,Human Population,"This interdisciplinary science course examines the human ecology of the global human overpopulation problem. Pollution, resource depletion, extinctions, unrest and carrying capacity are explored, as well as political, psychological, cultural and technological adaptations. Feedback mechanisms will be proposed, discussed, and interpreted. Students will engage in debate and systems dynamics model building.",Prerequisites/Corequisites: BIOL 1010 and MATH 1010,,"['BIOL 1010', 'MATH 1010']","['BIOL 1010', 'MATH 1010']",Science
+THE BIOLOGY OF SYSTEMS,LEC,4,TF,2:00PM,3:50PM,Jennifer Marie Hurley,Troy Building 2015,30,1,29,BIOL,2024-01-08,2024-04-24,SPRING 2024,93423,6650,01,BIOL-6650,The Biology Of Systems,"This course is designed to be a first course in the study of ""systems biology"", to introduce students to the field, the experimental and computational methods that are used within it, and the type of insights that the field can provide to biology. To fully appreciate the complexity of living systems, researchers gather systematic, quantitative measurements of a system's components using cutting-edge omics techniques. In addition, researchers also leverage computing power to describe, model, and predict dynamic behaviors that could otherwise not be perceived in such large-scale omics data. Along with these topics, students will learn to critically read current scientific literature.",Prerequisites/Corequisites: BIOL 4620 and BIOL 4760 or permission of the instructor.,When Offered: Spring term annually.,"['BIOL 4620', 'BIOL 4760']","['BIOL 4620', 'BIOL 4760']",Science
+CHEMISTRY II,LEC,4,MR,12:00PM,1:20PM,Alexander C. Ma/Kathleen Lillian Morrissey,Darrin Communications Center 308,30,29,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,90230,1200,01,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,M,9:00AM,9:50AM,TBA,TBA,30,29,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,90230,1200,01,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,T,9:00AM,11:50AM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,30,29,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,90230,1200,01,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,MR,12:00PM,1:20PM,Alexander C. Ma/Kathleen Lillian Morrissey,Darrin Communications Center 308,60,59,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,94593,1200,02,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,M,9:00AM,9:50AM,TBA,TBA,60,59,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,94593,1200,02,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,T,12:00PM,2:50PM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,60,59,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,94593,1200,02,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,MR,12:00PM,1:20PM,Alexander C. Ma/Kathleen Lillian Morrissey,Darrin Communications Center 308,60,49,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,91267,1200,03,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,M,9:00AM,9:50AM,TBA,TBA,60,49,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,91267,1200,03,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,W,9:00AM,11:50AM,Kathleen Lillian Morrissey/Michael Edward Van Valkenburg,Walker Laboratory 5113,60,49,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,91267,1200,03,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+LAB MENTORING,LEC,2,,,,Alexander C. Ma,TBA,5,3,2,CHEM,2024-01-08,2024-04-24,SPRING 2024,95177,4940,01,CHEM-4940,Lab Mentoring,,,,[],[],Science
+XRAY DIFFRACTION & CRYSTAL STR,LEC,2,W,9:00AM,10:50AM,Peter John Bonitatibus,Russell Sage Laboratory 2701,25,2,23,CHEM,2024-01-08,2024-04-24,SPRING 2024,94602,6966,01,CHEM-6966,Xray Diffraction & Crystal Str,,,,[],[],Science
+CHEMISTRY II WITHOUT LAB,LEC,3,MR,12:00PM,1:20PM,Alexander C. Ma/Kathleen Lillian Morrissey,Darrin Communications Center 308,20,0,20,CHEM,2024-01-08,2024-04-24,SPRING 2024,93919,1210,01,CHEM-1210,Chemistry Ii Without Lab,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. This course consists of the lecture portion of CHEM 1200 with no laboratory requirements. Students cannot get credit for this course and CHEM 1200 or CHEM 1220.",Prerequisites/Corequisites: CHEM 1100 or CHEM 1110 or CHEM 1120,,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II WITHOUT LAB,LEC,3,M,9:00AM,9:50AM,TBA,TBA,20,0,20,CHEM,2024-01-08,2024-04-24,SPRING 2024,93919,1210,01,CHEM-1210,Chemistry Ii Without Lab,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. This course consists of the lecture portion of CHEM 1200 with no laboratory requirements. Students cannot get credit for this course and CHEM 1200 or CHEM 1220.",Prerequisites/Corequisites: CHEM 1100 or CHEM 1110 or CHEM 1120,,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,M,11:00AM,11:50AM,Margarita L Kirova-Snover,Darrin Communications Center 337,20,20,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,94779,2240,01,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,W,4:00PM,6:50PM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,20,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,94779,2240,01,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,M,11:00AM,11:50AM,Margarita L Kirova-Snover,Darrin Communications Center 337,20,19,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93525,2240,02,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,R,8:00AM,10:50AM,Margarita L Kirova-Snover,Walker Laboratory 3214,20,19,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93525,2240,02,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,M,11:00AM,11:50AM,Margarita L Kirova-Snover,Darrin Communications Center 337,20,18,2,CHEM,2024-01-08,2024-04-24,SPRING 2024,90518,2240,03,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,T,1:00PM,3:50PM,Margarita L Kirova-Snover/Filbert Totsingan,Walker Laboratory 3214,20,18,2,CHEM,2024-01-08,2024-04-24,SPRING 2024,90518,2240,03,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,M,11:00AM,11:50AM,Margarita L Kirova-Snover,Darrin Communications Center 337,20,16,4,CHEM,2024-01-08,2024-04-24,SPRING 2024,90519,2240,04,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,W,8:00AM,10:50AM,Margarita L Kirova-Snover/Steven A. Tysoe,Walker Laboratory 3214,20,16,4,CHEM,2024-01-08,2024-04-24,SPRING 2024,90519,2240,04,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,M,11:00AM,11:50AM,Margarita L Kirova-Snover,Darrin Communications Center 337,20,20,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,92376,2240,06,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,F,1:00PM,3:50PM,Margarita L Kirova-Snover/Steven A. Tysoe,Walker Laboratory 3214,20,20,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,92376,2240,06,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+MICROSCOPIC PHYSICAL CHEMISTRY,LEC,3,MR,8:00AM,8:50AM,Gerald M Korenowski/Amgalanbaatar Baldansuren,Darrin Communications Center 239,30,24,6,CHEM,2024-01-08,2024-04-24,SPRING 2024,91453,4420,01,CHEM-4420,Microscopic Physical Chemistry,"A course dealing primarily with physicochemical properties of substances on a molecular basis. Chemical kinetics, quantum chemistry, spectroscopy, and statistical mechanics.",Prerequisite: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Science
+MICROSCOPIC PHYSICAL CHEMISTRY,LEC,3,W,8:00AM,9:50AM,Gerald M Korenowski/Amgalanbaatar Baldansuren,Darrin Communications Center 239,30,24,6,CHEM,2024-01-08,2024-04-24,SPRING 2024,91453,4420,01,CHEM-4420,Microscopic Physical Chemistry,"A course dealing primarily with physicochemical properties of substances on a molecular basis. Chemical kinetics, quantum chemistry, spectroscopy, and statistical mechanics.",Prerequisite: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Science
+CHEMISTRY II HONORS,LEC,4,MR,12:00PM,1:20PM,Alexander C. Ma/Kathleen Lillian Morrissey,Darrin Communications Center 308,30,13,17,CHEM,2024-01-08,2024-04-24,SPRING 2024,94778,1220,01,CHEM-1220,Chemistry Ii Honors,"Covers the same lecture material as CHEM 1200, but laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry.   Restricted to Chemistry majors.",Prerequisites/Corequisites: CHEM 1120,When Offered: Spring,['CHEM 1120'],['CHEM 1120'],Science
+CHEMISTRY II HONORS,LEC,4,M,9:00AM,9:50AM,TBA,TBA,30,13,17,CHEM,2024-01-08,2024-04-24,SPRING 2024,94778,1220,01,CHEM-1220,Chemistry Ii Honors,"Covers the same lecture material as CHEM 1200, but laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry.   Restricted to Chemistry majors.",Prerequisites/Corequisites: CHEM 1120,When Offered: Spring,['CHEM 1120'],['CHEM 1120'],Science
+CHEMISTRY II HONORS,LEC,4,T,9:00AM,11:50AM,Amgalanbaatar Baldansuren/Kathleen Lillian Morrissey,Walker Laboratory 5113,30,13,17,CHEM,2024-01-08,2024-04-24,SPRING 2024,94778,1220,01,CHEM-1220,Chemistry Ii Honors,"Covers the same lecture material as CHEM 1200, but laboratory experiments will be more technique-oriented to provide better preparation for students who plan to take future laboratory courses in chemistry.   Restricted to Chemistry majors.",Prerequisites/Corequisites: CHEM 1120,When Offered: Spring,['CHEM 1120'],['CHEM 1120'],Science
+CULMINATING RESEARCH EXP,LEC,1,,,,Gerald M Korenowski,TBA,20,0,20,CHEM,2024-01-08,2024-04-24,SPRING 2024,94345,4950,01,CHEM-4950,Culminating Research Exp,"Culmination of an independent research project under the guidance of a faculty member or external research project or internship. As a confirmation of their ability to integrate their knowledge of chemistry to deal with a research problem, students will present an oral presentation on their independent work and a research-style paper.","Prerequisites - a minimum of 3 credits combined of CHEM 2930, CHEM 2940, CHEM 2950, or CHEM 4970, or a SURP/URP or internship position.",,"['CHEM 2930', 'CHEM 2940', 'CHEM 2950', 'CHEM 4970']","['CHEM 2930', 'CHEM 2940', 'CHEM 2950', 'CHEM 4970']",Science
+MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,TBA,Walker Laboratory 6113,5,6,-1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93470,1600,01,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff/Chaitanya Kishore Ullal,TBA,5,6,-1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93470,1600,01,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,93472,1600,02,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,93472,1600,02,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,TF,8:00AM,9:50AM,Ravishankar Sundararaman/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,6,-1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93475,1600,03,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,6,-1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93475,1600,03,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,TF,10:00AM,11:50AM,Wei Bao/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,93478,1600,04,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,93478,1600,04,CHEM-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisites: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+ORGANIC CHEMISTRY II,LEC,3,TWF,12:00PM,12:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3303,190,167,23,CHEM,2024-01-08,2024-04-24,SPRING 2024,90515,2260,01,CHEM-2260,Organic Chemistry Ii,"A continuation of CHEM 2250, which is a prerequisite.",Prerequisite: CHEM 2250.,When Offered: Spring term annually.,"['CHEM 2250', 'CHEM 2250']","['CHEM 2250', 'CHEM 2250']",Science
+ORGANIC CHEMISTRY II,LEC,3,W,2:00PM,3:50PM,Margarita L Kirova-Snover,Russell Sage Laboratory 3303,190,167,23,CHEM,2024-01-08,2024-04-24,SPRING 2024,90515,2260,01,CHEM-2260,Organic Chemistry Ii,"A continuation of CHEM 2250, which is a prerequisite.",Prerequisite: CHEM 2250.,When Offered: Spring term annually.,"['CHEM 2250', 'CHEM 2250']","['CHEM 2250', 'CHEM 2250']",Science
+MEDICINAL CHEMISTRY,LEC,3,MR,2:00PM,3:20PM,Christopher Lawrence Cioffi,Russell Sage Laboratory 2704,20,10,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,94785,6300,01,CHEM-6300,Medicinal Chemistry,"This course explores the fundamental principles that define the relationship between chemical structure and the biological action of drug molecules. A major focus of the course is the application of these chemical principles to molecular-targeted drug discovery, molecular mechanisms of pharmacological activity, and the biopharmaceutical properties of drugs. The relationships between drug structure, therapeutic properties, and physicochemical characteristics will be discussed. Structure activity relationships (SAR), structure-property relationships (SPR) and ADME (absorption, distribution, metabolism, and excretion) will be explored and presented through case studies. The roles of computational chemistry, molecular modeling, and biophysical methods in the understanding of the relationship between structure and biological activity will also be studied. Although an emphasis will be placed on orally bioavailable small molecules, alternative drug modalities will also be discussed.",,When Offered: Fall annually.,[],[],Science
+MODERN TECHNIQUES IN CHEMISTRY,LEC,4,MR,2:00PM,3:20PM,Simon Nicholas Platts,Carnegie Building 106,16,16,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,94842,4530,01,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
+MODERN TECHNIQUES IN CHEMISTRY,LEC,4,TF,9:00AM,11:50AM,Simon Nicholas Platts,Walker Laboratory 3109,16,16,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,94842,4530,01,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
+PROFESSIONAL PROJECT,LEC,1-12,,,,Peter Henry Dinolfo,TBA,0,0,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,94417,6970,03,CHEM-6970,Professional Project,"Active participation in a semester-long research project, under the supervision of a faculty adviser, leading to a master's project report. This research project serves as the culminating experience for the master's project track. The research project must result in documentation established by the department, but is not submitted to the Office of Graduate Education and is not archived in the library.",,,[],[],Science
+EXPERIMENTAL CHEMISTRY II:SYNTHESIS AND CHARACTERIZATION,LEC,3,MR,2:00PM,5:50PM,Filbert Totsingan,Walker Laboratory 3214,20,17,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,90437,2290,01,CHEM-2290,Experimental Chemistry II:SYNTHESIS And Characterization,Laboratory experiments dealing with the synthesis and characterization of chemical compounds and practical experience in accessing the chemistry literature. Primary emphasis is organic chemistry. Intended for chemistry majors.,Prerequisites/Corequisites: Corequisite: CHEM 2260.,When Offered: Spring term annually.,['CHEM 2260'],['CHEM 2260'],Science
+EXPERIMENTAL CHEMISTRY II:SYNTHESIS AND CHARACTERIZATION,LEC,3,W,10:00AM,10:50AM,Filbert Totsingan,Darrin Communications Center 235,20,17,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,90437,2290,01,CHEM-2290,Experimental Chemistry II:SYNTHESIS And Characterization,Laboratory experiments dealing with the synthesis and characterization of chemical compounds and practical experience in accessing the chemistry literature. Primary emphasis is organic chemistry. Intended for chemistry majors.,Prerequisites/Corequisites: Corequisite: CHEM 2260.,When Offered: Spring term annually.,['CHEM 2260'],['CHEM 2260'],Science
+NATURAL POLYMERS & MATERIALS,LEC,3,TF,2:00PM,3:20PM,Richard Alan Gross,Russell Sage Laboratory 3705,20,7,13,CHEM,2024-01-08,2024-04-24,SPRING 2024,94739,4610,01,CHEM-4610,Natural Polymers & Materials,"This course provides students with a comprehensive understanding of the diverse range of natural polymers, their role in nature, routes to production, physical properties, and applications. Natural polymers are of growing importance as society transitions from carbon derived from petroleum to readily renewable sources such as plants. Furthermore, natural polymer biosynthesis occurs under mild and sustainable conditions that provide representative examples of green chemistry. Natural polymers offer desirable attributes such as biodegradability and properties that can be manipulated by traditional methods such as modification or blending as well as via genetic engineering. The course introduces numerous families of natural polymers from sources such as plant cell walls, rubber trees, grains, crustacean exoskeletons, fungal cell walls, microbial fermentation, seaweed, seeds, silkworms, spiders, and animals. Applications of natural polymers and their modified forms that will be discussed include but are not limited to, thickeners, biodegradable plastics, medical materials, fibers in composites, nanoparticles, antimicrobials, and cosmetic ingredients.",None,When Offered: Fall term annually,[],[],Science
+PROTEOMICS-STR BIOINFORMATICS,LEC,3,TF,12:00PM,1:20PM,Gaetano T. Montelione,Darrin Communications Center 232,10,4,6,CHEM,2024-01-08,2024-04-24,SPRING 2024,94802,4962,01,CHEM-4962,PROTEOMICS-STR Bioinformatics,,,,[],[],Science
+CHEMISTRY SEMINAR,LEC,1,T,4:00PM,5:20PM,Jacob Thomas Shelley,Russell Sage Laboratory 4203,20,16,4,CHEM,2024-01-08,2024-04-24,SPRING 2024,90017,6900,01,CHEM-6900,Chemistry Seminar,,,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Wilfredo Colon,TBA,10,0,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,91148,6990,01,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Peter Henry Dinolfo,TBA,5,0,5,CHEM,2024-01-08,2024-04-24,SPRING 2024,92319,6990,06,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Chulsung Bae,TBA,10,0,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,92607,6990,07,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Richard Alan Gross,TBA,1,0,1,CHEM,2024-01-08,2024-04-24,SPRING 2024,93087,6990,08,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,K. V. Lakshmi,TBA,10,1,9,CHEM,2024-01-08,2024-04-24,SPRING 2024,92018,6990,21,CHEM-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+INTRO POLYMER CHEMISTRY,LEC,3,MWR,1:00PM,1:50PM,Chulsung Bae,Materials Research Center 136,20,12,8,CHEM,2024-01-08,2024-04-24,SPRING 2024,94599,4620,01,CHEM-4620,Intro Polymer Chemistry,"This course will introduce synthetic and kinetic aspects of various polymerization reactions that have been employed to produce commodity and specialty plastic materials. Control and prediction of the molecular weight distribution for different polymerization mechanisms will be discussed along with various characterization techniques of molecular weight distribution and its relation to properties. Thermal/solution properties, chemical/physical properties, and uses of polymers also will be discussed.",Prerequisite: CHEM 2260 or permission of instructor.,When Offered: Spring term annually.,['CHEM 2260'],['CHEM 2260'],Science
+EXPERIMENTAL CHEMISTRY IV:PHYSICAL AND INSTRUMENTAL METHODS,LEC,3,MR,9:00AM,12:50PM,Elizabeth Anne Sprague,Cogswell Laboratory 113,14,12,2,CHEM,2024-01-08,2024-04-24,SPRING 2024,90438,4120,01,CHEM-4120,Experimental Chemistry IV:PHYSICAL And Instrumental Methods,"A laboratory course emphasizing the hands-on use of modern instrumental methods in analytical and physical chemistry applications, and the interpretation and discussion of the results obtained from them. This is a communication-intensive course.","Prerequisites/Corequisites: Experiments depend on the theoretical material in CHEM 4110 and CHEM 4420, which are prerequisites or corequisites.",When Offered: Spring term annually.,"['CHEM 4110', 'CHEM 4420']","['CHEM 4110', 'CHEM 4420']",Science
+EXPERIMENTAL CHEMISTRY IV:PHYSICAL AND INSTRUMENTAL METHODS,LEC,3,W,11:00AM,11:50AM,Elizabeth Anne Sprague,Low Center for Industrial Inn. 4034,14,12,2,CHEM,2024-01-08,2024-04-24,SPRING 2024,90438,4120,01,CHEM-4120,Experimental Chemistry IV:PHYSICAL And Instrumental Methods,"A laboratory course emphasizing the hands-on use of modern instrumental methods in analytical and physical chemistry applications, and the interpretation and discussion of the results obtained from them. This is a communication-intensive course.","Prerequisites/Corequisites: Experiments depend on the theoretical material in CHEM 4110 and CHEM 4420, which are prerequisites or corequisites.",When Offered: Spring term annually.,"['CHEM 4110', 'CHEM 4420']","['CHEM 4110', 'CHEM 4420']",Science
+HISTORY OF CHEMISTRY,LEC,2,W,4:00PM,5:50PM,Steven A. Tysoe,Low Center for Industrial Inn. 3045,30,30,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,94242,4964,01,CHEM-4964,History Of Chemistry,,,,[],[],Science
+HYDROTHERMAL EXPMT METHODS,LEC,3,TF,12:00PM,1:20PM,Kristin Nicole Johnson,Folsom Library 107,12,1,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,94595,4965,01,CHEM-4965,Hydrothermal Expmt Methods,,,,[],[],Science
+INTRODUCTION TO RESEARCH,LEC,1-3,,,,Jacob Thomas Shelley,TBA,12,8,4,CHEM,2024-01-08,2024-04-24,SPRING 2024,94987,6950,01,CHEM-6950,Introduction To Research,"A course for first year chemistry graduate students that involves rotations through three research groups to become familiar with research in the department. Students will participate in various research-related activities, including group meetings, reading papers, exploring potential thesis projects, and shadowing or assisting graduate students working in the lab. The main goal of the course is to assist graduate students in their selection of a research adviser. Entering PhD students should register for 2 credit hours in Fall and 1 credit hour in Spring. Entering MS students can register for a total of 2 credits in their first semester only. Not available to Co-terminal MS students.",,When Offered: Fall and Spring annually,[],[],Science
+NMR SPECTROSCOPY,LEC,3,MR,4:00PM,5:20PM,K. V. Lakshmi,Amos Eaton Hall 216,20,6,14,CHEM,2024-01-08,2024-04-24,SPRING 2024,93920,4140,01,CHEM-4140,Nmr Spectroscopy,"This course will review modern techniques of multi-dimensional NMR spectroscopy, including the history of magnetic resonance, principles of NMR, 13C and 1H NMR, multinuclear NMR, 2D homonuclear and heteronuclear methods, nuclear Overhauser effect, relaxation, structure elucidation, solid-state NMR and the nuts and bolts of NMR spectrometers and probes. This course is intended for graduate and upper-level undergraduate students in the School of Science and Engineering.",,When Offered: Spring term annually.,[],[],Science
+XRAY DIFFRACTION & CRYSTAL STR,LEC,2,W,9:00AM,10:50AM,Peter John Bonitatibus,Russell Sage Laboratory 2701,25,6,19,CHEM,2024-01-08,2024-04-24,SPRING 2024,94601,4966,01,CHEM-4966,Xray Diffraction & Crystal Str,,,,[],[],Science
+INDUSTRIAL CHEMISTRY,LEC,3,TF,8:00AM,9:20AM,Alexander C. Ma,Troy Building 2015,20,13,7,CHEM,2024-01-08,2024-04-24,SPRING 2024,93968,4200,01,CHEM-4200,Industrial Chemistry,"This course is designed for students in chemistry and chemical engineering to provide an understanding of the economics and various driving forces for large scale production of chemicals. Students will learn about processes from the refining of raw materials to the manufacturing of common chemicals, polymers, metallurgy, and some pharmaceuticals. In addition, students will be exposed to the patenting process, environmental and safety regulations, project management, ISO9000 and other quality management methodologies.",Prerequisite: CHEM 2250,When Offered: Spring term annually,['CHEM 2250'],['CHEM 2250'],Science
+CHEMISTRY I,LEC,4,MR,10:00AM,11:20AM,Steven A. Tysoe/Alexander C. Ma/Kathleen Lillian Morrissey/Michael Edward Van Valkenburg,Darrin Communications Center 318,60,49,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,90513,1100,01,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,M,8:00AM,8:50AM,TBA,TBA,60,49,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,90513,1100,01,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,R,12:00PM,2:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,49,11,CHEM,2024-01-08,2024-04-24,SPRING 2024,90513,1100,01,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,MR,10:00AM,11:20AM,Steven A. Tysoe/Alexander C. Ma/Kathleen Lillian Morrissey/Michael Edward Van Valkenburg,Darrin Communications Center 318,60,57,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,90514,1100,02,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,M,8:00AM,8:50AM,TBA,TBA,60,57,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,90514,1100,02,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,R,3:00PM,5:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,57,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,90514,1100,02,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,MR,10:00AM,11:20AM,Steven A. Tysoe/Alexander C. Ma/Kathleen Lillian Morrissey/Michael Edward Van Valkenburg,Darrin Communications Center 318,60,50,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,93746,1100,03,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,M,8:00AM,8:50AM,TBA,TBA,60,50,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,93746,1100,03,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,F,10:00AM,12:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,60,50,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,93746,1100,03,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+INORGANIC CHEMISTRY I,LEC,3,TF,10:00AM,11:20AM,Peter Henry Dinolfo,Darrin Communications Center 239,28,25,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,90018,2030,01,CHEM-2030,Inorganic Chemistry I,"Descriptive chemistry of the elements. Properties, structures, and typical reactions of the elements of the periodic table and their compounds; basic principles of inorganic chemistry.",Prerequisite: CHEM 1200 or CHEM 1210 or CHEM 1220 or CHEM 1600/ PHYS 1600/ ISCI 1600/ ENGR 1600.,When Offered: Spring term annually.,"['CHEM 1200', 'CHEM 1210', 'CHEM 1220', 'CHEM 1600', 'PHYS 1600', 'ISCI 1600', 'ENGR 1600']","['CHEM 1200', 'CHEM 1210', 'CHEM 1220', 'CHEM 1600', 'PHYS 1600', 'ISCI 1600', 'ENGR 1600']",Science
+UNDERGRADUATE RESEARCH,LEC,1-6,,,,TBA,TBA,0,0,0,CHEM,2024-01-08,2024-04-24,SPRING 2024,90520,2950,00,CHEM-2950,Undergraduate Research,Hands-on research in a faculty research laboratory.,Permission of instructor.,When Offered: Fall and spring terms annually.,[],[],Science
+MEDICINAL CHEMISTRY,LEC,3,MR,2:00PM,3:20PM,Christopher Lawrence Cioffi,Russell Sage Laboratory 2704,20,4,16,CHEM,2024-01-08,2024-04-24,SPRING 2024,94783,4300,01,CHEM-4300,Medicinal Chemistry,"This course explores the fundamental principles that define the relationship between chemical structure and the biological action of drug molecules. A major focus of the course is the application of these chemical principles to molecular-targeted drug discovery, molecular mechanisms of pharmacological activity, and the biopharmaceutical properties of drugs. The relationships between drug structure, therapeutic properties, and physicochemical characteristics will be discussed. Structure activity relationships (SAR), structure-property relationships (SPR) and ADME (absorption, distribution, metabolism, and excretion) will be explored and presented through case studies. The roles of computational chemistry, molecular modeling, and biophysical methods in the understanding of the relationship between structure and biological activity will also be studied. Although an emphasis will be placed on orally bioavailable small molecules, alternative drug modalities will also be discussed.",Prerequisite: CHEM 2260 or permission of instructor.,When Offered: Fall annually.,['CHEM 2260'],['CHEM 2260'],Science
+MOLECULAR BIOCHEM II,LEC,4,MR,2:00PM,3:50PM,George I. Makhatadze,Lally Hall 102,25,4,21,CHEM,2024-01-08,2024-04-24,SPRING 2024,90069,4770,01,CHEM-4770,Molecular Biochem Ii,"The second semester of the Molecular Biochemistry sequence. Topics include lipids and lipid metabolism, amino acid metabolism and the coenzymes involved in this metabolism, nucleic acid synthesis and chemistry, protein synthesis and degradation, integration of metabolism, photobiology, and photosynthesis. This course is taught in studio mode. (Students cannot obtain credit for both this course and either BIOL 4770 or BCBP 4770.)",Prerequisite: CHEM 4760 or equivalent.,When Offered: Spring term annually.,['CHEM 4760'],['CHEM 4760'],Science
+PROTEOMICS-STR BIOINFORMATICS,LEC,3,TF,12:00PM,1:20PM,Gaetano T. Montelione,Darrin Communications Center 232,10,4,6,CHEM,2024-01-08,2024-04-24,SPRING 2024,94801,6962,01,CHEM-6962,PROTEOMICS-STR Bioinformatics,,,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Wilfredo Colon,TBA,10,4,6,CHEM,2024-01-08,2024-04-24,SPRING 2024,90134,9990,01,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Blanca L. Barquera,TBA,10,0,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,91471,9990,02,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Christopher Lawrence Cioffi,TBA,10,1,9,CHEM,2024-01-08,2024-04-24,SPRING 2024,90135,9990,03,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,K. V. Lakshmi,TBA,10,2,8,CHEM,2024-01-08,2024-04-24,SPRING 2024,91105,9990,04,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Curtis Breneman,TBA,10,0,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,90136,9990,05,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Chunyu Wang,TBA,10,2,8,CHEM,2024-01-08,2024-04-24,SPRING 2024,94000,9990,06,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jacob Thomas Shelley,TBA,10,7,3,CHEM,2024-01-08,2024-04-24,SPRING 2024,93228,9990,07,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Kristin Nicole Johnson,TBA,10,1,9,CHEM,2024-01-08,2024-04-24,SPRING 2024,91952,9990,08,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,George I. Makhatadze,TBA,10,0,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,92235,9990,09,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Chulsung Bae,TBA,10,3,7,CHEM,2024-01-08,2024-04-24,SPRING 2024,92373,9990,10,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Catherine Ann Royer,TBA,10,1,9,CHEM,2024-01-08,2024-04-24,SPRING 2024,93038,9990,12,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Peter John Bonitatibus,TBA,10,1,9,CHEM,2024-01-08,2024-04-24,SPRING 2024,94678,9990,13,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Gaetano T. Montelione,TBA,10,3,7,CHEM,2024-01-08,2024-04-24,SPRING 2024,90256,9990,14,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Richard Alan Gross,TBA,10,2,8,CHEM,2024-01-08,2024-04-24,SPRING 2024,92679,9990,15,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Peter Henry Dinolfo,TBA,10,4,6,CHEM,2024-01-08,2024-04-24,SPRING 2024,91885,9990,25,CHEM-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+NATURAL POLYMERS & MATERIALS,LEC,3,TF,2:00PM,3:20PM,Richard Alan Gross,Russell Sage Laboratory 3705,20,5,15,CHEM,2024-01-08,2024-04-24,SPRING 2024,93549,6610,01,CHEM-6610,Natural Polymers & Materials,"This course provides students with a comprehensive understanding of the diverse range of natural polymers, their role in nature, routes to production, physical properties, and applications. Natural polymers are of growing importance as society transitions from carbon derived from petroleum to readily renewable sources such as plants. Furthermore, natural polymer biosynthesis occurs under mild and sustainable conditions that provide representative examples of green chemistry. Natural polymers offer desirable attributes such as biodegradability and properties that can be manipulated by traditional methods such as modification or blending as well as via genetic engineering. The course introduces numerous families of natural polymers from sources such as plant cell walls, rubber trees, grains, crustacean exoskeletons, fungal cell walls, microbial fermentation, seaweed, seeds, silkworms, spiders, and animals. Applications of natural polymers and their modified forms that will be discussed include but are not limited to, thickeners, biodegradable plastics, medical materials, fibers in composites, nanoparticles, antimicrobials, and cosmetic ingredients.",,,[],[],Science
+CHEM OF THE ENVIRONMENT,LEC,4,MR,10:00AM,11:50AM,Simon Nicholas Platts,Carnegie Building 101,20,6,14,CHEM,2024-01-08,2024-04-24,SPRING 2024,94230,4810,01,CHEM-4810,Chem Of The Environment,"Chemical processes important in the environment from naturally occurring and man-induced systems. Thermodynamic and chemical considerations of fuels; the thermodynamics of the atmosphere; atmospheric photochemistry; chemistry of natural water systems; chemistry of pesticides, fertilizers, and other important environmental contaminants; aspects of the carbon, nitrogen, and sulfur cycles.","Prerequisites: CHEM 1200 or CHEM 1220 and one prior or concurrent course in organic chemistry, or permission of instructor.",When Offered: Spring term annually.,"['CHEM 1200', 'CHEM 1220']","['CHEM 1200', 'CHEM 1220']",Science
+NMR SPECTROSCOPY,LEC,3,MR,4:00PM,5:20PM,K. V. Lakshmi,Amos Eaton Hall 216,20,11,9,CHEM,2024-01-08,2024-04-24,SPRING 2024,93921,6140,01,CHEM-6140,Nmr Spectroscopy,"This course will review modern techniques of multi-dimensional NMR spectroscopy, including the history of magnetic resonance, principles of NMR, 13C and 1H NMR, multinuclear NMR, 2D homonuclear and heteronuclear methods, nuclear Overhauser effect, relaxation, structure elucidation, solid-state NMR and the nuts and bolts of NMR spectrometers and probes. This course is intended for graduate and upper-level undergraduate students in the School of Science and Engineering.",,When Offered: Spring term annually.,[],[],Science
+POLYMER CHEMISTRY,LEC,3,MWR,1:00PM,1:50PM,Chulsung Bae,Materials Research Center 136,20,5,15,CHEM,2024-01-08,2024-04-24,SPRING 2024,94600,6620,01,CHEM-6620,Polymer Chemistry,"This course will introduce synthetic and kinetic aspects of various polymerization reactions that have been employed to produce commodity and specialty plastic materials. Control and prediction of the molecular weight distribution for different polymerization mechanisms will be discussed along with various characterization techniques of molecular weight distribution and its relation to properties. Thermal/solution properties, chemical/physical properties, and uses of polymers also will be discussed.",,When Offered: Spring term annually,[],[],Science
+HYDROTHERMAL EXPMT METHODS,LEC,3,TF,12:00PM,1:20PM,Kristin Nicole Johnson,Folsom Library 107,12,2,10,CHEM,2024-01-08,2024-04-24,SPRING 2024,94596,6965,01,CHEM-6965,Hydrothermal Expmt Methods,,,,[],[],Science
+NUMERICAL COMPUTING,LEC,4,TF,12:00PM,1:50PM,Yuri V Lvov,Russell Sage Laboratory 4101,70,9,61,CSCI,2024-01-08,2024-04-24,SPRING 2024,90286,4800,01,CSCI-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis is placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+ROBOTICS II,LEC,3,MR,4:00PM,5:20PM,Esen Yel,Jonsson Engineering Center 4104,15,1,14,CSCI,2024-01-08,2024-04-24,SPRING 2024,93679,4969,01,CSCI-4969,Robotics Ii,,Prerequisites: ,,[],[],Science
+DISTRIBUTED ALGORITHMS AND SYSTEMS,LEC,4,MR,12:00PM,1:50PM,Stacy Elizabeth Patterson,Russell Sage Laboratory 5101,20,11,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,94794,6510,01,CSCI-6510,Distributed Algorithms And Systems,"This course explores the principles of distributed systems, emphasizing fundamental issues underlying the design of such systems: communication, coordination, synchronization, and fault-tolerance. Key algorithms and theoretical results will be studied and students will explore how these foundations play out in modern systems and applications.",Prerequisite: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
+DEEP LEARNING,LEC,4,MR,2:00PM,3:50PM,Yao Ma,Jonsson Engineering Center 3207,20,7,13,CSCI,2024-01-08,2024-04-24,SPRING 2024,93904,6961,01,CSCI-6961,Deep Learning,"This course delves deeply into the transformative world of deep learning. Throughout the semester, we will cover (1) Essential architectures feedforward neural networks, convolutional neural networks (CNNs), recurrent neural networks (RNNs), generative adversarial networks (GANs), and Transformers. (2) Fundamental concepts and algorithms  backpropagation, loss functions, optimization strategies, regularization, data augmentation. (3) Diverse applications computer vision, natural language processing.",Prerequisites: CSCI 4100/6100,,['CSCI 4100'],[],Science
+CRYPTOGRAPHY AND NETWORK SECURITY I,LEC,4,MR,2:00PM,3:50PM,Bulent Yener,Russell Sage Laboratory 3101,70,39,31,CSCI,2024-01-08,2024-04-24,SPRING 2024,94533,4230,01,CSCI-4230,Cryptography And Network Security I,"A self-contained course that includes topics from number theory, basic cryptography, and protocol security. This is a hybrid course with sufficient depth in both theory and hands-on experience with network protocols. Topics include: Classical Cryptography, Block Ciphers (DES, AES), Information Theoretical Cryptography, Randomness, RNG and Stream Ciphers, Hash and MAC Algorithms, Public-Key Cryptography, Elliptic Curve Cryptography, Digital Signatures and Identification, Internet Attacks, Web Security, SSL and PGP. This is a communication-intensive course.",Prerequisites: CSCI 2300; also desirable is CSCI 4210 and CSCI 4220.,When Offered: Fall term annually.,"['CSCI 2300', 'CSCI 4210', 'CSCI 4220']","['CSCI 2300', 'CSCI 4210', 'CSCI 4220']",Science
+PRINCIPLES OF PROGRAM ANALYSIS,LEC,4,MR,12:00PM,1:50PM,Ana L. Milanova,Russell Sage Laboratory 4112,36,16,20,CSCI,2024-01-08,2024-04-24,SPRING 2024,94791,4450,01,CSCI-4450,Principles Of Program Analysis,"The goal of this course is to introduce students to program analysis and its many applications in software engineering, particularly in improving software quality and software productivity. Concretely, students who successfully complete this course should be able to: (1) understand and apply program analysis techniques, such as dataflow analysis and type-based analysis; (2) implement program analysis; (3) understand and apply software testing techniques, such as black-box testing and white-box testing; and (4) understand and apply refactoring techniques.",Prerequisites: CSCI 4430.,When Offered: Spring term even-numbered years.,['CSCI 4430'],['CSCI 4430'],Science
+INTRO TO NUM METH FOR DIFF EQ,LEC,4,MR,10:00AM,11:50AM,William Douglas Henshaw,Jonsson Engineering Center 5119,30,1,29,CSCI,2024-01-08,2024-04-24,SPRING 2024,94776,4820,01,CSCI-4820,Intro To Num Meth For Diff Eq,"Derivation, analysis, and use of computational procedures for solving differential equations. Topics covered include ordinary differential equations (both initial value and boundary value problems) and partial differential equations. Runge-Kutta and multistep methods for initial value problems. Finite difference methods for partial differential equations including techniques for heat conduction, wave propagation, and potential problems. Basic convergence and stability theory.",Prerequisite: MATH 4800 or CSCI 4800.,When Offered: Spring term annually.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+RCOS,LEC,1,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt,Darrin Communications Center 308,16,21,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,94797,4970,01,CSCI-4970,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700,,"['CSCI 1700', 'CSCI 2700']",[],Science
+RCOS,LEC,2,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt,Darrin Communications Center 308,16,10,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,94798,4970,02,CSCI-4970,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700,,"['CSCI 1700', 'CSCI 2700']",[],Science
+RCOS,LEC,3,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt,Darrin Communications Center 308,128,5,123,CSCI,2024-01-08,2024-04-24,SPRING 2024,94799,4970,03,CSCI-4970,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700,,"['CSCI 1700', 'CSCI 2700']",[],Science
+RCOS,LEC,4,TF,4:00PM,5:50PM,Wesley D Turner/David Eric Goldschmidt,Darrin Communications Center 308,256,249,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,94800,4970,04,CSCI-4970,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700,,"['CSCI 1700', 'CSCI 2700']",[],Science
+CRYPTOGRAPHY AND NETWORK SECURITY I,LEC,4,MR,2:00PM,3:50PM,Bulent Yener,Russell Sage Laboratory 3101,30,4,26,CSCI,2024-01-08,2024-04-24,SPRING 2024,94535,6230,01,CSCI-6230,Cryptography And Network Security I,"A self-contained course that includes topics from number theory, basic cryptography, and protocol security. This is a hybrid course with sufficient depth in both theory and hands-on experience with network protocols. Topics include: Classical Cryptography, Block Ciphers (DES, AES), Information Theoretical Cryptography, Randomness, RNG and Stream Ciphers, Hash and MAC Algorithms, Public-Key Cryptography, Elliptic Curve Cryptography, Digital Signatures and Identification, Internet Attacks, Web Security, SSL and PGP.",,When Offered: Fall term annually.,[],[],Science
+SECURITY AND PRIVACY OF ML,LEC,4,TF,12:00PM,1:50PM,Lei Yu,Jonsson Engineering Center 4309,10,9,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93432,6962,01,CSCI-6962,Security And Privacy Of Ml,"Machine learning (ML) has demonstrated superior performance in many areas and has increasingly been deployed in real-world critical applications. However, the vulnerabilities and privacy risks of ML models could put public safety and user privacy in danger. Existing studies have shown that the ML applications such as financial analytics and autonomous vehicles are vulnerable to attacks that can manipulate the models to their malicious ends. This course will introduce potential vulnerabilities of ML models, recent research and future directions about the security and privacy problems in real-world machine learning systems. We will cover different types of attacks against computer systems leveraging ML as well as defense techniques, privacy-preserving ML, and robustness and fairness in ML. Students will familiarize themselves with the emerging body of literature on each topic, understand different algorithms, analyze security vulnerabilities, and develop the ability to conduct research projects on related topics.",Prerequisites: CSCI 4150 or CSCI 4100/6100,,"['CSCI 4150', 'CSCI 4100']",[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Deborah L. McGuinness,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92597,6980,01,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Malik Magdon-Ismail,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93010,6980,02,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,James A. Hendler,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93022,6980,03,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Selmer Bringsjord,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93023,6980,04,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Elliot I. Anshelevich,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93026,6980,05,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Sergei Nirenburg,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93027,6980,06,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Lirong Xia,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,93046,6980,07,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Konstantin Kuzmin,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93056,6980,08,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Bulent Yener,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,93063,6980,09,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Sibel Adali,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93067,6980,10,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Boleslaw Szymanski,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,93075,6980,11,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Stacy Elizabeth Patterson,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93081,6980,12,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Ana L. Milanova,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93134,6980,13,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Mohammed J. Zaki,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93236,6980,14,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,John Wen,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93496,6980,15,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Jasmine A. Plum,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93499,6980,16,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Tomasz Strzalkowski,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93512,6980,17,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,4,,,,Christopher D. Carothers,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93541,6980,18,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Radoslav Svetlozarov Ivanov,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93546,6980,19,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Barbara Cutler,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93560,6980,20,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Kristin P Bennett,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93606,6980,21,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Mei Si,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93623,6980,22,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Mark S Shephard,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93744,6980,23,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Jianxi Gao,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93747,6980,24,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Alex Algernon Theodore Gittens,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93751,6980,25,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,George M. Slota,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93753,6980,26,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Wesley D Turner,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93786,6980,27,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,W. Randolph Franklin,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93141,6980,28,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Charles V Stewart,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,94630,6980,29,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Oshani W. Seneviratne,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,94977,6980,30,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Ron Sun,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,95028,6980,31,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Lei Yu,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,95058,6980,32,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Uzma Mushtaque,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,95110,6980,33,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+AI AND BLOCKCHAIN,LEC,4,TF,2:00PM,3:50PM,Oshani W. Seneviratne,Low Center for Industrial Inn. 3112,30,15,15,CSCI,2024-01-08,2024-04-24,SPRING 2024,91875,4971,01,CSCI-4971,Ai And Blockchain,"This research seminar-oriented course will explore the synergistic combination of Artificial Intelligence (AI) and Blockchain technologies. A primary focus of the course is to identify the disruptors in the two technologies from a research lens. Specifically, we intend to discuss how leveraging blockchain technology can benefit AI and how applying AI can enhance the capabilities of blockchain technology. Furthermore, students are encouraged to think about the impact of these two technologies on society. Topics discussed in the course include blockchain fundamentals, smart contracts, web3, federated machine learning, and decentralized applications that combine AI and blockchain technologies.",Prerequisites: CSCI 2300 and CSCI 2600; familiarity with basic cryptography also required,,"['CSCI 2300', 'CSCI 2600']",[],Science
+GRAPH MINING,LEC,4,MR,12:00PM,1:50PM,George M. Slota,Russell Sage Laboratory 4101,20,11,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,94796,6963,01,CSCI-6963,Graph Mining,"This course will introduce students to data mining, machine learning, and other algorithmic techniques for analyzing social and biological networks, web crawls, and similar real-world graph-based datasets. Course topics will include an introduction to general graph computations, analysis and mining algorithms, graph analysis frameworks, random graph models, graph visualization, and graph computations via matrix operations. Students will learn about research challenges related to the computational study of large graphs on modern systems. Prospective students should have some background knowledge in algorithms and be comfortable with C/C++ and Python-based programming.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Sibel Adali,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91285,6990,01,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Charles V Stewart,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91286,6990,02,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Radoslav Svetlozarov Ivanov,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91470,6990,03,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Yao Ma,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91475,6990,04,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Kristin P Bennett,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91478,6990,05,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,James A. Hendler,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91480,6990,06,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Jianxi Gao,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93277,6990,07,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Bulent Yener,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91793,6990,08,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Selmer Bringsjord,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91876,6990,09,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Ana L. Milanova,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,91831,6990,10,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Barbara Cutler,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91827,6990,11,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Mohammed J. Zaki,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91877,6990,12,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Deborah L. McGuinness,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91878,6990,13,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Mark S Shephard,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91287,6990,14,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Christopher D. Carothers,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91892,6990,15,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Boleslaw Szymanski,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,90381,6990,16,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,W. Randolph Franklin,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,90385,6990,17,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Carlos A Varela,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91924,6990,19,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Jasmine A. Plum,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92227,6990,21,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Christopher Bystroff,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91349,6990,22,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Mei Si,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,93278,6990,23,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Stacy Elizabeth Patterson,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92521,6990,26,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Lirong Xia,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92523,6990,27,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-16,,,,Malik Magdon-Ismail,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91522,6990,29,CSCI-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Sergei Nirenburg,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92671,6990,31,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3303,40,34,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,92340,2200,01,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,34,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,92340,2200,01,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,10:00AM,10:50AM,TBA,Amos Eaton Hall 215,40,34,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,92340,2200,01,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3303,40,38,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92653,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,38,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92653,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,11:00AM,11:50AM,TBA,Amos Eaton Hall 215,40,38,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92653,2200,02,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3303,40,37,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,92654,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,37,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,92654,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,12:00PM,12:50PM,TBA,Amos Eaton Hall 215,40,37,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,92654,2200,03,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3303,40,39,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93671,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,39,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93671,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,1:00PM,1:50PM,TBA,Amos Eaton Hall 215,40,39,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93671,2200,04,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3303,40,24,16,CSCI,2024-01-08,2024-04-24,SPRING 2024,92709,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,24,16,CSCI,2024-01-08,2024-04-24,SPRING 2024,92709,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,2:00PM,2:50PM,TBA,Amos Eaton Hall 215,40,24,16,CSCI,2024-01-08,2024-04-24,SPRING 2024,92709,2200,05,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,MR,10:00AM,11:50AM,Radoslav Svetlozarov Ivanov,Russell Sage Laboratory 3303,40,21,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,94777,2200,06,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,8:00AM,9:50AM,TBA,TBA,40,21,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,94777,2200,06,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+FOUNDATIONS OF COMPUTER SCI,LEC,4,W,3:00PM,3:50PM,TBA,Low Center for Industrial Inn. 3039,40,21,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,94777,2200,06,CSCI-2200,Foundations Of Computer Sci,"This course introduces important mathematical and theoretical tools for computer science, including topics from set theory, combinatorics, and probability theory, and then proceeds to automata theory, the Turing Machine model of computation, and notions of computational complexity. The course will emphasize formal reasoning and proof techniques.",Prerequisites: CSCI 1200 and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ); MATH 1020 is strongly recommended.,When Offered: Fall and spring terms annually.,"['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']","['CSCI 1200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010', 'MATH 1020']",Science
+GRAPH THEORY,LEC,4,MR,10:00AM,11:50AM,George M. Slota,Russell Sage Laboratory 4101,40,39,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,94881,4260,01,CSCI-4260,Graph Theory,"Fundamental concepts and methods of graph theory and its applications to computing and the social and natural sciences. Topics include graphs as models, representation of graphs, trees, distances, matchings, connectivity, flows in networks, graph colorings, Hamiltonian cycles, traveling salesman problem, planarity. All concepts, methods, and applications are presented through a sequence of exercises and problems, many of which are done with the help of novel software systems for combinatorial computing.",Prerequisites: CSCI 1100 and CSCI 2200.,When Offered: Spring term annually.,"['CSCI 1100', 'CSCI 2200']","['CSCI 1100', 'CSCI 2200']",Science
+COMPUTATIONAL VISION,LEC,4,TF,10:00AM,11:50AM,Charles V Stewart,Amos Eaton Hall 214,100,19,81,CSCI,2024-01-08,2024-04-24,SPRING 2024,94786,6270,01,CSCI-6270,Computational Vision,"The goal of this course is to introduce students to the problems, challenges, and applications of computer vision from a computational perspective. Topics include camera modeling and image formation, feature extraction, object and face recognition, image mosaic construction, stereo and three-dimensional imaging, motion, and tracking. Machine learning methods, including deep convolutional neural networks, will be studied and applied throughout the course.",,When Offered: Fall term annually.,[],[],Science
+INTERACTIVE VISUALIZATION,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler,Troy Building 2012,15,5,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,93903,6550,01,CSCI-6550,Interactive Visualization,"Visualizing data is a key step in understanding many problems. This course is designed to introduce students to methods of visualizing many different types of data, such as images, three-dimensional surfaces, flow fields, and medical data. Both existing visualization software and program custom visualizations using C++ and OpenGL will be used. Course activities include discussion of recent and classic research papers, weekly homework assignments, in-class critiques of visualization artifacts, and a final project to explore creative uses of these techniques. This is a communication-intensive course.",,When Offered: Spring term even-numbered years.,[],[],Science
+COMPUTATIONAL VISION,LEC,4,TF,10:00AM,11:50AM,Charles V Stewart,Amos Eaton Hall 214,100,92,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,94784,4270,01,CSCI-4270,Computational Vision,"The goal of this course is to introduce students to the problems, challenges, and applications of computer vision from a computational perspective. Topics include camera modeling and image formation, feature extraction, object and face recognition, image mosaic construction, stereo and three-dimensional imaging, motion, and tracking. Machine learning methods, including deep convolutional neural networks, will be studied and applied throughout the course.",Prerequisites: CSCI 2300 and MATH 2010 or permission of instructor.,When Offered: Fall term annually.,"['CSCI 2300', 'MATH 2010']","['CSCI 2300', 'MATH 2010']",Science
+TIME SERIES ANALYSIS,LEC,3,MR,10:00AM,11:20AM,Bulent Yener,Jonsson-Rowland Science Center 1W01,10,5,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,94262,6965,01,CSCI-6965,Time Series Analysis,"A time series is a sequence (xt) of data where the subscript t indicates the time at which the data xt was observed. The course provides an introduction to the theory and practice of statistical time series analysis. Topics covered include stationary and non-stationary stochastic processes, autoregressive and moving average (ARMA) models, model selection and estimation, state-space models and the Kalman filter, forecasting and forecast evaluation,  an outline of spectral techniques. While these fundamental techniques are remarkably successful, availability of large time series data sets motivates application of AI/ML methods. Thus we will cover various deep neural networks that are relevant to time series data including RNN, LSTM.","Prerequisites: CSCI 2300; familiarity with stochastic processes, probability theory, linear algebra, and statistics is strongly recommended",,['CSCI 2300'],[],Science
+DESIGN AND ANALYSIS OF ALGORITHMS,LEC,4,TF,12:00PM,1:50PM,Elliot I. Anshelevich,Russell Sage Laboratory 5510,65,56,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,90307,4020,01,CSCI-4020,Design And Analysis Of Algorithms,"This course presents fundamental ideas and techniques of modern algorithm design and analysis. After completing this course, students should be able to formally analyze and design efficient algorithms for a variety of computational problems. Topics covered include Greedy Algorithms, Dynamic Programming, Network Flow, NP-Completeness, Linear Programming, Network Algorithms, as well as probabilistic and approximate algorithms.",Prerequisite: CSCI 2300.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],Science
+NETWORK FLOWS,LEC,3,MR,2:00PM,3:20PM,James Bailey,Low Center for Industrial Inn. 3112,20,1,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,94978,6966,01,CSCI-6966,Network Flows,,,,[],[],Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,36,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,91263,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,8:00AM,9:50AM,TBA,Amos Eaton Hall 216,40,36,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,91263,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,36,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,91263,2300,01,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,21,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,90288,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,8:00AM,9:50AM,TBA,Russell Sage Laboratory 5101,40,21,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,90288,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,21,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,90288,2300,02,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,45,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,91055,2300,03,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 216,40,45,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,91055,2300,03,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,45,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,91055,2300,03,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,45,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90284,2300,04,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 5101,40,45,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90284,2300,04,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,45,-5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90284,2300,04,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,51,-11,CSCI,2024-01-08,2024-04-24,SPRING 2024,92488,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,12:00PM,1:50PM,TBA,Russell Sage Laboratory 5101,40,51,-11,CSCI,2024-01-08,2024-04-24,SPRING 2024,92488,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,51,-11,CSCI,2024-01-08,2024-04-24,SPRING 2024,92488,2300,05,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,41,-1,CSCI,2024-01-08,2024-04-24,SPRING 2024,92489,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,12:00PM,1:50PM,TBA,Amos Eaton Hall 216,40,41,-1,CSCI,2024-01-08,2024-04-24,SPRING 2024,92489,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,41,-1,CSCI,2024-01-08,2024-04-24,SPRING 2024,92489,2300,06,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,40,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,93523,2300,07,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 5101,40,40,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,93523,2300,07,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,40,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,93523,2300,07,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,43,-3,CSCI,2024-01-08,2024-04-24,SPRING 2024,93524,2300,08,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,2:00PM,3:50PM,TBA,Amos Eaton Hall 216,40,43,-3,CSCI,2024-01-08,2024-04-24,SPRING 2024,93524,2300,08,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,43,-3,CSCI,2024-01-08,2024-04-24,SPRING 2024,93524,2300,08,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,42,-2,CSCI,2024-01-08,2024-04-24,SPRING 2024,94351,2300,09,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,4:00PM,5:50PM,TBA,Russell Sage Laboratory 5101,40,42,-2,CSCI,2024-01-08,2024-04-24,SPRING 2024,94351,2300,09,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,42,-2,CSCI,2024-01-08,2024-04-24,SPRING 2024,94351,2300,09,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,TF,10:00AM,11:50AM,David Eric Goldschmidt/Xiaoyang Liu,Darrin Communications Center 308,40,44,-4,CSCI,2024-01-08,2024-04-24,SPRING 2024,94352,2300,10,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,4:00PM,5:50PM,TBA,Amos Eaton Hall 216,40,44,-4,CSCI,2024-01-08,2024-04-24,SPRING 2024,94352,2300,10,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+INTRODUCTION TO ALGORITHMS,LEC,4,W,6:00PM,7:50PM,TBA,TBA,40,44,-4,CSCI,2024-01-08,2024-04-24,SPRING 2024,94352,2300,10,CSCI-2300,Introduction To Algorithms,"Data structures and algorithms, and the mathematical techniques necessary to design and analyze them. Basic data structures: lists, associative structures, trees. Mathematical techniques for designing algorithms and analyzing worst-case and expected-case algorithm efficiency. Advanced data structures: balanced trees, tries, heaps, priority queues, graphs. Searching, sorting. Algorithm design techniques: dynamic programming, greedy algorithms, divide-and-conquer, backtracking. Example graph, string, geometric, and numeric algorithms.","Prerequisites: CSCI 1200, CSCI 2200, and Introduction to Calculus (MATH 1010 or MATH 1500 or MATH 1020 or MATH 2010 ).",When Offered: Fall and spring terms annually.,"['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']","['CSCI 1200', 'CSCI 2200', 'MATH 1010', 'MATH 1500', 'MATH 1020', 'MATH 2010']",Science
+PARALLEL PROGRAMMING,LEC,4,TF,8:00AM,9:50AM,Christopher D. Carothers,Academy Hall AUD,90,71,19,CSCI,2024-01-08,2024-04-24,SPRING 2024,92979,4320,01,CSCI-4320,Parallel Programming,"Techniques and methods for parallel programming: models of parallel machines and programs, efficiency and complexity of parallel algorithms. Paradigms of parallel programming and corresponding extensions to sequential programming languages. Overview of parallel languages and coordination languages and models; programming on networks of workstations. Basic parallel algorithms: elementary computation, matrix multiplication, sorting; sample scientific application.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring term annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+DIST SYSTEMS & ALGORITHMS,LEC,4,MR,12:00PM,1:50PM,Stacy Elizabeth Patterson,Russell Sage Laboratory 5101,36,26,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,94793,4510,01,CSCI-4510,Dist Systems & Algorithms,"This course explores the principles of distributed systems, emphasizing fundamental issues underlying the design of such systems: communication, coordination, synchronization, and fault-tolerance. Key algorithms and theoretical results will be studied and students will explore how these foundations play out in modern systems and applications.",Prerequisite: CSCI 4210.,When Offered: Fall term annually.,['CSCI 4210'],['CSCI 4210'],Science
+SOCIAL COMPUTING,LEC,4,MR,12:00PM,1:50PM,Tomasz Strzalkowski,Low Center for Industrial Inn. 3112,29,11,18,CSCI,2024-01-08,2024-04-24,SPRING 2024,93949,4960,01,CSCI-4960,Social Computing,,Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+PROJECTS IN ML AND AI,LEC,4,TF,10:00AM,11:50AM,Uzma Mushtaque,Pittsburgh Building 5114,20,7,13,CSCI,2024-01-08,2024-04-24,SPRING 2024,93676,6967,01,CSCI-6967,Projects In Ml And Ai,This course will expose students to applying their knowledge of ML and AI to real-world problems using real-world datasets. Larger focus of the course is on Deep Learning and its applications. Students will learn and implement ML concepts by creating small- and medium-sized projects throughout the course.,Prerequisites: CSCI 2300; familiarity with probability and linear algebra,,['CSCI 2300'],[],Science
+WEB SCIENCE SYSTEMS DEVELPMENT,LEC,4,TF,12:00PM,1:50PM,Brian Robert Callahan,Lally Hall 102,15,5,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,94815,4520,01,CSCI-4520,Web Science Systems Develpment,"Building on the technology covered in Web Systems Development, students will be exposed to current technologies, frameworks, and practices in the area of Web development. Types of topics included will be HTML5/CSS3, API's for data, node.js, MongoDB, and Angular. Methodology to be explored will be application design, software versioning, and team development. Lab intensive, this course is intended to complete a foundation for the advanced courses in Data Science and Advanced Web Science.",Prerequisites: ITWS 2110 and CSCI 1200,When Offered: Spring term annually.,"['ITWS 2110', 'CSCI 1200']","['ITWS 2110', 'CSCI 1200']",Science
+WEB SCIENCE SYSTEMS DEVELPMENT,LEC,4,TF,2:00PM,3:50PM,Brian Robert Callahan,Lally Hall 102,15,3,12,CSCI,2024-01-08,2024-04-24,SPRING 2024,94973,4520,02,CSCI-4520,Web Science Systems Develpment,"Building on the technology covered in Web Systems Development, students will be exposed to current technologies, frameworks, and practices in the area of Web development. Types of topics included will be HTML5/CSS3, API's for data, node.js, MongoDB, and Angular. Methodology to be explored will be application design, software versioning, and team development. Lab intensive, this course is intended to complete a foundation for the advanced courses in Data Science and Advanced Web Science.",Prerequisites: ITWS 2110 and CSCI 1200,When Offered: Spring term annually.,"['ITWS 2110', 'CSCI 1200']","['ITWS 2110', 'CSCI 1200']",Science
+DEEP LEARNING,LEC,4,MR,2:00PM,3:50PM,Yao Ma,Jonsson Engineering Center 3207,30,13,17,CSCI,2024-01-08,2024-04-24,SPRING 2024,94537,4961,01,CSCI-4961,Deep Learning,"This course delves deeply into the transformative world of deep learning. Throughout the semester, we will cover (1) Essential architectures feedforward neural networks, convolutional neural networks (CNNs), recurrent neural networks (RNNs), generative adversarial networks (GANs), and Transformers. (2) Fundamental concepts and algorithms  backpropagation, loss functions, optimization strategies, regularization, data augmentation. (3) Diverse applications computer vision, natural language processing.",Prerequisites: CSCI 4100/6100,,['CSCI 4100'],[],Science
+PARALLEL COMPUTING,LEC,4,TF,8:00AM,9:50AM,Christopher D. Carothers,Academy Hall AUD,30,26,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,92980,6360,01,CSCI-6360,Parallel Computing,"A survey of fundamental issues in design of efficient programs for parallel computers. The topics discussed include models of parallel machines and programs, efficiency of parallel algorithms, programming styles for shared memory, message passing, data parallelism, and using MPI in scientific parallel programs. Parallel programming project required.",,When Offered: Spring term annually.,[],[],Science
+TRUSTWORTHY MACHINE LEARNING,LEC,4,TF,12:00PM,1:50PM,Alex Algernon Theodore Gittens,Lally Hall 02,20,7,13,CSCI,2024-01-08,2024-04-24,SPRING 2024,93678,6968,01,CSCI-6968,Trustworthy Machine Learning,Machine-learned models now routinely outperform humans at a variety of tasks. That accuracy comes implicitly at the cost of other socially and ethically desirable properties; these trade-offs limit the arenas in which ML may be deployed. This seminar course covers recent approaches towards measuring and ensuring such properties in machine-learned models. The properties considered include (i) fairness models should not discriminate on the basis of protected attributes; (ii) robustness models’ predictions should not change irrationally in response to imperceptible changes in their inputs; and (iii) privacy models should not leak sensitive information on individuals.,Prerequisites: CSCI 4100/6100 or CSCI 496x/696x ML and Optimization,,['CSCI 4100'],[],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat,Darrin Communications Center 324,42,40,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92656,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,M,6:00PM,7:50PM,TBA,TBA,42,40,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92656,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4510,42,40,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92656,2500,02,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat,Darrin Communications Center 324,42,42,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,92658,2500,03,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,M,6:00PM,7:50PM,TBA,TBA,42,42,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,92658,2500,03,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,12:00PM,1:50PM,TBA,Russell Sage Laboratory 4510,42,42,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,92658,2500,03,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat,Darrin Communications Center 324,42,34,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,93415,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,M,6:00PM,7:50PM,TBA,TBA,42,34,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,93415,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 4510,42,34,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,93415,2500,04,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,MR,8:00AM,9:50AM,Masoud Zarifneshat,Darrin Communications Center 324,42,40,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,93416,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,M,6:00PM,7:50PM,TBA,TBA,42,40,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,93416,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+COMPUTER ORGANIZATION,LEC,4,W,4:00PM,5:50PM,TBA,Russell Sage Laboratory 4510,42,40,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,93416,2500,05,CSCI-2500,Computer Organization,"Introduction to computer organization, assembler language, and operating systems. Computer systems organization: processors, memory, I/O. Digital logic: gates, Boolean algebra, digital logic circuits, memory, buses. Microprogramming. Machine level: instruction formats, addressing modes, instruction types, flow of control. Operating systems: virtual memory, virtual I/O instructions, processes, interprocess communication. Numeric representation. Assembler language: the assembly process, macros, linking, loading. Advanced architectures: RISC architectures, parallel architectures.",Prerequisite: CSCI 1200.,When Offered: Fall and spring terms annually.,['CSCI 1200'],['CSCI 1200'],Science
+SECURITY AND PRIVACY OF ML,LEC,4,TF,12:00PM,1:50PM,Lei Yu,Jonsson Engineering Center 4309,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,93431,4962,01,CSCI-4962,Security And Privacy Of Ml,"Machine learning (ML) has demonstrated superior performance in many areas and has increasingly been deployed in real-world critical applications. However, the vulnerabilities and privacy risks of ML models could put public safety and user privacy in danger. Existing studies have shown that the ML applications such as financial analytics and autonomous vehicles are vulnerable to attacks that can manipulate the models to their malicious ends. This course will introduce potential vulnerabilities of ML models, recent research and future directions about the security and privacy problems in real-world machine learning systems. We will cover different types of attacks against computer systems leveraging ML as well as defense techniques, privacy-preserving ML, and robustness and fairness in ML. Students will familiarize themselves with the emerging body of literature on each topic, understand different algorithms, analyze security vulnerabilities, and develop the ability to conduct research projects on related topics.",Prerequisites: CSCI 4150 or CSCI 4100/6100,,"['CSCI 4150', 'CSCI 4100']",[],Science
+ROBOTICS II,LEC,3,MR,4:00PM,5:50PM,Esen Yel,Jonsson Engineering Center 4104,15,2,13,CSCI,2024-01-08,2024-04-24,SPRING 2024,94939,6969,01,CSCI-6969,Robotics Ii,,,,[],[],Science
+PRINCIPLES OF SOFTWARE,LEC,4,M,6:00PM,7:50PM,TBA,TBA,450,448,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92655,2600,01,CSCI-2600,Principles Of Software,"A study of important concepts in software design, implementation, and testing. Topics include specification, abstraction with classes, design principles and patterns, testing, refactoring, the software development process, GUI and event-driven programming, and cloud-based programming. The course also introduces implementation and testing tools, including IDEs, revision control systems, and other frameworks. The overarching goal of the course is for students to learn how to write correct and maintainable software.",Prerequisites: CSCI 1200 and CSCI 2200.,When Offered: Spring and summer terms annually.,"['CSCI 1200', 'CSCI 2200']","['CSCI 1200', 'CSCI 2200']",Science
+PRINCIPLES OF SOFTWARE,LEC,4,TF,8:00AM,9:50AM,Konstantin Kuzmin/Shianne M. Hulbert,Darrin Communications Center 308,450,448,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92655,2600,01,CSCI-2600,Principles Of Software,"A study of important concepts in software design, implementation, and testing. Topics include specification, abstraction with classes, design principles and patterns, testing, refactoring, the software development process, GUI and event-driven programming, and cloud-based programming. The course also introduces implementation and testing tools, including IDEs, revision control systems, and other frameworks. The overarching goal of the course is for students to learn how to write correct and maintainable software.",Prerequisites: CSCI 1200 and CSCI 2200.,When Offered: Spring and summer terms annually.,"['CSCI 1200', 'CSCI 2200']","['CSCI 1200', 'CSCI 2200']",Science
+GRAPH MINING,LEC,4,MR,12:00PM,1:50PM,George M. Slota,Russell Sage Laboratory 4101,36,25,11,CSCI,2024-01-08,2024-04-24,SPRING 2024,94795,4963,01,CSCI-4963,Graph Mining,"This course will introduce students to data mining, machine learning, and other algorithmic techniques for analyzing social and biological networks, web crawls, and similar real-world graph-based datasets. Course topics will include an introduction to general graph computations, analysis and mining algorithms, graph analysis frameworks, random graph models, graph visualization, and graph computations via matrix operations. Students will learn about research challenges related to the computational study of large graphs on modern systems. Prospective students should have some background knowledge in algorithms and be comfortable with C/C++ and Python-based programming.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+FINITE ELEMENT ANALYSIS,LEC,4,TF,2:00PM,3:50PM,Fengyan Li,Carnegie Building 208,25,0,25,CSCI,2024-01-08,2024-04-24,SPRING 2024,94775,6860,01,CSCI-6860,Finite Element Analysis,"Galerkin's method and extremal principles, finite element approximations (Lagrange, hierarchical and 3-D approximations, interpolation errors), mesh generation and assembly, adaptivity (h-, p-, hp-refinement). Error analysis and convergence rates. Perturbations resulting from boundary approximation, numerical integration, etc. Time dependent problems including parabolic and hyperbolic PDEs. Applications will be selected from several areas including heat conduction, wave propagation, potential theory, and solid and fluid mechanics.",Prerequisite: MATH 4800 or CSCI 4800 or permission of instructor.,When Offered: Spring term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+INTRODUCTION TO RCOS,LEC,4,TF,4:00PM,5:50PM,Wesley D Turner/Neha Keshan/Xiaoyang Liu/Jidong Xiao,Darrin Communications Center 308,175,142,33,CSCI,2024-01-08,2024-04-24,SPRING 2024,94782,2700,01,CSCI-2700,Introduction To Rcos,"The Rensselaer Center for Open Source (RCOS) is an eclectic group of undergraduate students working on team-based open source projects, including both software and open hardware projects. This introductory course provides the fundamental skills required to work as a team on an open source project; such skills include version control via Git, team communication techniques, and how to develop, test, and commit changes to an existing Git repository.",Prerequisites/Corequisites: CSCI 1200,"When Offered: Fall, spring, and summer terms annually.",['CSCI 1200'],['CSCI 1200'],Science
+INTERACTIVE VISUALIZATION,LEC,4,TF,2:00PM,3:50PM,Barbara Cutler,Troy Building 2012,45,38,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,93902,4550,01,CSCI-4550,Interactive Visualization,"Visualizing data is a key step in understanding many problems. This course is designed to introduce students to methods of visualizing many different types of data, such as images, three-dimensional surfaces, flow fields, and medical data. Both existing visualization software and program custom visualizations using C++ and OpenGL will be used. Course activities include discussion of recent and classic research papers, weekly homework assignments, in-class critiques of visualization artifacts, and a final project to explore creative uses of these techniques. This is a communication-intensive course.","Prerequisites: CSCI 2300 and CSCI 2600, or permission of instructor.",When Offered: Spring term even-numbered years.,"['CSCI 2300', 'CSCI 2600']","['CSCI 2300', 'CSCI 2600']",Science
+ML OPEN SOURCE OPEN SCIENCE,LEC,3,W,2:00PM,4:50PM,Malik Magdon-Ismail/Thilanka Munasinghe,Voorhees Computing Center SO,16,10,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,93497,4964,01,CSCI-4964,Ml Open Source Open Science,"A structured, intensive research experience for students interested in Machine Learning, AI and Data. Students will focus on a single research project through the semester to answer a novel research question within an open source, open science framework. Projects will use data from a variety of application domains including medical (e.g. disease modeling), environment, finance, text, image, etc. The primary outcomes for students will be open source tools and research publications in peer-reviewed venues.","Prerequisites: Registration is by permission of instructor only. Students must have prior extensive knowledge in Machine Learning, e.g., a high passing grade in a 4000-level ML course, and be proficient in calculus, linear algebra, probability, algorithms and programming.",,[],[],Science
+XINFORMATICS,LEC,3,W,9:00AM,11:50AM,Thilanka Munasinghe,Pittsburgh Building 4114,12,4,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,92479,6400,01,CSCI-6400,Xinformatics,"Informatics covers a broad range of disciplines addressing challenges in the explosion of data and information resources. Xinformatics provides commonality for implementations in specific disciplines, e.g. X=astro, geo. Informatics' theoretical bases are information and computer science, cognitive science, social science, library science, aggregating these studies and adding the practice of information processing, and the engineering of information systems. This course grounds the material that students will learn in discipline areas by coursework and project assignments.",,When Offered: Spring term annually.,[],[],Science
+AI AND BLOCKCHAIN,LEC,4,TF,2:00PM,3:50PM,Oshani W. Seneviratne,Low Center for Industrial Inn. 3112,20,5,15,CSCI,2024-01-08,2024-04-24,SPRING 2024,92652,6971,01,CSCI-6971,Ai And Blockchain,"This research seminar-oriented course will explore the synergistic combination of Artificial Intelligence (AI) and Blockchain technologies. A primary focus of the course is to identify the disruptors in the two technologies from a research lens. Specifically, we intend to discuss how leveraging blockchain technology can benefit AI and how applying AI can enhance the capabilities of blockchain technology. Furthermore, students are encouraged to think about the impact of these two technologies on society. Topics discussed in the course include blockchain fundamentals, smart contracts, web3, federated machine learning, and decentralized applications that combine AI and blockchain technologies.",Prerequisites: CSCI 2300 and CSCI 2600; familiarity with basic cryptography also required,,"['CSCI 2300', 'CSCI 2600']",[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,24,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,90341,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,10:00AM,11:50AM,TBA,Voorhees Computing Center SO,24,24,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,90341,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,24,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,90341,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,22,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,90342,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,12:00PM,1:50PM,TBA,Voorhees Computing Center SO,24,22,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,90342,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,22,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,90342,1100,02,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,23,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90343,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,2:00PM,3:50PM,TBA,Voorhees Computing Center SO,24,23,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90343,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,23,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90343,1100,03,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,19,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90344,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 4101,24,19,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90344,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,19,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90344,1100,04,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,20,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,92338,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,12:00PM,1:50PM,TBA,Russell Sage Laboratory 4101,24,20,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,92338,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,20,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,92338,1100,06,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,24,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,93032,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,2:00PM,3:50PM,TBA,Russell Sage Laboratory 4101,24,24,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,93032,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,24,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,93032,1100,07,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,MR,12:00PM,1:20PM,John Sturman/Shianne M. Hulbert,Darrin Communications Center 324,24,21,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,93207,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,W,4:00PM,5:50PM,TBA,Russell Sage Laboratory 4101,24,21,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,93207,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,6:00PM,7:50PM,TBA,TBA,24,21,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,93207,1100,09,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+TIME SERIES ANALYSIS,LEC,3,MR,10:00AM,11:20AM,Bulent Yener,Jonsson-Rowland Science Center 1W01,20,4,16,CSCI,2024-01-08,2024-04-24,SPRING 2024,94261,4965,01,CSCI-4965,Time Series Analysis,"A time series is a sequence (xt) of data where the subscript t indicates the time at which the data xt was observed. The course provides an introduction to the theory and practice of statistical time series analysis. Topics covered include stationary and non-stationary stochastic processes, autoregressive and moving average (ARMA) models, model selection and estimation, state-space models and the Kalman filter, forecasting and forecast evaluation,  an outline of spectral techniques. While these fundamental techniques are remarkably successful, availability of large time series data sets motivates application of AI/ML methods. Thus we will cover various deep neural networks that are relevant to time series data including RNN, LSTM.","Prerequisites: CSCI 2300; familiarity with stochastic processes, probability theory, linear algebra, and statistics is strongly recommended",,['CSCI 2300'],[],Science
+PRINCIPLES OF PROGRAM ANALYSIS,LEC,4,MR,12:00PM,1:50PM,Ana L. Milanova,Russell Sage Laboratory 4112,20,16,4,CSCI,2024-01-08,2024-04-24,SPRING 2024,94792,6450,01,CSCI-6450,Principles Of Program Analysis,"The goal of this course is to introduce students to program analysis and its many applications in software engineering, particularly in improving software quality and software productivity. Concretely, students who successfully complete this course should be able to: (1) understand and apply program analysis techniques, such as dataflow analysis and type-based analysis; (2) implement program analysis; (3) understand and apply software testing techniques, such as black-box testing and white-box testing; and (4) understand and apply refactoring techniques.",Prerequisites: CSCI 4430.,When Offered: Spring term even-numbered years.,['CSCI 4430'],['CSCI 4430'],Science
+XINFORMATICS,LEC,3,W,9:00AM,11:50AM,Thilanka Munasinghe,Pittsburgh Building 4114,11,4,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,92478,4400,01,CSCI-4400,Xinformatics,"Informatics covers a broad range of disciplines addressing challenges in the explosion of data and information resources. Xinformatics provides commonality for implementations in specific disciplines, e.g. X=astro, geo. Informatics' theoretical bases are information and computer science, cognitive science, social science, library science, aggregating these studies and adding the practice of information processing, and the engineering of information systems. This course grounds the material that students will learn in discipline areas by coursework and project assignments.",Prerequisites/Corequisites: CSCI 1200 and (CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 ).,When Offered: Spring term annually.,"['CSCI 1200', 'CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 1200', 'CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
+DATA ANALYTICS,LEC,3,TF,2:00PM,3:50PM,Thilanka Munasinghe,Lally Hall 104,5,7,-2,CSCI,2024-01-08,2024-04-24,SPRING 2024,94295,4600,01,CSCI-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",Prerequisite: CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Spring terms annually.,"['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
+DATA ANALYTICS,LEC,3,TF,10:00AM,11:50AM,Thilanka Munasinghe,Lally Hall 104,5,2,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,94299,4600,02,CSCI-4600,Data Analytics,"The world at-large is confronted with increasingly larger and complex sets of structured/unstructured information; from cyber and human sources. Traditional enterprises are moving toward analytics-driven approaches for core business functions. Data and information analytics extends analysis (descriptive models of data) by using data mining and machine learning methods, with optimization and validation, to recommend action or guide and communicate decision-making. Thus, analytics is an entire methodology rather than individual analyses or analysis steps.",Prerequisite: CSCI 4350/ CSCI 6350/ ERTH 4350/ ERTH 6350/ ITWS 4350/ ITWS 6350 or permission of instructor.,When Offered: Spring terms annually.,"['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']","['CSCI 4350', 'CSCI 6350', 'ERTH 4350', 'ERTH 6350', 'ITWS 4350', 'ITWS 6350']",Science
+DISSERTATION,LEC,1-15,,,,Mohammed J. Zaki,TBA,15,8,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,90144,9990,01,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,James A. Hendler,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,91119,9990,02,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Christopher D. Carothers,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,91283,9990,03,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Charles V Stewart,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,90149,9990,04,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Barbara Cutler,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,91284,9990,05,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Alex Algernon Theodore Gittens,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,90206,9990,06,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Tomasz Strzalkowski,TBA,10,4,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,91036,9990,07,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Selmer Bringsjord,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,90297,9990,08,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Mark S Shephard,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,90318,9990,09,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,91533,9990,10,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jianxi Gao,TBA,10,4,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,93234,9990,11,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ziniu Hu,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,90324,9990,12,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Deborah L. McGuinness,TBA,10,7,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,91890,9990,13,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Sibel Adali,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,90325,9990,14,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,0,0,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,90326,9990,15,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Boleslaw Szymanski,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,90327,9990,16,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ron Sun,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92702,9990,17,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Radoslav Svetlozarov Ivanov,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,91914,9990,18,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Bulent Yener,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,90386,9990,20,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Christopher Bystroff,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92228,9990,21,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Elliot I. Anshelevich,TBA,10,2,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,91146,9990,22,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,George M. Slota,TBA,5,3,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,93558,9990,23,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Tianfan Fu,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,92522,9990,26,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Lirong Xia,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,92524,9990,27,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Malik Magdon-Ismail,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,90411,9990,29,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Oshani W. Seneviratne,TBA,10,4,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,94631,9990,30,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Carlos A Varela,TBA,10,0,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,90412,9990,32,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Yao Ma,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,95072,9990,33,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ana L. Milanova,TBA,10,3,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,90477,9990,34,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Lei Yu,TBA,10,1,9,CSCI,2024-01-08,2024-04-24,SPRING 2024,95114,9990,35,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90346,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Troy Building 2012,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90346,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90346,1200,01,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90347,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 3112,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90347,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90347,1200,02,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,25,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,90348,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,12:00PM,1:50PM,TBA,Low Center for Industrial Inn. 4040,27,25,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,90348,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,25,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,90348,1200,03,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90349,1200,04,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,12:00PM,1:50PM,TBA,Troy Building 2012,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90349,1200,04,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90349,1200,04,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90350,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Troy Building 2015,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90350,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90350,1200,05,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90351,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Troy Building 2012,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90351,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,90351,1200,06,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90352,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Troy Building 2018,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90352,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,24,3,CSCI,2024-01-08,2024-04-24,SPRING 2024,90352,1200,07,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Jidong Xiao/Shianne M. Hulbert/Neha Keshan/Meredith Elizabeth Widman,Darrin Communications Center 308,27,27,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,92339,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Troy Building 2012,27,27,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,92339,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,27,0,CSCI,2024-01-08,2024-04-24,SPRING 2024,92339,1200,08,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,22,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,92487,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Russell Sage Laboratory 5101,27,22,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,92487,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,22,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,92487,1200,09,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,25,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92501,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Russell Sage Laboratory 4101,27,25,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92501,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,25,2,CSCI,2024-01-08,2024-04-24,SPRING 2024,92501,1200,10,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,22,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,93203,1200,11,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,12:00PM,1:50PM,TBA,Pittsburgh Building 4114,27,22,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,93203,1200,11,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,22,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,93203,1200,11,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93204,1200,12,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,2:00PM,3:50PM,TBA,Low Center for Industrial Inn. 4040,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93204,1200,12,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93204,1200,12,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93205,1200,13,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,4:00PM,5:50PM,TBA,Low Center for Industrial Inn. 4040,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93205,1200,13,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93205,1200,13,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,20,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,93206,1200,14,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Low Center for Industrial Inn. 4040,27,20,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,93206,1200,14,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,20,7,CSCI,2024-01-08,2024-04-24,SPRING 2024,93206,1200,14,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93413,1200,15,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,10:00AM,11:50AM,TBA,Low Center for Industrial Inn. 4040,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93413,1200,15,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,26,1,CSCI,2024-01-08,2024-04-24,SPRING 2024,93413,1200,15,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,TF,2:00PM,3:50PM,Neha Keshan/Shianne M. Hulbert/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,27,21,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,93414,1200,16,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,W,6:00PM,7:50PM,TBA,Russell Sage Laboratory 4510,27,21,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,93414,1200,16,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+DATA STRUCTURES,LEC,4,R,6:00PM,7:50PM,TBA,TBA,27,21,6,CSCI,2024-01-08,2024-04-24,SPRING 2024,93414,1200,16,CSCI-1200,Data Structures,"Programming concepts: functions, parameter passing, pointers, arrays, strings, structs, classes, templates. Mathematical tools: sets, functions, and relations, order notation, complexity of algorithms, proof by induction. Data structures and their representations: data abstraction and internal representation, sequences, trees, binary search trees, associative structures. Algorithms: searching and sorting, generic algorithms, iterative and recursive algorithms. Methods of testing correctness and measuring performance.",Prerequisite: CSCI 1100 or permission of instructor.,When Offered: Fall and spring terms annually.,['CSCI 1100'],['CSCI 1100'],Science
+INTRODUCTION TO ARTIFICIAL INTELLIGENCE,LEC,4,MR,10:00AM,11:50AM,Lirong Xia,Darrin Communications Center 308,175,165,10,CSCI,2024-01-08,2024-04-24,SPRING 2024,92527,4150,01,CSCI-4150,Introduction To Artificial Intelligence,"Topics and techniques of artificial intelligence using the language LISP. Topics include search, knowledge representation, expert systems, theorem proving, natural language interfaces, learning, game playing, and computer vision. Techniques include pattern matching, data-driven programming, substitution rules, frames, heuristic search, transition networks, neural networks, and evolutionary computation. Development of programming proficiency in LISP is emphasized.",Prerequisite: CSCI 2300.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],Science
+PROJECTS IN ML AND AI,LEC,4,TF,10:00AM,11:50AM,Uzma Mushtaque,Pittsburgh Building 5114,36,16,20,CSCI,2024-01-08,2024-04-24,SPRING 2024,93675,4967,01,CSCI-4967,Projects In Ml And Ai,This course will expose students to applying their knowledge of ML and AI to real-world problems using real-world datasets. Larger focus of the course is on Deep Learning and its applications. Students will learn and implement ML concepts by creating small- and medium-sized projects throughout the course.,Prerequisites: CSCI 2300; familiarity with probability and linear algebra,,['CSCI 2300'],[],Science
+EARLY INTRODUCTION TO RCOS,LEC,2,TF,4:00PM,5:50PM,Wesley D Turner/Neha Keshan/Xiaoyang Liu/Jidong Xiao,Darrin Communications Center 308,128,38,90,CSCI,2024-01-08,2024-04-24,SPRING 2024,94780,1700,01,CSCI-1700,Early Introduction To Rcos,"The Rensselaer Center for Open Source (RCOS) is an eclectic group of undergraduate students working on team-based open source projects, including both software and open hardware projects. This initial course provides the core skills required to work on an open source project.",CSCI 1100,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+MATHEMATICAL FOUNDATIONS OF ML,LEC,4,MR,12:00PM,1:50PM,Mohammad Mohammadi Amiri,Russell Sage Laboratory 2112,30,18,12,CSCI,2024-01-08,2024-04-24,SPRING 2024,93924,2960,01,CSCI-2960,Mathematical Foundations Of Ml,"In this class, students will delve into the essential building blocks of machine learning, focusing on topics in linear algebra, continuous probability, and statistics. These mathematical foundations are the bedrock upon which machine learning is constructed. By mastering these fundamental concepts, students will gain a powerful understanding of machine learning algorithms and predictive modeling. Moreover, this course is on track to becoming a prerequisite for all machine learning classes in the Computer Science department.",Prerequisites: CSCI 2200 and MATH 2010,,"['CSCI 2200', 'MATH 2010']",[],Science
+CSCI 4210 Operating Systems,LEC,4,TF,12:00PM,1:50PM,Wesley D Turner,Darrin Communications Center 318,200,195,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90282,4210,01,CSCI-4210,Csci 4210 Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+CSCI 4210 Operating Systems,LEC,4,W,6:00PM,7:50PM,TBA,TBA,200,195,5,CSCI,2024-01-08,2024-04-24,SPRING 2024,90282,4210,01,CSCI-4210,Csci 4210 Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+TRUSTWORTHY MACHINE LEARNING,LEC,4,TF,12:00PM,1:50PM,Alex Algernon Theodore Gittens,Lally Hall 02,30,2,28,CSCI,2024-01-08,2024-04-24,SPRING 2024,93677,4968,01,CSCI-4968,Trustworthy Machine Learning,Machine-learned models now routinely outperform humans at a variety of tasks. That accuracy comes implicitly at the cost of other socially and ethically desirable properties; these trade-offs limit the arenas in which ML may be deployed. This seminar course covers recent approaches towards measuring and ensuring such properties in machine-learned models. The properties considered include (i) fairness models should not discriminate on the basis of protected attributes; (ii) robustness models’ predictions should not change irrationally in response to imperceptible changes in their inputs; and (iii) privacy models should not leak sensitive information on individuals.,Prerequisites: CSCI 4100/6100 or CSCI 496x/696x ML and Optimization,,['CSCI 4100'],[],Science
+AI FOR DRUG DISCOVERY,LEC,4,TF,10:00AM,11:50AM,Tianfan Fu,Russell Sage Laboratory 4203,12,4,8,CSCI,2024-01-08,2024-04-24,SPRING 2024,94806,6960,01,CSCI-6960,Ai For Drug Discovery,TBD,Prerequisites: ,,[],[],Science
+FAB TECH f SEMICONDUCTOR MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Darrin Communications Center 337,100,1,99,ISCI,2024-01-08,2024-04-24,SPRING 2024,94728,4961,01,ISCI-4961,Fab Tech F Semiconductor Mfg,,,,[],[],Science
+READINGS IN ASTROBIOLOGY,LEC,1,R,12:00PM,1:50PM,Karyn Lynne Rogers,Darrin Communications Center 232,24,10,14,ISCI,2024-01-08,2024-04-24,SPRING 2024,94519,6510,01,ISCI-6510,Readings In Astrobiology,"Discussion of current issues and research relevant to astrobiology and the origins of life through the view of earth sciences, chemistry, biology, and astrophysics.",,When Offered: Fall and spring terms annually.,[],[],Science
+DISSERTATION,LEC,1-15,,,,Chaitanya Kishore Ullal,TBA,10,0,10,ISCI,2024-01-08,2024-04-24,SPRING 2024,90536,9990,01,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Richard M. Plotka,TBA,10,0,10,ISCI,2024-01-08,2024-04-24,SPRING 2024,91073,9990,03,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Sibel Adali,TBA,10,0,10,ISCI,2024-01-08,2024-04-24,SPRING 2024,92262,9990,04,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Gyorgy Korniss,TBA,5,0,5,ISCI,2024-01-08,2024-04-24,SPRING 2024,92197,9990,05,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Karyn Lynne Rogers,TBA,5,1,4,ISCI,2024-01-08,2024-04-24,SPRING 2024,92257,9990,06,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,ISCI,2024-01-08,2024-04-24,SPRING 2024,92313,9990,07,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+INTRO TO ASTROBIOLOGY,LEC,4,MR,2:00PM,3:50PM,Andrew Steele/Karyn Lynne Rogers,Russell Sage Laboratory 3713,30,18,12,ISCI,2024-01-08,2024-04-24,SPRING 2024,94470,1510,01,ISCI-1510,Intro To Astrobiology,"The field of Astrobiology considers the emergence and evolution of life on Earth, and the potential for life elsewhere. This course explores fundamental concepts in Astrobiology including the creation of the chemical elements, origin and evolution of the solar system, the definition and requirements for life, early Earth environments and life's emergence on this planet. Additionally, students explore habitability on other extraterrestrial bodies, including, Mars, icy worlds, and exoplanets, through self-directed research.",,When Offered: Spring term annually.,[],[],Science
+RDGS ASTROBIO & ORIG OF LIFE,LEC,1,R,12:00PM,1:50PM,Karyn Lynne Rogers,Darrin Communications Center 232,15,2,13,ISCI,2024-01-08,2024-04-24,SPRING 2024,93732,4510,01,ISCI-4510,Rdgs Astrobio & Orig Of Life,"Discussion of current issues relevant to the origins of life in astrophysics, biology, chemistry, and earth sciences.","Prerequisite: ISCI 1510 or ERTH 1510; and junior standing or higher, or permission of instructor.",When Offered: Fall and spring terms annually.,"['ISCI 1510', 'ERTH 1510']","['ISCI 1510', 'ERTH 1510']",Science
+MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,TBA,Walker Laboratory 6113,5,4,1,ISCI,2024-01-08,2024-04-24,SPRING 2024,93471,1600,01,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,John R. LaGraff/Chaitanya Kishore Ullal,TBA,5,4,1,ISCI,2024-01-08,2024-04-24,SPRING 2024,93471,1600,01,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,ISCI,2024-01-08,2024-04-24,SPRING 2024,93474,1600,02,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,ISCI,2024-01-08,2024-04-24,SPRING 2024,93474,1600,02,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,TF,8:00AM,9:50AM,Ravishankar Sundararaman/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,ISCI,2024-01-08,2024-04-24,SPRING 2024,93477,1600,03,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,ISCI,2024-01-08,2024-04-24,SPRING 2024,93477,1600,03,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,TF,10:00AM,11:50AM,Wei Bao/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,ISCI,2024-01-08,2024-04-24,SPRING 2024,93480,1600,04,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,ISCI,2024-01-08,2024-04-24,SPRING 2024,93480,1600,04,ISCI-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CAPSTONE IN ASTROBIOLOGY,LEC,1,,,,Karyn Lynne Rogers,TBA,10,0,10,ISCI,2024-01-08,2024-04-24,SPRING 2024,94410,4610,01,ISCI-4610,Capstone In Astrobiology,"Students taking the Minor in Astrobiology are required to complete 3 credits of research in an Astrobiology-related discipline with a RARE-affiliated faculty member. Concurrent or in a later semester, students will enroll in ISCI 4610 with the same faculty member to prepare their research results for dissemination.",3 credits of Astrobiology research with a RARE-affiliated faculty member.,When Offered: Fall and spring terms annually.,[],[],Science
+CAPSTONE IN ASTROBIOLOGY,LEC,1,,,,Jacob Thomas Shelley,TBA,10,2,8,ISCI,2024-01-08,2024-04-24,SPRING 2024,94411,4610,02,ISCI-4610,Capstone In Astrobiology,"Students taking the Minor in Astrobiology are required to complete 3 credits of research in an Astrobiology-related discipline with a RARE-affiliated faculty member. Concurrent or in a later semester, students will enroll in ISCI 4610 with the same faculty member to prepare their research results for dissemination.",3 credits of Astrobiology research with a RARE-affiliated faculty member.,When Offered: Fall and spring terms annually.,[],[],Science
+CAPSTONE IN ASTROBIOLOGY,LEC,1,,,,Morgan Frederick Schaller,TBA,10,1,9,ISCI,2024-01-08,2024-04-24,SPRING 2024,95031,4610,03,ISCI-4610,Capstone In Astrobiology,"Students taking the Minor in Astrobiology are required to complete 3 credits of research in an Astrobiology-related discipline with a RARE-affiliated faculty member. Concurrent or in a later semester, students will enroll in ISCI 4610 with the same faculty member to prepare their research results for dissemination.",3 credits of Astrobiology research with a RARE-affiliated faculty member.,When Offered: Fall and spring terms annually.,[],[],Science
+FAB TECH f SEMICONDUCTOR MFG,LEC,3,MR,4:00PM,5:20PM,Jianqiang Lu,Darrin Communications Center 337,100,0,100,ISCI,2024-01-08,2024-04-24,SPRING 2024,94729,6961,01,ISCI-6961,Fab Tech F Semiconductor Mfg,,,,[],[],Science
+GIS IN THE SCIENCES,LEC,4,W,9:00AM,11:50AM,Sarah Beth Cadieux/Morgan Frederick Schaller/Sasha Joy Wagner,Voorhees Computing Center SO,15,14,1,ERTH,2024-01-08,2024-04-24,SPRING 2024,94985,4750,01,ERTH-4750,Gis In The Sciences,"Introduction to analysis and interpretation of spatial data and their presentation on maps. In this computationally intensive course, students will obtain practical skills and hands-on experience with state-of-the-art GIS applications. Concepts covered include map projections, geoprocessing, cartography, raster algebra, terrain modeling, multi-spectral image analysis, georeferencing, interpolation, web mapping, and GPS.",Prerequisites/Corequisites: CSCI 1100 or permission of instructor.,When Offered: Spring term annually.,['CSCI 1100'],['CSCI 1100'],Science
+HYDROTHERMAL EXPMT METHODS,LEC,3,TF,12:00PM,1:20PM,Kristin Nicole Johnson,Folsom Library 107,12,2,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,94840,6965,01,ERTH-6965,Hydrothermal Expmt Methods,,,,[],[],Science
+GEOLOGY II EARTH'S SURFACE,LEC,3,TF,10:00AM,11:50AM,Sarah Beth Cadieux,Academy Hall AUD,100,101,-1,ERTH,2024-01-08,2024-04-24,SPRING 2024,90079,1200,01,ERTH-1200,Geology Ii EARTH'S Surface,"The geological environment of humankind: the atmosphere, oceans, groundwater, rivers, glaciers, deserts, and soils. The course explores the processes by which these and other features develop and change, both naturally and as a result of human activity.",,When Offered: Spring term annually.,[],[],Science
+GEOLOGY II: EARTH'S SURFACE,LEC,3,TF,10:00AM,11:50AM,Sarah Beth Cadieux,Academy Hall AUD,20,10,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,94588,1200,02,ERTH-1200,Geology II: EARTH'S Surface,"The geological environment of humankind: the atmosphere, oceans, groundwater, rivers, glaciers, deserts, and soils. The course explores the processes by which these and other features develop and change, both naturally and as a result of human activity.",,When Offered: Spring term annually.,[],[],Science
+CHEM OF THE ENVIRONMENT,LEC,4,MR,10:00AM,11:50AM,Simon Nicholas Platts,Carnegie Building 101,20,9,11,ERTH,2024-01-08,2024-04-24,SPRING 2024,94245,4810,01,ERTH-4810,Chem Of The Environment,"Chemical processes important in the environment from naturally occurring and man-induced systems. Thermodynamic and chemical considerations of fuels; the thermodynamics of the atmosphere; atmospheric photochemistry; chemistry of natural water systems; chemistry of pesticides, fertilizers, and other important environmental contaminants; aspects of the carbon, nitrogen, and sulfur cycles.","Prerequisites: CHEM 1200 or CHEM 1220, and one prior or concurrent course in organic chemistry, or permission of instructor.",When Offered: Spring term annually.,"['CHEM 1200', 'CHEM 1220']","['CHEM 1200', 'CHEM 1220']",Science
+XINFORMATICS,LEC,3,W,9:00AM,11:50AM,Thilanka Munasinghe,Pittsburgh Building 4114,1,0,1,ERTH,2024-01-08,2024-04-24,SPRING 2024,92477,6400,01,ERTH-6400,Xinformatics,"Informatics covers a broad range of disciplines addressing challenges in the explosion of data and information resources. Xinformatics provides commonality for implementations in specific disciplines (e.g. X=astronomy, geology). Informatics' theoretical bases are information and computer science, cognitive science, social science, library science, aggregating these studies and adding the practice of information processing and the engineering of information systems. This course grounds the material that students will learn in discipline areas by coursework and project assignments. Students cannot obtain credit for more than one of ERTH 6400/ ITWS 6400/ CSCI 6400.","Prerequisites: CSCI 1200, ERTH 6960, or CSCI 6960.",When Offered: Spring term annually.,"['CSCI 1200', 'ERTH 6960', 'CSCI 6960']","['CSCI 1200', 'ERTH 6960', 'CSCI 6960']",Science
+GEOLOGY II: LAB,LEC,1,W,10:00AM,11:50AM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,24,0,ERTH,2024-01-08,2024-04-24,SPRING 2024,93433,1250,01,ERTH-1250,Geology II: Lab,"The lab provides an introduction to analytical approaches, measurements, and observations used by geoscientists to advance understanding of natural surface earth, hydrologic, and atmospheric processes and the influence of human activities.",Prerequisites/Corequisites: ERTH 1200 corequisite (preferred) or prerequisite.,When Offered: Spring term annually.,['ERTH 1200'],['ERTH 1200'],Science
+GEOLOGY II: LAB,LEC,1,W,12:00PM,1:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,24,0,ERTH,2024-01-08,2024-04-24,SPRING 2024,92991,1250,02,ERTH-1250,Geology II: Lab,"The lab provides an introduction to analytical approaches, measurements, and observations used by geoscientists to advance understanding of natural surface earth, hydrologic, and atmospheric processes and the influence of human activities.",Prerequisites/Corequisites: ERTH 1200 corequisite (preferred) or prerequisite.,When Offered: Spring term annually.,['ERTH 1200'],['ERTH 1200'],Science
+GEOLOGY II: LAB,LEC,1,W,2:00PM,3:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,23,1,ERTH,2024-01-08,2024-04-24,SPRING 2024,93437,1250,03,ERTH-1250,Geology II: Lab,"The lab provides an introduction to analytical approaches, measurements, and observations used by geoscientists to advance understanding of natural surface earth, hydrologic, and atmospheric processes and the influence of human activities.",Prerequisites/Corequisites: ERTH 1200 corequisite (preferred) or prerequisite.,When Offered: Spring term annually.,['ERTH 1200'],['ERTH 1200'],Science
+GEOLOGY II: LAB,LEC,1,W,4:00PM,5:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,24,0,ERTH,2024-01-08,2024-04-24,SPRING 2024,93646,1250,04,ERTH-1250,Geology II: Lab,"The lab provides an introduction to analytical approaches, measurements, and observations used by geoscientists to advance understanding of natural surface earth, hydrologic, and atmospheric processes and the influence of human activities.",Prerequisites/Corequisites: ERTH 1200 corequisite (preferred) or prerequisite.,When Offered: Spring term annually.,['ERTH 1200'],['ERTH 1200'],Science
+GEOLOGY II: LAB,LEC,1,W,8:00AM,9:50AM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,24,5,19,ERTH,2024-01-08,2024-04-24,SPRING 2024,93957,1250,05,ERTH-1250,Geology II: Lab,"The lab provides an introduction to analytical approaches, measurements, and observations used by geoscientists to advance understanding of natural surface earth, hydrologic, and atmospheric processes and the influence of human activities.",Prerequisites/Corequisites: ERTH 1200 corequisite (preferred) or prerequisite.,When Offered: Spring term annually.,['ERTH 1200'],['ERTH 1200'],Science
+INTRO TO ASTROBIOLOGY,LEC,4,MR,2:00PM,3:50PM,Andrew Steele/Karyn Lynne Rogers,Russell Sage Laboratory 3713,30,22,8,ERTH,2024-01-08,2024-04-24,SPRING 2024,94471,1510,01,ERTH-1510,Intro To Astrobiology,"The field of Astrobiology considers the emergence and evolution of life on Earth, and the potential for life elsewhere. This course explores fundamental concepts in Astrobiology including the creation of the chemical elements, origin and evolution of the solar system, the definition and requirements for life, early Earth environments and life's emergence on this planet. Additionally, students explore habitability on other extraterrestrial bodies - including Mars, Icy worlds and exoplanets, through self-directed research.",,When Offered: Spring term annually.,[],[],Science
+XINFORMATICS,LEC,3,W,9:00AM,11:50AM,Thilanka Munasinghe,Pittsburgh Building 4114,1,0,1,ERTH,2024-01-08,2024-04-24,SPRING 2024,92476,4400,01,ERTH-4400,Xinformatics,"Informatics covers a broad range of disciplines addressing challenges in the explosion of data and information resources. Xinformatics provides commonality for implementations in specific disciplines (e.g. X=astronomy, geology). Informatics' theoretical bases are information and computer science, cognitive science, social science, library science, aggregating these studies and adding the practice of information processing, and the engineering of information systems. This course grounds the material that students will learn in discipline areas by coursework and project assignments. Students cannot obtain credit for more than one of ERTH 4400/ ITWS 4400/ CSCI 4400.","Prerequisite: CSCI 1200, ERTH 4960, or CSCI 4960.",When Offered: Spring term annually.,"['CSCI 1200', 'ERTH 4960', 'CSCI 4960']","['CSCI 1200', 'ERTH 4960', 'CSCI 4960']",Science
+"EARTH'S CLIMATE:PAST, PRESENT AND FUTURE",LEC,4,TF,2:00PM,3:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 2C22,25,25,0,ERTH,2024-01-08,2024-04-24,SPRING 2024,91852,4500,01,ERTH-4500,"EARTH'S CLIMATE:PAST, Present And Future","Overview of physical components of Earth's climate system; builds on this foundation by examining the roles of both natural Earth system processes and anthropogenic influences in determining Earth's climate and climate changes in the past, present, and future. Initial focus is on recent and future climate change. Remainder of course will emphasize the study and reconstruction of climates and climate change through geologic history.","Prerequisite: CHEM 1100, CHEM 1110, or permission of instructor.",When Offered: Spring term annually.,"['CHEM 1100', 'CHEM 1110']","['CHEM 1100', 'CHEM 1110']",Science
+MASTER'S PROJECT,LEC,1-9,,,,Karyn Lynne Rogers,TBA,10,0,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,92481,6980,01,ERTH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Morgan Frederick Schaller,TBA,10,0,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,92983,6980,02,ERTH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Frank Spear,TBA,10,0,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,90249,6990,01,ERTH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Sasha Joy Wagner,TBA,5,0,5,ERTH,2024-01-08,2024-04-24,SPRING 2024,93961,6990,02,ERTH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Karyn Lynne Rogers,TBA,10,1,9,ERTH,2024-01-08,2024-04-24,SPRING 2024,92482,6990,03,ERTH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Morgan Frederick Schaller,TBA,10,0,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,92984,6990,04,ERTH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+HYDROTHERMAL EXPMT METHODS,LEC,3,TF,12:00PM,1:20PM,Kristin Nicole Johnson,Folsom Library 107,12,1,11,ERTH,2024-01-08,2024-04-24,SPRING 2024,94839,4965,01,ERTH-4965,Hydrothermal Expmt Methods,,,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Frank Spear,TBA,10,0,10,ERTH,2024-01-08,2024-04-24,SPRING 2024,91921,9990,01,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Karyn Lynne Rogers,TBA,10,2,8,ERTH,2024-01-08,2024-04-24,SPRING 2024,92483,9990,02,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Sasha Joy Wagner,TBA,5,4,1,ERTH,2024-01-08,2024-04-24,SPRING 2024,93962,9990,03,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Morgan Frederick Schaller,TBA,10,4,6,ERTH,2024-01-08,2024-04-24,SPRING 2024,92985,9990,04,ERTH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+INTRO GEOPHYSICS,LEC,4,MR,12:00PM,1:50PM,Thomas Richard Morgan,Russell Sage Laboratory 2701,15,9,6,ERTH,2024-01-08,2024-04-24,SPRING 2024,93648,2100,01,ERTH-2100,Intro Geophysics,"An introduction to various aspects of the study of the physics of the Earth. Stress and strain, deformation, isostasy, seismic waves, earthquakes, Earth structure, resource exploration, Earth dynamics, plate tectonics, mountain building, gravity and geodesy, magnetic field, and heat flow.","Prerequisites: ERTH 1100, MATH 1020, and PHYS 1100",When Offered: Spring term annually.,"['ERTH 1100', 'MATH 1020', 'PHYS 1100']","['ERTH 1100', 'MATH 1020', 'PHYS 1100']",Science
+BIOGEOCHEM IMPACT EXTREME EVNT,LEC,4,M,10:00AM,12:50PM,Sasha Joy Wagner,Jonsson-Rowland Science Center 3W13,15,6,9,ERTH,2024-01-08,2024-04-24,SPRING 2024,94756,6230,01,ERTH-6230,Biogeochem Impact Extreme Evnt,"Climate change is driving an increase in extreme weather events (storms, drought, wildfire). These events manifest as episodic disturbances to affected ecosystems that can alter carbon and nutrient fluxes and reorganize biogeochemical cycles. This course is an in-depth study of current, peer-reviewed literature addressing biogeochemical responses to environmental disturbance and extreme events across varied spatial and temporal scales.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+EVOLUTION OF EARTHS ATMOSPHERE,LEC,4,W,12:00PM,3:00PM,Morgan Frederick Schaller,Darrin Communications Center 232,15,7,8,ERTH,2024-01-08,2024-04-24,SPRING 2024,94757,6240,01,ERTH-6240,Evolution Of Earths Atmosphere,"This course will provide an in-depth and exploratory understanding of atmospheric evolution throughout Earth's history, beginning with the moon-forming event 4.54 billion years ago and continuing into the present. Students will learn about the geological, biological, and anthropogenic mechanisms that altered the atmosphere. This course is designed to offer students an applied and interactive learning environment.",None.,When Offered: Fall and spring terms annually.,[],[],Science
+FOUNDATIONS OF ANALYSIS,LEC,4,TF,12:30PM,1:50PM,Margaret Z. Kiehl,Low Center for Industrial Inn. 4050,25,25,0,MATH,2024-01-08,2024-04-24,SPRING 2024,91268,4090,01,MATH-4090,Foundations Of Analysis,"The course provides an opportunity for the development of theorem-proving skills in the field of mathematical analysis. Expansion of a knowledge base comes as a by-product of energy expended in theorem proving and subsequent exposition. Analysis topics included are: sets, functions, the real numbers, cardinality, induction, decimal representations of real numbers, Euclidean spaces, abstract vector spaces, and metric spaces. This is a communication-intensive course.",Prerequisites: mathematics major and MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+FOUNDATIONS OF ANALYSIS,LEC,4,W,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4034,25,25,0,MATH,2024-01-08,2024-04-24,SPRING 2024,91268,4090,01,MATH-4090,Foundations Of Analysis,"The course provides an opportunity for the development of theorem-proving skills in the field of mathematical analysis. Expansion of a knowledge base comes as a by-product of energy expended in theorem proving and subsequent exposition. Analysis topics included are: sets, functions, the real numbers, cardinality, induction, decimal representations of real numbers, Euclidean spaces, abstract vector spaces, and metric spaces. This is a communication-intensive course.",Prerequisites: mathematics major and MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+FOUNDATIONS OF ANALYSIS,LEC,4,TF,12:30PM,1:50PM,Margaret Z. Kiehl,Low Center for Industrial Inn. 4050,25,25,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94467,4090,02,MATH-4090,Foundations Of Analysis,"The course provides an opportunity for the development of theorem-proving skills in the field of mathematical analysis. Expansion of a knowledge base comes as a by-product of energy expended in theorem proving and subsequent exposition. Analysis topics included are: sets, functions, the real numbers, cardinality, induction, decimal representations of real numbers, Euclidean spaces, abstract vector spaces, and metric spaces. This is a communication-intensive course.",Prerequisites: mathematics major and MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+FOUNDATIONS OF ANALYSIS,LEC,4,W,10:00AM,10:50AM,TBA,Low Center for Industrial Inn. 4034,25,25,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94467,4090,02,MATH-4090,Foundations Of Analysis,"The course provides an opportunity for the development of theorem-proving skills in the field of mathematical analysis. Expansion of a knowledge base comes as a by-product of energy expended in theorem proving and subsequent exposition. Analysis topics included are: sets, functions, the real numbers, cardinality, induction, decimal representations of real numbers, Euclidean spaces, abstract vector spaces, and metric spaces. This is a communication-intensive course.",Prerequisites: mathematics major and MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+NUMERICAL SOLUTIONS OF PDE,LEC,4,MR,10:00AM,11:50AM,Jeffrey William Banks,Jonsson Engineering Center 4309,25,9,16,MATH,2024-01-08,2024-04-24,SPRING 2024,94241,6840,01,MATH-6840,Numerical Solutions Of Pde,"Numerical methods and analysis for linear and nonlinear PDEs with applications from heat conduction, wave propagation, solid and fluid mechanics, and other areas. Basic concepts of stability and convergence (such as Lax equivalence theorem, CFL condition, GKS stability theory, energy methods). Methods for parabolic problems (finite differences, method of lines, ADI, operator splitting), methods for hyperbolic problems (vector systems and characteristics, dissipation and dispersion, shock capturing and tracking schemes), methods for elliptic problems (finite difference and finite volume methods).",Prerequisite: MATH 4800 or CSCI 4800 or equivalent or permission of Instructor.,When Offered: Spring term annually.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+MULTIVAR CALC & MATRIX ALG,LEC,4,M,8:00AM,8:50AM,TBA,Troy Building 2012,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90072,2010,01,MATH-2010,Multivar Calc & Matrix Alg,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALG,LEC,4,TF,10:30AM,11:50AM,Elisabeth Maria Brown,Russell Sage Laboratory 3303,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90072,2010,01,MATH-2010,Multivar Calc & Matrix Alg,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALG,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 330,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90072,2010,01,MATH-2010,Multivar Calc & Matrix Alg,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,9:00AM,9:50AM,TBA,Troy Building 2012,33,33,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92322,2010,02,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:30AM,11:50AM,Elisabeth Maria Brown,Russell Sage Laboratory 3303,33,33,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92322,2010,02,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 330,33,33,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92322,2010,02,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:30AM,11:50AM,Elisabeth Maria Brown,Russell Sage Laboratory 3303,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90114,2010,03,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90114,2010,03,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,8:00AM,8:50AM,TBA,Troy Building 2012,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90114,2010,03,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,10:30AM,11:50AM,Elisabeth Maria Brown,Russell Sage Laboratory 3303,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90115,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90115,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,9:00AM,9:50AM,TBA,Troy Building 2012,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90115,2010,04,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,4:00PM,4:50PM,TBA,Low Center for Industrial Inn. 3039,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91886,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:00PM,3:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91886,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 330,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91886,2010,05,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,M,5:00PM,5:50PM,TBA,Low Center for Industrial Inn. 3039,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91887,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:00PM,3:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91887,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 330,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91887,2010,06,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:00PM,3:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92035,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92035,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,4:00PM,4:50PM,TBA,Low Center for Industrial Inn. 3039,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92035,2010,07,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,TF,2:00PM,3:20PM,Elisabeth Maria Brown,Darrin Communications Center 324,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92042,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 330,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92042,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,R,5:00PM,5:50PM,TBA,Low Center for Industrial Inn. 3039,34,33,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92042,2010,08,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:30AM,11:50AM,Eliane Zerbetto Traldi,Russell Sage Laboratory 3510,33,32,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92089,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,8:00AM,8:50AM,TBA,Troy Building 2012,33,32,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92089,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,8:00AM,9:50AM,TBA,Darrin Communications Center 330,33,32,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92089,2010,09,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:30AM,11:50AM,Eliane Zerbetto Traldi,Russell Sage Laboratory 3510,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92092,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,9:00AM,9:50AM,TBA,Troy Building 2012,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92092,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,8:00AM,9:50AM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92092,2010,10,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:30AM,11:50AM,Eliane Zerbetto Traldi,Russell Sage Laboratory 3510,34,32,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92219,2010,11,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,8:00AM,9:50AM,TBA,Darrin Communications Center 330,34,32,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92219,2010,11,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,8:00AM,8:50AM,TBA,Troy Building 2012,34,32,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92219,2010,11,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,10:30AM,11:50AM,Eliane Zerbetto Traldi,Russell Sage Laboratory 3510,34,36,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,92220,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,8:00AM,9:50AM,TBA,Darrin Communications Center 330,34,36,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,92220,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,9:00AM,9:50AM,TBA,Troy Building 2012,34,36,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,92220,2010,12,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,2:00PM,3:20PM,Eliane Zerbetto Traldi,Amos Eaton Hall 214,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92624,2010,13,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,10:00AM,10:50AM,TBA,Amos Eaton Hall 215,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92624,2010,13,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92624,2010,13,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,2:00PM,3:20PM,Eliane Zerbetto Traldi,Amos Eaton Hall 214,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92625,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,T,11:00AM,11:50AM,TBA,Amos Eaton Hall 215,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92625,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92625,2010,14,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,2:00PM,3:20PM,Eliane Zerbetto Traldi,Amos Eaton Hall 214,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94511,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 330,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94511,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,10:00AM,10:50AM,TBA,Amos Eaton Hall 215,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94511,2010,15,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,MR,2:00PM,3:20PM,Eliane Zerbetto Traldi,Amos Eaton Hall 214,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94512,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 330,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94512,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+MULTIVAR CALC & MATRIX ALGEBRA,LEC,4,F,11:00AM,11:50AM,TBA,Amos Eaton Hall 215,34,34,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94512,2010,16,MATH-2010,Multivar Calc & Matrix Algebra,"Directional derivatives, maxima and minima, double integrals, line integrals, div and curl, and Green's Theorem; matrix algebra and systems of linear equations, vectors and linear transformations in R^n, eigenvectors and eigenvalues, applications in engineering and science.",Prerequisite: MATH 1020.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+LINEAR ALGEBRA,LEC,4,MR,8:00AM,9:50AM,Eliane Zerbetto Traldi,Low Center for Industrial Inn. 3051,70,61,9,MATH,2024-01-08,2024-04-24,SPRING 2024,93865,4100,01,MATH-4100,Linear Algebra,"The theory underlying vector spaces, algebra of subspaces, bases; linear transformations, dual spaces; eigenvectors, eigenvalues, minimal polynomials, canonical forms of linear transformations; inner products, adjoints, orthogonal projections, and complements.",Prerequisites/Corequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+LINEAR ALGEBRA,LEC,4,MR,8:00AM,9:50AM,Bruce Piper,Low Center for Industrial Inn. 4050,70,66,4,MATH,2024-01-08,2024-04-24,SPRING 2024,93923,4100,02,MATH-4100,Linear Algebra,"The theory underlying vector spaces, algebra of subspaces, bases; linear transformations, dual spaces; eigenvectors, eigenvalues, minimal polynomials, canonical forms of linear transformations; inner products, adjoints, orthogonal projections, and complements.",Prerequisites/Corequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+NUMERICAL COMPUTING,LEC,4,TF,12:00PM,1:50PM,Yuri V Lvov,Russell Sage Laboratory 4101,70,30,40,MATH,2024-01-08,2024-04-24,SPRING 2024,90070,4800,01,MATH-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+FINITE ELEMENT ANALYSIS,LEC,4,TF,2:00PM,3:50PM,Fengyan Li,Carnegie Building 208,25,4,21,MATH,2024-01-08,2024-04-24,SPRING 2024,94771,6860,01,MATH-6860,Finite Element Analysis,"Galerkin's method and extremal principles, finite element approximations (Lagrange, hierarchical and 3D approximations, interpolation errors), mesh generation and assembly, adaptivity (h-, p-, hp-refinement). Error analysis and convergence rates. Perturbations resulting from boundary approximation, numerical integration, etc. Time dependent problems including parabolic and hyperbolic PDEs. Applications will be selected from several areas including heat conduction, wave propagation, potential theory, and solid and fluid mechanics.",Prerequisite: MATH 4800 or CSCI 4800 or equivalent or permission of instructor.,When Offered: Spring term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+MASTER'S PRACTICUM  IN MATH,LEC,0-6,,,,Bruce Piper,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92749,6970,02,MATH-6970,MASTER'S Practicum In Math,"Active participation in a professional experience in mathematics, under the supervision of a faculty adviser. A Master's Practicum may serve as the capstone professional experience for the M.S. degree. A Master's Practicum may result in documentation as required by the adviser, but is not submitted to the Office of Graduate Education and is not archived in the library. Grades of A, B, C, or F are assigned if credit is awarded for the Master's Practicum.",,,[],[],Science
+MASTER'S PRACTICUM  IN MATH,LEC,0-6,,,,Gregor Kovacic,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92774,6970,03,MATH-6970,MASTER'S Practicum In Math,"Active participation in a professional experience in mathematics, under the supervision of a faculty adviser. A Master's Practicum may serve as the capstone professional experience for the M.S. degree. A Master's Practicum may result in documentation as required by the adviser, but is not submitted to the Office of Graduate Education and is not archived in the library. Grades of A, B, C, or F are assigned if credit is awarded for the Master's Practicum.",,,[],[],Science
+FUND OF GEOMETRY,LEC,4,MR,12:00PM,1:50PM,Daniel Franklin Stevenson,Jonsson Engineering Center 5119,50,42,8,MATH,2024-01-08,2024-04-24,SPRING 2024,94750,4120,01,MATH-4120,Fund Of Geometry,"Topics may be chosen from differential geometry of curves and surfaces, involutes and evolutes, order of contact, developable surfaces, Euler's and Meusnier's Theorem, mean and Gaussian curvatures, geodesics and parallel transport, The Theorem Egregium of Gauss, Gauss-Bonnet Theorem, computer-aided geometric design, computational geometry, tessellations, tiling and patterns, projective and non-Euclidean geometries, postulates and axiomatic systems, advanced Euclidean geometry, and the history of geometry.",Prerequisites: MATH 2010.,When Offered: Spring term even-numbered years.,['MATH 2010'],['MATH 2010'],Science
+INTRO NUMERICAL MTHD DIFF EQU,LEC,4,MR,10:00AM,11:50AM,William Douglas Henshaw,Jonsson Engineering Center 5119,30,13,17,MATH,2024-01-08,2024-04-24,SPRING 2024,94765,4820,01,MATH-4820,Intro Numerical Mthd Diff Equ,"Derivation, analysis, and use of computational procedures for solving differential equations. Topics covered include ordinary differential equations (both initial value and boundary value problems) and partial differential equations. Runge-Kutta and multistep methods for initial value problems. Finite difference methods for partial differential equations including techniques for heat conduction, wave propagation, and potential problems. Basic convergence and stability theory.",Prerequisite: MATH 4800 or CSCI 4800.,When Offered: Spring term even-numbered years.,"['MATH 4800', 'CSCI 4800']","['MATH 4800', 'CSCI 4800']",Science
+MASTER'S PROJECT,LEC,1-6,,,,Kristin P Bennett,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,91122,6980,01,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-6,,,,Yangyang Xu,TBA,5,0,5,MATH,2024-01-08,2024-04-24,SPRING 2024,91638,6980,03,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-6,,,,David Isaacson,TBA,5,0,5,MATH,2024-01-08,2024-04-24,SPRING 2024,91911,6980,04,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-6,,,,Mark S Shephard,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92105,6980,05,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-6,,,,William Douglas Henshaw,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92560,6980,06,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-6,,,,Bruce Piper,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92750,6980,07,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-6,,,,Jeffrey William Banks,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,93036,6980,09,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+INTERMEDIATE LOGIC,LEC,4,TF,10:00AM,11:50AM,Bram Van Heuveln,Ricketts Building 212,30,8,22,MATH,2024-01-08,2024-04-24,SPRING 2024,94887,4140,01,MATH-4140,Intermediate Logic,"This course is a continuation of PHIL 2140, covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).",Prerequisites/Corequisites: PHIL 2140.,When Offered: Spring terms even numbered years.,"['PHIL 2140', 'PHIL 2140']","['PHIL 2140', 'PHIL 2140']",Science
+MASTER'S THESIS,LEC,1-9,,,,Jeffrey William Banks,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,93035,6990,01,MATH-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Amos Eaton Hall 214,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90237,2400,01,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,T,8:00AM,8:50AM,TBA,Low Center for Industrial Inn. 4034,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90237,2400,01,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Amos Eaton Hall 214,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90088,2400,02,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,T,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4034,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90088,2400,02,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Amos Eaton Hall 214,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90399,2400,03,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,F,8:00AM,8:50AM,TBA,Low Center for Industrial Inn. 4034,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90399,2400,03,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,10:00AM,11:20AM,Wing Sze E Kam,Amos Eaton Hall 214,32,29,3,MATH,2024-01-08,2024-04-24,SPRING 2024,90400,2400,04,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,F,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4034,32,29,3,MATH,2024-01-08,2024-04-24,SPRING 2024,90400,2400,04,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 330,32,30,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90071,2400,05,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,T,2:00PM,2:50PM,TBA,Darrin Communications Center 235,32,30,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90071,2400,05,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 330,32,30,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90026,2400,06,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,T,3:00PM,3:50PM,TBA,Darrin Communications Center 235,32,30,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90026,2400,06,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 330,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,90027,2400,07,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,F,2:00PM,2:50PM,TBA,Darrin Communications Center 235,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,90027,2400,07,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,MR,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 330,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90028,2400,08,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,F,3:00PM,3:50PM,TBA,Darrin Communications Center 235,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90028,2400,08,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,M,8:00AM,8:50AM,TBA,Darrin Communications Center 235,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,90029,2400,09,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Daniel Franklin Stevenson,Amos Eaton Hall 214,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,90029,2400,09,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,M,9:00AM,9:50AM,TBA,Darrin Communications Center 235,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90116,2400,10,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Daniel Franklin Stevenson,Amos Eaton Hall 214,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90116,2400,10,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Daniel Franklin Stevenson,Amos Eaton Hall 214,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90128,2400,11,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,R,8:00AM,8:50AM,TBA,Darrin Communications Center 235,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90128,2400,11,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,12:00PM,1:20PM,Daniel Franklin Stevenson,Amos Eaton Hall 214,32,34,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,91052,2400,12,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,R,9:00AM,9:50AM,TBA,Darrin Communications Center 235,32,34,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,91052,2400,12,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,M,2:00PM,2:50PM,TBA,Carnegie Building 201,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,94766,2400,13,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,2:00PM,3:20PM,Daniel Franklin Stevenson,Darrin Communications Center 330,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,94766,2400,13,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,M,3:00PM,3:50PM,TBA,Carnegie Building 201,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90302,2400,14,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,2:00PM,3:20PM,Daniel Franklin Stevenson,Darrin Communications Center 330,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90302,2400,14,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,2:00PM,3:20PM,Daniel Franklin Stevenson,Darrin Communications Center 330,32,30,2,MATH,2024-01-08,2024-04-24,SPRING 2024,94768,2400,15,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,R,2:00PM,2:50PM,TBA,Carnegie Building 201,32,30,2,MATH,2024-01-08,2024-04-24,SPRING 2024,94768,2400,15,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,2:00PM,3:20PM,Daniel Franklin Stevenson,Darrin Communications Center 330,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,92972,2400,16,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,R,3:00PM,3:50PM,TBA,Carnegie Building 201,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,92972,2400,16,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,M,8:00AM,8:50AM,TBA,Low Center for Industrial Inn. 4034,32,5,27,MATH,2024-01-08,2024-04-24,SPRING 2024,94505,2400,17,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,8:30AM,9:50AM,Elisabeth Maria Brown,Darrin Communications Center 330,32,5,27,MATH,2024-01-08,2024-04-24,SPRING 2024,94505,2400,17,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,M,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4040,32,23,9,MATH,2024-01-08,2024-04-24,SPRING 2024,94510,2400,18,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,8:30AM,9:50AM,Elisabeth Maria Brown,Darrin Communications Center 330,32,23,9,MATH,2024-01-08,2024-04-24,SPRING 2024,94510,2400,18,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,8:30AM,9:50AM,Elisabeth Maria Brown,Darrin Communications Center 330,32,12,20,MATH,2024-01-08,2024-04-24,SPRING 2024,94513,2400,19,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,R,8:00AM,8:50AM,TBA,Low Center for Industrial Inn. 4034,32,12,20,MATH,2024-01-08,2024-04-24,SPRING 2024,94513,2400,19,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,TF,8:30AM,9:50AM,Elisabeth Maria Brown,Darrin Communications Center 330,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,94514,2400,20,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+INTRO DIFF EQUATIONS,LEC,4,R,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4040,32,31,1,MATH,2024-01-08,2024-04-24,SPRING 2024,94514,2400,20,MATH-2400,Intro Diff Equations,"First-order differential equations, second-order linear equations, eigenvalues and eigenvectors of matrices, systems of first-order equations, stability and qualitative properties of nonlinear autonomous systems in the plane, Fourier series, separation of variables for partial differential equations.",Prerequisites: MATH 1020 and some knowledge of matrices.,When Offered: Fall and spring terms annually.,['MATH 1020'],['MATH 1020'],Science
+GRAPH THEORY,LEC,4,MR,10:00AM,11:50AM,George M. Slota,Russell Sage Laboratory 4101,30,32,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,94882,4150,01,MATH-4150,Graph Theory,"Fundamental concepts and methods of graph theory and its applications to various areas of computing and the social and natural sciences. Topics include graphs as models, representation of graphs, trees, distances, matchings, connectivity, flows in networks, graph colorings, Hamiltonian cycles, traveling salesman problem, planarity. All concepts, methods, and applications are presented through a sequence of exercises and problems, many of which are done with the help of novel software systems for combinatorial computing.",Prerequisites: CSCI 1100 and either CSCI 2200 or MATH 4090.,When Offered: Spring term annually.,"['CSCI 1100', 'CSCI 2200', 'MATH 4090']","['CSCI 1100', 'CSCI 2200', 'MATH 4090']",Science
+RANDOMIZED COMP LINEAR ALGEBRA,LEC,4,TF,10:00AM,11:50AM,Fabian Maximilian Faulstich,Carnegie Building 206,25,4,21,MATH,2024-01-08,2024-04-24,SPRING 2024,94590,6590,01,MATH-6590,Randomized Comp Linear Algebra,"Mathematical foundation and/or applications of partial differential equations. Possible topics include soliton theory and applications, wavelets and PDEs, scattering theory, hyperbolic conservation laws.",Prerequisites: vary with topic.,When Offered: Spring term annually.,[],[],Science
+INTRO. TO RESEARCH IN MATH,LEC,1,W,4:00PM,4:50PM,Donald W Schwendeman,Amos Eaton Hall 215,25,17,8,MATH,2024-01-08,2024-04-24,SPRING 2024,90353,6951,01,MATH-6951,INTRO. To Research In Math,This seminar introduces first-year graduate students in mathematics to the faculty and their research. Each week a different faculty member from math will give introductory presentations of their current research areas in a setting that is conducive for significant student-faculty discussions of the material.,Prerequisite: graduate student in mathematics.,When Offered: Spring term annually.,[],[],Science
+DISSERTATION,LEC,1-15,,,,Bruce Piper,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,91299,9990,01,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Donald W Schwendeman,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,91482,9990,02,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Yuri V Lvov,TBA,10,1,9,MATH,2024-01-08,2024-04-24,SPRING 2024,90185,9990,03,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ashwani Kumar Kapila,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92207,9990,04,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jeffrey William Banks,TBA,10,3,7,MATH,2024-01-08,2024-04-24,SPRING 2024,93025,9990,06,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,90248,9990,07,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,William Douglas Henshaw,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,93520,9990,08,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,90476,9990,10,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Fengyan Li,TBA,10,2,8,MATH,2024-01-08,2024-04-24,SPRING 2024,91491,9990,11,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,John E. Mitchell,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,91527,9990,12,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,90421,9990,13,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,90424,9990,15,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,2,8,MATH,2024-01-08,2024-04-24,SPRING 2024,90425,9990,16,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Chjan C Lim,TBA,10,1,9,MATH,2024-01-08,2024-04-24,SPRING 2024,90484,9990,17,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,David Isaacson,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,92065,9990,18,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Mark H Holmes,TBA,10,0,10,MATH,2024-01-08,2024-04-24,SPRING 2024,91085,9990,21,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Gregor Kovacic,TBA,10,1,9,MATH,2024-01-08,2024-04-24,SPRING 2024,90636,9990,23,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Peter R Kramer,TBA,10,1,9,MATH,2024-01-08,2024-04-24,SPRING 2024,90426,9990,24,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Rongjie Lai,TBA,10,1,9,MATH,2024-01-08,2024-04-24,SPRING 2024,93232,9990,25,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Yangyang Xu,TBA,20,3,17,MATH,2024-01-08,2024-04-24,SPRING 2024,94002,9990,30,MATH-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+PERTURBATION METHODS,LEC,4,MR,12:00PM,1:50PM,Mark H Holmes,Low Center for Industrial Inn. 4040,25,15,10,MATH,2024-01-08,2024-04-24,SPRING 2024,94769,6620,01,MATH-6620,Perturbation Methods,"This course is devoted to advanced methods rather than theory. Content includes such topics as matched asymptotic expansions, multiple scales, WKB, and homogenization. Applications are made to ODEs, PDEs, difference equations, and integral equations. The methods are illustrated using currently interesting scientific and engineering problems that involve such phenomena as boundary or shock layers, nonlinear wave propagation, bifurcation and stability, and resonance.",Prerequisites: MATH 2400 and MATH 4600 or equivalent or permission of instructor.,When Offered: Spring term even-numbered years.,"['MATH 2400', 'MATH 4600']","['MATH 2400', 'MATH 4600']",Science
+INTRO COMPLEX VAR,LEC,4,TF,10:00AM,11:50AM,Fengyan Li,Low Center for Industrial Inn. 3051,60,50,10,MATH,2024-01-08,2024-04-24,SPRING 2024,90023,4300,01,MATH-4300,Intro Complex Var,"An introduction to the theory and applications of complex variables. Topics include analytic functions, Riemann surfaces, complex integration, Taylor and Laurent series, residues, conformal mapping, harmonic functions, and Laplace transforms. Applications will be to problems in science and engineering such as fluid and heat flow, dynamical systems, and electrostatics.",Prerequisite: MATH 2010 or equivalent.,When Offered: Spring term annually.,['MATH 2010'],['MATH 2010'],Science
+STOCHASTIC PROCESSES AND MODELING,LEC,4,MR,2:00PM,3:50PM,Peter R Kramer,Jonsson-Rowland Science Center 1W01,20,3,17,MATH,2024-01-08,2024-04-24,SPRING 2024,94770,6660,01,MATH-6660,Stochastic Processes And Modeling,"This course provides an introduction to methods and concepts to model and analyze the dynamics of system with uncertain inputs or too many variables to track explicitly. Topics may include Markov processes, point processes, renewal processes, and/or stochastic differential equations. Applications will be developed and illustrated on examples drawn from physics, biology, chemistry, industry, and finance.",Prerequisite: MATH 2400 or equivalent or permission of instructor.,When Offered: Spring term even-numbered years.,['MATH 2400'],['MATH 2400'],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,30,24,6,MATH,2024-01-08,2024-04-24,SPRING 2024,90036,1010,01,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,24,6,MATH,2024-01-08,2024-04-24,SPRING 2024,90036,1010,01,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,30,28,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90299,1010,02,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,28,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90299,1010,02,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,30,30,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94219,1010,03,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,30,0,MATH,2024-01-08,2024-04-24,SPRING 2024,94219,1010,03,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,MR,8:00AM,9:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,30,7,23,MATH,2024-01-08,2024-04-24,SPRING 2024,94220,1010,04,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+CALCULUS I,LEC,4,W,10:00AM,11:50AM,TBA,Amos Eaton Hall 214,30,7,23,MATH,2024-01-08,2024-04-24,SPRING 2024,94220,1010,04,MATH-1010,Calculus I,"Functions, limits, continuity, derivatives, implicit differentiation, related rates, maxima and minima, elementary transcendental functions, introduction to definite integral with applications to area and volumes of revolution. Students cannot get credit for both MATH 1010 and MATH 1500.",,When Offered: Fall and spring terms annually.,[],[],Science
+ABSTRACT ALGEBRA,LEC,4,MR,2:00PM,3:50PM,Gina Irene Kucinski,Troy Building 2018,50,33,17,MATH,2024-01-08,2024-04-24,SPRING 2024,90117,4010,01,MATH-4010,Abstract Algebra,"Groups, rings, polynomial rings, fields, integral domains, with emphasis on group theory; homomorphisms and isomorphisms; normal subgroups, co-sets, ideals, modules; quotient groups and quotient rings; other topics chosen from number theory, polynomials, and Galois Theory.",Prerequisite: familiarity with mathematical proofs. MATH 4090 and MATH 4100 are recommended.,When Offered: Spring term annually.,"['MATH 4090', 'MATH 4100']","['MATH 4090', 'MATH 4100']",Science
+CALCULUS II,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,37,28,9,MATH,2024-01-08,2024-04-24,SPRING 2024,90397,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Ricketts Building 203,37,28,9,MATH,2024-01-08,2024-04-24,SPRING 2024,90397,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,37,20,17,MATH,2024-01-08,2024-04-24,SPRING 2024,90398,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Ricketts Building 203,37,20,17,MATH,2024-01-08,2024-04-24,SPRING 2024,90398,1020,02,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,37,26,11,MATH,2024-01-08,2024-04-24,SPRING 2024,90032,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Ricketts Building 203,37,26,11,MATH,2024-01-08,2024-04-24,SPRING 2024,90032,1020,03,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,8:00AM,9:50AM,Margaret Z. Kiehl,Amos Eaton Hall 214,37,31,6,MATH,2024-01-08,2024-04-24,SPRING 2024,90033,1020,04,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Ricketts Building 203,37,31,6,MATH,2024-01-08,2024-04-24,SPRING 2024,90033,1020,04,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Russell Sage Laboratory 3303,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90034,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 324,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90034,1020,05,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Russell Sage Laboratory 3303,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91051,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 324,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,91051,1020,06,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Russell Sage Laboratory 3303,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90089,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 324,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90089,1020,07,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,12:00PM,1:50PM,Margaret Z. Kiehl,Russell Sage Laboratory 3303,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90035,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,12:00PM,1:50PM,TBA,Darrin Communications Center 324,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90035,1020,08,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:50AM,Gina Irene Kucinski,Ricketts Building 203,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92334,1020,09,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3303,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92334,1020,09,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:50AM,Gina Irene Kucinski,Ricketts Building 203,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92335,1020,10,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3303,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,92335,1020,10,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:50AM,Gina Irene Kucinski,Ricketts Building 203,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92336,1020,11,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3303,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,92336,1020,11,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,10:00AM,11:50AM,Gina Irene Kucinski,Ricketts Building 203,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92337,1020,12,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Russell Sage Laboratory 3303,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,92337,1020,12,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,2:00PM,3:50PM,Gina Irene Kucinski,Amos Eaton Hall 214,37,34,3,MATH,2024-01-08,2024-04-24,SPRING 2024,90030,1020,13,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 324,37,34,3,MATH,2024-01-08,2024-04-24,SPRING 2024,90030,1020,13,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,2:00PM,3:50PM,Gina Irene Kucinski,Amos Eaton Hall 214,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90031,1020,14,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 324,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90031,1020,14,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,2:00PM,3:50PM,Gina Irene Kucinski,Amos Eaton Hall 214,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90095,1020,15,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 324,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90095,1020,15,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,TF,2:00PM,3:50PM,Gina Irene Kucinski,Amos Eaton Hall 214,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90234,1020,16,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,10:00AM,11:50AM,TBA,Darrin Communications Center 324,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90234,1020,16,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90235,1020,17,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 324,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,90235,1020,17,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90236,1020,18,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 324,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,90236,1020,18,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,31,6,MATH,2024-01-08,2024-04-24,SPRING 2024,92218,1020,19,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 324,37,31,6,MATH,2024-01-08,2024-04-24,SPRING 2024,92218,1020,19,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,34,3,MATH,2024-01-08,2024-04-24,SPRING 2024,91844,1020,20,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 324,37,34,3,MATH,2024-01-08,2024-04-24,SPRING 2024,91844,1020,20,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,93161,1020,21,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,93161,1020,21,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,93162,1020,22,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,37,37,0,MATH,2024-01-08,2024-04-24,SPRING 2024,93162,1020,22,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,93163,1020,23,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,93163,1020,23,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,2:00PM,3:50PM,Kseniya Yevgenyevna Klyachko,Darrin Communications Center 330,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,93164,1020,24,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,2:00PM,3:50PM,TBA,Darrin Communications Center 330,37,36,1,MATH,2024-01-08,2024-04-24,SPRING 2024,93164,1020,24,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Belmiro Galo da Silva,Darrin Communications Center 324,37,34,3,MATH,2024-01-08,2024-04-24,SPRING 2024,93644,1020,25,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 324,37,34,3,MATH,2024-01-08,2024-04-24,SPRING 2024,93644,1020,25,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Belmiro Galo da Silva,Darrin Communications Center 324,37,32,5,MATH,2024-01-08,2024-04-24,SPRING 2024,93685,1020,26,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 324,37,32,5,MATH,2024-01-08,2024-04-24,SPRING 2024,93685,1020,26,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Belmiro Galo da Silva,Darrin Communications Center 324,37,30,7,MATH,2024-01-08,2024-04-24,SPRING 2024,94223,1020,27,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 324,37,30,7,MATH,2024-01-08,2024-04-24,SPRING 2024,94223,1020,27,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,MR,10:00AM,11:50AM,Belmiro Galo da Silva,Darrin Communications Center 324,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,94239,1020,28,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+CALCULUS II,LEC,4,W,4:00PM,5:50PM,TBA,Darrin Communications Center 324,37,35,2,MATH,2024-01-08,2024-04-24,SPRING 2024,94239,1020,28,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+METH PDE OF MATH PHYSICS,LEC,4,MR,12:00PM,1:50PM,Donald W Schwendeman,Amos Eaton Hall 214,50,31,19,MATH,2024-01-08,2024-04-24,SPRING 2024,90024,4500,01,MATH-4500,Meth Pde Of Math Physics,"An intermediate course serving to introduce both the qualitative properties of solutions of partial differential equations and methods of solution, including separation of variables. Topics include first-order equations, derivation of the classical equations of mathematical physics (wave, potential, and heat equations), method of characteristics, construction and behavior of solutions, maximum principles, energy integrals.",Prerequisite: MATH 2010 and MATH 2400 or permission of instructor.,When Offered: Spring term annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+ADVANCED CALCULUS,LEC,4,MR,2:00PM,3:50PM,Belmiro Galo da Silva,Russell Sage Laboratory 4101,60,59,1,MATH,2024-01-08,2024-04-24,SPRING 2024,90025,4600,01,MATH-4600,Advanced Calculus,"A course emphasizing advanced concepts and methods from calculus. Topics include: multivariable integral theorems (Green's, divergence, Stokes', Reynolds transport), extrema of multivariable functions (including Taylor's theorem and Lagrange multipliers), the calculus of variations (Euler-Lagrange equations, constraints, principle of least action), and Cartesian tensors (calculus, invariants, representations).",Prerequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,M,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4034,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,93175,1520,01,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,TF,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 324,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,93175,1520,01,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,M,10:00AM,10:50AM,TBA,Low Center for Industrial Inn. 4034,32,34,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,93176,1520,02,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,TF,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 324,32,34,-2,MATH,2024-01-08,2024-04-24,SPRING 2024,93176,1520,02,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,TF,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 324,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,93177,1520,03,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,R,9:00AM,9:50AM,TBA,Low Center for Industrial Inn. 4034,32,32,0,MATH,2024-01-08,2024-04-24,SPRING 2024,93177,1520,03,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,TF,12:00PM,1:20PM,Wing Sze E Kam,Darrin Communications Center 324,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,93178,1520,04,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+MATH METHODS IN MGT & ECONOMIC,LEC,4,R,10:00AM,10:50AM,TBA,Low Center for Industrial Inn. 4034,32,33,-1,MATH,2024-01-08,2024-04-24,SPRING 2024,93178,1520,04,MATH-1520,Math Methods In Mgt & Economic,"Functions of several variables, introductory linear algebra, and other analytical techniques needed for further study in probability, statistics, and operations research. Topics covered include improper integrals, probability density functions, partial derivatives and optimization techniques for functions of several variables, matrix algebra, linear systems, lines and planes in 3-space, linear inequalities, introductory linear programming, introductory combinatorics, and some probability.","Prerequisites: MATH 1010 or MATH 1500 and major in management or economics, or permission of instructor.",When Offered: Spring term annually.,"['MATH 1010', 'MATH 1500']","['MATH 1010', 'MATH 1500']",Science
+INTRO TO DATA MATHEMATICS,LEC,4,TF,10:00AM,11:20AM,Kristin P Bennett,Russell Sage Laboratory 3101,30,28,2,MATP,2024-01-08,2024-04-24,SPRING 2024,93170,4400,01,MATP-4400,Intro To Data Mathematics,"This course will center on applications of basic data analysis techniques such as data visualization, classification, clustering, and ridge regression. A case study approach will be used to provide immediate immersion into the problem of understanding high-dimensional data. The course will develop the necessary mathematics to understand and execute the techniques. Each student will execute a mini-data analysis project on a real-world data problem such as from engineering, medicine, and business.",Prerequisite: MATH 2010 and CSCI 1100.,When Offered: Spring term annually.,"['MATH 2010', 'CSCI 1100']","['MATH 2010', 'CSCI 1100']",Science
+INTRO TO DATA MATHEMATICS,LEC,4,W,9:00AM,9:50AM,TBA,Amos Eaton Hall 217,30,28,2,MATP,2024-01-08,2024-04-24,SPRING 2024,93170,4400,01,MATP-4400,Intro To Data Mathematics,"This course will center on applications of basic data analysis techniques such as data visualization, classification, clustering, and ridge regression. A case study approach will be used to provide immediate immersion into the problem of understanding high-dimensional data. The course will develop the necessary mathematics to understand and execute the techniques. Each student will execute a mini-data analysis project on a real-world data problem such as from engineering, medicine, and business.",Prerequisite: MATH 2010 and CSCI 1100.,When Offered: Spring term annually.,"['MATH 2010', 'CSCI 1100']","['MATH 2010', 'CSCI 1100']",Science
+INTRO TO DATA MATHEMATICS,LEC,4,TF,10:00AM,11:20AM,Kristin P Bennett,Russell Sage Laboratory 3101,30,29,1,MATP,2024-01-08,2024-04-24,SPRING 2024,93171,4400,02,MATP-4400,Intro To Data Mathematics,"This course will center on applications of basic data analysis techniques such as data visualization, classification, clustering, and ridge regression. A case study approach will be used to provide immediate immersion into the problem of understanding high-dimensional data. The course will develop the necessary mathematics to understand and execute the techniques. Each student will execute a mini-data analysis project on a real-world data problem such as from engineering, medicine, and business.",Prerequisite: MATH 2010 and CSCI 1100.,When Offered: Spring term annually.,"['MATH 2010', 'CSCI 1100']","['MATH 2010', 'CSCI 1100']",Science
+INTRO TO DATA MATHEMATICS,LEC,4,W,10:00AM,10:50AM,TBA,Amos Eaton Hall 217,30,29,1,MATP,2024-01-08,2024-04-24,SPRING 2024,93171,4400,02,MATP-4400,Intro To Data Mathematics,"This course will center on applications of basic data analysis techniques such as data visualization, classification, clustering, and ridge regression. A case study approach will be used to provide immediate immersion into the problem of understanding high-dimensional data. The course will develop the necessary mathematics to understand and execute the techniques. Each student will execute a mini-data analysis project on a real-world data problem such as from engineering, medicine, and business.",Prerequisite: MATH 2010 and CSCI 1100.,When Offered: Spring term annually.,"['MATH 2010', 'CSCI 1100']","['MATH 2010', 'CSCI 1100']",Science
+COMPUTATIONAL OPTIMIZATION,LEC,4,TF,2:00PM,3:50PM,Yangyang Xu,Folsom Library 107,50,14,36,MATP,2024-01-08,2024-04-24,SPRING 2024,90401,6610,01,MATP-6610,Computational Optimization,"An introduction to nonlinear programming. Models, methods, algorithms, and computer techniques for nonlinear optimization are studied. Students investigate contemporary optimization methods both by implementing these methods and through experimentation with commercial software. Nonmajors wishing to gain practical optimization skills are welcomed in this course. A course project will allow students to explore optimization methods and practical problems directly related to their interests. A computer implementation and a research presentation will be required.",Prerequisites:,When Offered: Spring term annually.,[],[],Science
+LINEAR AND CONIC OPTIMIZATION,LEC,4,TF,12:00PM,1:50PM,John E. Mitchell,Low Center for Industrial Inn. 4034,25,7,18,MATP,2024-01-08,2024-04-24,SPRING 2024,94772,6640,01,MATP-6640,Linear And Conic Optimization,"A unified development of linear systems and linear optimization, polyhedral theory, the simplex method, interior point methods, decomposition methods for large-scale linear optimization problems, the ellipsoid method, column generation algorithms for stochastic optimization, and other problems. Semidefinite optimization, conic optimization.",Prerequisite: MATH 2010 and MATP 4700 or equivalent or permission of instructor.,When Offered: Spring term even-numbered years.,"['MATH 2010', 'MATP 4700']","['MATH 2010', 'MATP 4700']",Science
+COMPUTATIONAL OPTIMIZATION,LEC,4,TF,2:00PM,3:50PM,Yangyang Xu,Folsom Library 107,50,27,23,MATP,2024-01-08,2024-04-24,SPRING 2024,90022,4820,01,MATP-4820,Computational Optimization,"An introduction to nonlinear programming. Models, methods, algorithms, and computer techniques for nonlinear optimization are studied. Students investigate contemporary optimization methods both by implementing these methods and through experimentation with commercial software. Nonmajors wishing to gain practical optimization skills are welcomed in this course. A course project will allow students to explore optimization methods and practical problems directly related to their interests.",Prerequisites: MATH 2010 or ENGR 1100 and CSCI 1100 or permission of instructor.,When Offered: Spring term annually.,"['MATH 2010', 'ENGR 1100', 'CSCI 1100']","['MATH 2010', 'ENGR 1100', 'CSCI 1100']",Science
+INTRO CLASSICAL DYNAMICS,LEC,4,MR,8:00AM,9:50AM,Gyorgy Korniss,Russell Sage Laboratory 3510,20,17,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,94421,1150,01,PHYS-1150,Intro Classical Dynamics,"Introductory physics for students seeking a more intensive experience. Newton's laws are introduced using differential calculus, with solutions based on integral calculus. Material on fluids and thermodynamics is included. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.",Prerequisite: MATH 1010.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+INTRO CLASSICAL DYNAMICS,LEC,4,W,10:00AM,11:50AM,Gyorgy Korniss,Jonsson-Rowland Science Center 2C06,20,17,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,94421,1150,01,PHYS-1150,Intro Classical Dynamics,"Introductory physics for students seeking a more intensive experience. Newton's laws are introduced using differential calculus, with solutions based on integral calculus. Material on fluids and thermodynamics is included. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.",Prerequisite: MATH 1010.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+INTRO CLASSICAL DYNAMICS,LEC,4,MR,8:00AM,9:50AM,Gyorgy Korniss,Russell Sage Laboratory 3510,20,14,6,PHYS,2024-01-08,2024-04-24,SPRING 2024,94422,1150,02,PHYS-1150,Intro Classical Dynamics,"Introductory physics for students seeking a more intensive experience. Newton's laws are introduced using differential calculus, with solutions based on integral calculus. Material on fluids and thermodynamics is included. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.",Prerequisite: MATH 1010.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+INTRO CLASSICAL DYNAMICS,LEC,4,W,10:00AM,11:50AM,Gyorgy Korniss,Jonsson-Rowland Science Center 2C30,20,14,6,PHYS,2024-01-08,2024-04-24,SPRING 2024,94422,1150,02,PHYS-1150,Intro Classical Dynamics,"Introductory physics for students seeking a more intensive experience. Newton's laws are introduced using differential calculus, with solutions based on integral calculus. Material on fluids and thermodynamics is included. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.",Prerequisite: MATH 1010.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+INTRO CLASSICAL DYNAMICS,LEC,4,MR,8:00AM,9:50AM,Gyorgy Korniss,Russell Sage Laboratory 3510,20,20,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,94423,1150,03,PHYS-1150,Intro Classical Dynamics,"Introductory physics for students seeking a more intensive experience. Newton's laws are introduced using differential calculus, with solutions based on integral calculus. Material on fluids and thermodynamics is included. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.",Prerequisite: MATH 1010.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+INTRO CLASSICAL DYNAMICS,LEC,4,W,2:00PM,3:50PM,Gyorgy Korniss,Jonsson-Rowland Science Center 2C30,20,20,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,94423,1150,03,PHYS-1150,Intro Classical Dynamics,"Introductory physics for students seeking a more intensive experience. Newton's laws are introduced using differential calculus, with solutions based on integral calculus. Material on fluids and thermodynamics is included. Laboratory exercises are carried out emphasizing measurement uncertainty and clear, concise reporting. Recommended for students intending to major in physics.",Prerequisite: MATH 1010.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+EXPERIMENTAL PHYSICS,LEC,4,W,8:00AM,11:50AM,Joseph Darryl Michael,Jonsson-Rowland Science Center 1W01,16,4,12,PHYS,2024-01-08,2024-04-24,SPRING 2024,94272,2350,01,PHYS-2350,Experimental Physics,"Experiments in mechanics, optics, electricity and electromagnetics, oscillations and waves, atomic, nuclear, and solid-state physics. Experimental methods, quantitative observations, and interpretation of data. This is a communication-intensive course.",Prerequisite or co-requisite:PHYS 2210,"When Offered: Fall, spring, and summer terms annually.",['PHYS 2210'],['PHYS 2210'],Science
+THEORETICAL MECHANICS,LEC,4,TF,8:00AM,9:50AM,Charles Harold Martin,Troy Building 2018,60,63,-3,PHYS,2024-01-08,2024-04-24,SPRING 2024,93468,4330,01,PHYS-4330,Theoretical Mechanics,"Particle and rigid body dynamics using Newtonian, Lagrangian, and Hamiltonian methods. Motion of particle systems. Central force motion. Rotating coordinate systems. Rigid body motion using the inertia tensor and Euler angles. Coupled systems and normal coordinates. Introduction to continuum mechanics and the mechanics of deformable media. Introduction to Hamiltonian Mechanics, including proof and applications of Liouville's Theorem. Formalism of Special Relativity. Introduction to nonlinear dynamics and chaotic behavior.","Prerequisites: PHYS 1250 or PHYS 1200, and MATH 2400; Prerequisite or co-requisite: MATH 2010.",When Offered: Fall and spring terms annually.,"['PHYS 1250', 'PHYS 1200', 'MATH 2400', 'MATH 2010']","['PHYS 1250', 'PHYS 1200', 'MATH 2400', 'MATH 2010']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Victor Hugo Robles Sanchez/Glenn Ciolek,Darrin Communications Center 318,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90283,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,10:00AM,11:50AM,TBA,Jonsson-Rowland Science Center 2C14,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90283,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90283,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Victor Hugo Robles Sanchez/Glenn Ciolek,Darrin Communications Center 318,35,24,11,PHYS,2024-01-08,2024-04-24,SPRING 2024,90080,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,10:00AM,11:50AM,TBA,Jonsson-Rowland Science Center 2C22,35,24,11,PHYS,2024-01-08,2024-04-24,SPRING 2024,90080,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,35,24,11,PHYS,2024-01-08,2024-04-24,SPRING 2024,90080,1200,02,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Yong Zheng/Glenn Ciolek,Darrin Communications Center 318,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90016,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,12:00PM,1:50PM,TBA,Jonsson-Rowland Science Center 2C14,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90016,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90016,1200,03,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Yong Zheng/Glenn Ciolek,Darrin Communications Center 318,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,91450,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,12:00PM,1:50PM,TBA,Jonsson-Rowland Science Center 2C22,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,91450,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,91450,1200,04,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,8:30AM,9:20AM,Peter Persans/Glenn Ciolek,Darrin Communications Center 318,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,90067,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,MR,2:00PM,3:50PM,TBA,Jonsson-Rowland Science Center 2C14,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,90067,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,90067,1200,05,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/John Schroeder,Darrin Communications Center 318,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,90122,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,10:00AM,11:50AM,TBA,Jonsson-Rowland Science Center 2C22,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,90122,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,90122,1200,06,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Glenn Ciolek/John Schroeder,Darrin Communications Center 318,48,44,4,PHYS,2024-01-08,2024-04-24,SPRING 2024,90232,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,10:00AM,11:50AM,TBA,Jonsson-Rowland Science Center 2C14,48,44,4,PHYS,2024-01-08,2024-04-24,SPRING 2024,90232,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,44,4,PHYS,2024-01-08,2024-04-24,SPRING 2024,90232,1200,07,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Charles Harold Martin/Glenn Ciolek,Darrin Communications Center 318,48,46,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,91451,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,12:00PM,1:50PM,TBA,Jonsson-Rowland Science Center 2C14,48,46,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,91451,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,46,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,91451,1200,08,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,8:30AM,9:20AM,Charles Harold Martin/Glenn Ciolek,Darrin Communications Center 318,48,46,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,91545,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,TF,12:00PM,1:50PM,TBA,Jonsson-Rowland Science Center 2C22,48,46,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,91545,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+PHYSICS II,LEC,4,W,6:00PM,7:50PM,TBA,TBA,48,46,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,91545,1200,09,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+THESIS,LEC,3-4,,,,Heidi Jo Newberg,TBA,50,0,50,PHYS,2024-01-08,2024-04-24,SPRING 2024,90187,2990,01,PHYS-2990,Thesis,An independent investigation.,Permission of instructor.,,[],[],Science
+GENERAL RELATIVITY,LEC,4,TF,10:00AM,11:50AM,Joel T. Giedt,Jonsson-Rowland Science Center 2C13,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,93459,6962,01,PHYS-6962,General Relativity,,,,[],[],Science
+FUNDAMENTALS OF OPTICS,LEC,4,TF,2:00PM,3:50PM,Shawn Yu Lin,Jonsson-Rowland Science Center 1W01,15,6,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,90123,2620,01,PHYS-2620,Fundamentals Of Optics,"An introduction to the properties of light and its interactions with matter. Topics include wave, particle, and ray treatments of light; geometrical optics and imaging systems; interference and diffraction; polarization; and Fourier methods for imaging and pulses. A laboratory is included.","Prerequisites: PHYS 1200 or PHYS 1250, and MATH 2400.",When Offered: Spring term annually.,"['PHYS 1200', 'PHYS 1250', 'MATH 2400']","['PHYS 1200', 'PHYS 1250', 'MATH 2400']",Science
+FUNDAMENTALS OF OPTICS,LEC,4,W,10:00AM,11:50AM,Shawn Yu Lin,Jonsson-Rowland Science Center 2W05,15,6,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,90123,2620,01,PHYS-2620,Fundamentals Of Optics,"An introduction to the properties of light and its interactions with matter. Topics include wave, particle, and ray treatments of light; geometrical optics and imaging systems; interference and diffraction; polarization; and Fourier methods for imaging and pulses. A laboratory is included.","Prerequisites: PHYS 1200 or PHYS 1250, and MATH 2400.",When Offered: Spring term annually.,"['PHYS 1200', 'PHYS 1250', 'MATH 2400']","['PHYS 1200', 'PHYS 1250', 'MATH 2400']",Science
+THERMODYN & STAT MECH,LEC,4,TF,12:00PM,1:50PM,Humberto Terrones Maldonado,Russell Sage Laboratory 3510,45,40,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90130,4420,01,PHYS-4420,Thermodyn & Stat Mech,The principles and physical applications of classical thermodynamics are developed. Basic concepts in classical and quantum statistical mechanics are introduced and their relations to thermodynamics are developed.,Prerequisites/Corequisites: PHYS 2210; Also MATH 2400 and MATH 2010.,When Offered: Fall and spring terms annually.,"['PHYS 2210', 'MATH 2400', 'MATH 2010']","['PHYS 2210', 'MATH 2400', 'MATH 2010']",Science
+PARTICLE ASTROPHYSICS,LEC,4,MR,2:00PM,3:50PM,Ethan Craig Brown,Darrin Communications Center 239,10,3,7,PHYS,2024-01-08,2024-04-24,SPRING 2024,94526,6963,01,PHYS-6963,Particle Astrophysics,,,,[],[],Science
+ELECTRODYNAMICS,LEC,4,TF,10:00AM,11:50AM,Moussa Ngom,Jonsson-Rowland Science Center 2C25,25,11,14,PHYS,2024-01-08,2024-04-24,SPRING 2024,91277,6410,01,PHYS-6410,Electrodynamics,"Electrostatics and magnetostatics. Relativistic kinematics. Relativistic dynamics. Relativistic theory of classical fields. Electromagnetic waves. Linear and nonlinear materials. EM waves in linear, dispersive media. EM waves in nonlinear materials. Diffraction. Radiation by relativistic particles.",Permission of the instructor.,When Offered: Spring term annually.,[],[],Science
+MATERIALS SCIENCE,LEC,4,MR,10:00AM,11:50AM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93485,1600,01,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93485,1600,01,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,MR,2:00PM,3:50PM,John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93473,1600,02,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93473,1600,02,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,TF,8:00AM,9:50AM,Ravishankar Sundararaman/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93476,1600,03,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,Darrin Communications Center 308,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93476,1600,03,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,TF,10:00AM,11:50AM,Wei Bao/John R. LaGraff/Chaitanya Kishore Ullal,Walker Laboratory 6113,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93479,1600,04,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+MATERIALS SCIENCE,LEC,4,W,1:00PM,1:50PM,TBA,TBA,5,5,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93479,1600,04,PHYS-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying structure, spanning multiple length scales from atomic packing to micron scale defects in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120",When Offered: Fall and spring terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+QUANTUM MECHANICS II,LEC,4,MR,10:00AM,11:50AM,Damien J. West,Troy Building 2015,30,10,20,PHYS,2024-01-08,2024-04-24,SPRING 2024,91279,6520,01,PHYS-6520,Quantum Mechanics Ii,"Intrinsic spins, Pauli matrices, spinors. Addition of angular momenta, Clebsch-Gordon coefficients, Wigner-Eckart Theorems, applications. Approximate treatments: variation methods, overlap integrals, Block wavelength. WKB methods. Stationary perturbation, degeneracy. Fine structure and hyperfine structure in atoms. Approximations for time dependent problems: Fermi-Golden rules. Classical fields: Lagrangian density, variational principle, field equations, normal modes. Field quantization: quantization of continuous systems, EM radiation, photons, EM-atom coupling, spontaneous emission. Relativistic single particle: Dirac equation, free space solution, central force solution.",Prerequisite: PHYS 6510.,When Offered: Spring term annually.,['PHYS 6510'],['PHYS 6510'],Science
+PRACTICUM IN COLLEGE TEACHING,LEC,2,,,,Peter Persans,TBA,40,37,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,94350,2962,01,PHYS-2962,Practicum In College Teaching,,,,[],[],Science
+COMPUTATIONAL PHYSICS,LEC,4,TF,2:00PM,3:50PM,Trevor David Rhone,Carnegie Building 205,30,10,20,PHYS,2024-01-08,2024-04-24,SPRING 2024,92051,4810,01,PHYS-4810,Computational Physics,"Computational physics studies the implementation of numerical algorithms to solve problems of physics which do not have analytical solutions. Upon completion of this course, students will be able to solve physics problems from a variety of fields under realistic conditions, using modern architectures such as graphical processing units and supercomputers. This course makes extensive use of computers but remains a physics course where students enrich their understanding of physical phenomena. A culminating experience project is required.","Prerequisites: CSCI 1100, PHYS 1100, and PHYS 1200 or permission of instructor.",When Offered: Spring term annually.,"['CSCI 1100', 'PHYS 1100', 'PHYS 1200']","['CSCI 1100', 'PHYS 1100', 'PHYS 1200']",Science
+CULMINATING EXPERIENCE PROJECT,LEC,1,,,,Peter Persans/Vincent Meunier,TBA,0,0,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,92107,4910,01,PHYS-4910,Culminating Experience Project,Independent study to accompany designated capstone courses in Physics and Astronomy. Designated courses are: ASTR 4220 Astrophysics; ASTR 4240 Gravitation and Cosmology; ASTR 4510 Origins of Life: a Cosmic Perspective; PHYS 4810 Computational Physics; PHYS 4620 Elementary Particle Physics; PHYS 4240 General Relativity; ASTR 4120 Observational Astronomy; PHYS 4630 Lasers and Optical Systems; PHYS 4640 Optical Communications and Integrated Optics; PHYS 4720 Solid State Physics.,"Prerequisites/Corequisites: Corequisite: Must be concurrently registered in one of the following: ASTR 4120, ASTR 4220, ASTR 4240, ASTR 4510, PHYS 4240, PHYS 4620, PHYS 4630, PHYS 4640, or PHYS 4720, PHYS 4810, or by instructor permission.",,"['ASTR 4220', 'ASTR 4240', 'ASTR 4510', 'PHYS 4810', 'PHYS 4620', 'PHYS 4240', 'ASTR 4120', 'PHYS 4630', 'PHYS 4640', 'PHYS 4720', 'ASTR 4120', 'ASTR 4220', 'ASTR 4240', 'ASTR 4510', 'PHYS 4240', 'PHYS 4620', 'PHYS 4630', 'PHYS 4640', 'PHYS 4720', 'PHYS 4810']","['ASTR 4220', 'ASTR 4240', 'ASTR 4510', 'PHYS 4810', 'PHYS 4620', 'PHYS 4240', 'ASTR 4120', 'PHYS 4630', 'PHYS 4640', 'PHYS 4720', 'ASTR 4120', 'ASTR 4220', 'ASTR 4240', 'ASTR 4510', 'PHYS 4240', 'PHYS 4620', 'PHYS 4630', 'PHYS 4640', 'PHYS 4720', 'PHYS 4810']",Science
+PROFESSIONAL PROJECT,LEC,1-4,,,,Victor Hugo Robles Sanchez,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,95052,6970,04,PHYS-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+PROFESSIONAL PROJECT,LEC,1-4,,,,Yong Zheng,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,95055,6970,05,PHYS-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.  Add to Portfolio (opens a new window)",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Joel T. Giedt,TBA,25,0,25,PHYS,2024-01-08,2024-04-24,SPRING 2024,91419,6980,01,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Moussa Ngom,TBA,5,0,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,91966,6980,02,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Peter Persans,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92003,6980,03,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Heidi Jo Newberg,TBA,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,92260,6980,04,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Vincent Meunier,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92384,6980,05,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Esther Alexandra Wertz,TBA,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,93527,6980,06,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Christian M. Wetzel,TBA,5,0,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,92398,6980,07,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Ingrid Wilke,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92410,6980,08,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Julian S. Georg,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94640,6980,09,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Glenn Ciolek,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94641,6980,10,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Gwo Ching Wang,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92563,6980,11,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Yong Sung Kim,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94642,6980,12,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Charles Harold Martin,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94643,6980,13,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Toh-Ming Lu,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93064,6980,14,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Shawn Yu Lin,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93068,6980,15,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Humberto Terrones Maldonado,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93086,6980,16,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Shengbai Zhang,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93251,6980,17,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Ethan Craig Brown,TBA,1,1,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93297,6980,18,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Joseph Darryl Michael,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94644,6980,19,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Trevor David Rhone,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94645,6980,20,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Gyorgy Korniss,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94646,6980,21,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Hesham Hassan,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94647,6980,22,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Trevor David Rhone,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,94648,6980,23,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Vincent Meunier,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91529,6990,01,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Esther Alexandra Wertz,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93511,6990,02,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Ingrid Wilke,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93772,6990,03,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Joel T. Giedt,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92261,6990,04,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Gwo Ching Wang,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91571,6990,05,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,3,,,,Toh-Ming Lu,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91840,6990,06,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Victor Hugo Robles Sanchez,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,95053,6990,07,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-12,,,,Yong Zheng,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,95056,6990,08,PHYS-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+GENERAL PHYSICS,LEC,4,MR,12:00PM,1:50PM,Julian S. Georg,Low Center for Industrial Inn. 4050,105,98,7,PHYS,2024-01-08,2024-04-24,SPRING 2024,90068,1050,01,PHYS-1050,General Physics,"A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor.,When Offered: Spring term annually.,['MATH 1010'],['MATH 1010'],Science
+INTRO QUANTUM MECH,LEC,4,MR,10:00AM,11:50AM,Julian S. Georg,Carnegie Building 208,20,18,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,90094,4100,01,PHYS-4100,Intro Quantum Mech,"Quantum mechanics beyond Schrodinger wave mechanics. The postulates of quantum mechanics. Second quantization, Dirac notation, Hilbert spaces, perturbation theory, and applications to simple systems.",Prerequisites/Corequisites: PHYS 2210.,When Offered: Spring and summer terms annually.,['PHYS 2210'],['PHYS 2210'],Science
+INTRO QUANTUM MECH,LEC,4,W,12:00PM,12:50PM,Julian S. Georg,Carnegie Building 208,20,18,2,PHYS,2024-01-08,2024-04-24,SPRING 2024,90094,4100,01,PHYS-4100,Intro Quantum Mech,"Quantum mechanics beyond Schrodinger wave mechanics. The postulates of quantum mechanics. Second quantization, Dirac notation, Hilbert spaces, perturbation theory, and applications to simple systems.",Prerequisites/Corequisites: PHYS 2210.,When Offered: Spring and summer terms annually.,['PHYS 2210'],['PHYS 2210'],Science
+PHYSICS TEACHING SEMINAR,LEC,2,,,,Peter Persans,TBA,15,11,4,PHYS,2024-01-08,2024-04-24,SPRING 2024,91534,4960,01,PHYS-4960,Physics Teaching Seminar,,,,[],[],Science
+PHYSICS COLLOQUIUM,LEC,1,W,4:00PM,5:50PM,Esther Alexandra Wertz,Darrin Communications Center 337,45,18,27,PHYS,2024-01-08,2024-04-24,SPRING 2024,90370,6900,01,PHYS-6900,Physics Colloquium,Selected topics.,,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Gyorgy Korniss,TBA,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,90169,9990,01,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Humberto Terrones Maldonado,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,90170,9990,02,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Zhaoran Huang,TBA,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,91389,9990,03,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Vincent Meunier,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,93514,9990,04,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Moussa Ngom,TBA,10,6,4,PHYS,2024-01-08,2024-04-24,SPRING 2024,91476,9990,05,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Shawn Yu Lin,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91088,9990,06,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ingrid Wilke,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,90186,9990,07,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ravishankar Sundararaman,TBA,10,2,8,PHYS,2024-01-08,2024-04-24,SPRING 2024,93562,9990,08,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Gwo Ching Wang,TBA,10,2,8,PHYS,2024-01-08,2024-04-24,SPRING 2024,90213,9990,09,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Victor Hugo Robles Sanchez,TBA,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,95054,9990,10,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Heidi Jo Newberg,TBA,10,4,6,PHYS,2024-01-08,2024-04-24,SPRING 2024,91099,9990,11,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Yong Zheng,TBA,10,1,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,95057,9990,12,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Joel T. Giedt,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91494,9990,14,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Toh-Ming Lu,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,90293,9990,16,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Jian Shi,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91889,9990,17,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Peter Persans,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,91111,9990,18,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Christian M. Wetzel,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,90478,9990,21,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Shengbai Zhang,TBA,10,2,8,PHYS,2024-01-08,2024-04-24,SPRING 2024,92553,9990,23,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Michael Shur,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92407,9990,24,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Esther Alexandra Wertz,TBA,10,3,7,PHYS,2024-01-08,2024-04-24,SPRING 2024,93293,9990,27,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Trevor David Rhone,TBA,10,2,8,PHYS,2024-01-08,2024-04-24,SPRING 2024,90788,9990,28,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Ethan Craig Brown,TBA,10,0,10,PHYS,2024-01-08,2024-04-24,SPRING 2024,92698,9990,31,PHYS-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+PHYSICS I,LEC,4,MR,8:00AM,9:50AM,Joseph Darryl Michael/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,19,29,PHYS,2024-01-08,2024-04-24,SPRING 2024,90119,1100,01,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,19,29,PHYS,2024-01-08,2024-04-24,SPRING 2024,90119,1100,01,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,10:00AM,11:50AM,Gwo Ching Wang/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,47,1,PHYS,2024-01-08,2024-04-24,SPRING 2024,91447,1100,02,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,47,1,PHYS,2024-01-08,2024-04-24,SPRING 2024,91447,1100,02,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,12:00PM,1:50PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,90120,1100,03,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,90120,1100,03,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,2:00PM,3:50PM,Damien J. West/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,91448,1100,04,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,45,3,PHYS,2024-01-08,2024-04-24,SPRING 2024,91448,1100,04,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,TF,10:00AM,11:50AM,Christian M. Wetzel/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,42,6,PHYS,2024-01-08,2024-04-24,SPRING 2024,90121,1100,05,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,42,6,PHYS,2024-01-08,2024-04-24,SPRING 2024,90121,1100,05,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,TF,12:00PM,1:50PM,Cameron Valier Cogburn/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,91449,1100,06,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,91449,1100,06,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,TF,12:00PM,1:50PM,Christian M. Wetzel/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,90402,1100,07,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,90402,1100,07,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,TF,2:00PM,3:50PM,Cameron Valier Cogburn/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90118,1100,08,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,43,5,PHYS,2024-01-08,2024-04-24,SPRING 2024,90118,1100,08,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,10:00AM,11:50AM,Ingrid Wilke/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,22,26,PHYS,2024-01-08,2024-04-24,SPRING 2024,93213,1100,09,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,22,26,PHYS,2024-01-08,2024-04-24,SPRING 2024,93213,1100,09,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,12:00PM,1:50PM,Humberto Terrones Maldonado/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93214,1100,10,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,93214,1100,10,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,4:00PM,5:50PM,Damien J. West/Yong Sung Kim,Jonsson-Rowland Science Center 2C06,48,32,16,PHYS,2024-01-08,2024-04-24,SPRING 2024,93226,1100,11,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,32,16,PHYS,2024-01-08,2024-04-24,SPRING 2024,93226,1100,11,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,TF,10:00AM,11:50AM,Joseph Darryl Michael/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,36,12,PHYS,2024-01-08,2024-04-24,SPRING 2024,93227,1100,12,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,36,12,PHYS,2024-01-08,2024-04-24,SPRING 2024,93227,1100,12,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,MR,4:00PM,5:50PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,94639,1100,13,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,48,0,PHYS,2024-01-08,2024-04-24,SPRING 2024,94639,1100,13,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,TF,8:00AM,9:50AM,Juan Pablo Borja/Yong Sung Kim,Jonsson-Rowland Science Center 2C30,48,16,32,PHYS,2024-01-08,2024-04-24,SPRING 2024,94674,1100,14,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+PHYSICS I,LEC,4,T,6:00PM,7:50PM,TBA,TBA,48,16,32,PHYS,2024-01-08,2024-04-24,SPRING 2024,94674,1100,14,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+QUANTUM PHYSICS I,LEC,4,TF,10:00AM,11:50AM,Peter Persans,Troy Building 2012,70,61,9,PHYS,2024-01-08,2024-04-24,SPRING 2024,93901,2210,01,PHYS-2210,Quantum Physics I,"Introduction to the formalism of Special Relativity, Schrodinger wave mechanics, and spin-1/2 particles. Solutions to Schrodinger's Equation in one, two, and three dimensions. One-electron atoms and quantum mechanical magnetic dipole moments.","Prerequisites/Corequisites: PHYS 1200 or PHYS 1250, MATH 1020.",When Offered: Fall and spring terms annually.,"['PHYS 1200', 'PHYS 1250', 'MATH 1020']","['PHYS 1200', 'PHYS 1250', 'MATH 1020']",Science
+ELECTROMAGNETIC THEORY,LEC,4,MR,2:00PM,3:50PM,Ingrid Wilke,Jonsson-Rowland Science Center 2C22,48,16,32,PHYS,2024-01-08,2024-04-24,SPRING 2024,90125,4210,01,PHYS-4210,Electromagnetic Theory,Field theory of electricity and magnetism with emphasis on solving boundary value problems. Dielectric and magnetic materials. Maxwell's equations and wave propagation with applications to optics. Relativistic electrodynamics.,Prerequisites: PHYS 2210 and MATH 4600 or MATH 4700.,When Offered: Fall and spring terms annually.,"['PHYS 2210', 'MATH 4600', 'MATH 4700']","['PHYS 2210', 'MATH 4600', 'MATH 4700']",Science
+PARTICLE ASTROPHYSICS,LEC,4,MR,2:00PM,3:50PM,Ethan Craig Brown,Darrin Communications Center 239,20,8,12,PHYS,2024-01-08,2024-04-24,SPRING 2024,92397,4961,01,PHYS-4961,Particle Astrophysics,,,,[],[],Science
+QUANTUM PHYSICS II,LEC,4,MR,4:00PM,5:50PM,Peter Persans,Jonsson-Rowland Science Center 1W01,10,4,6,PHYS,2024-01-08,2024-04-24,SPRING 2024,92350,2220,01,PHYS-2220,Quantum Physics Ii,"Applications of special relativity and quantum theory to topics in modern physics. Atomic and molecular physics. Quantum statistics, blackbody radiation, and lasers. Crystalline solids. Superconductivity. Nuclear and particle physics. Astrophysics and cosmology.","Prerequisites/Corequisites: PHYS 2210, MATH 2010.",When Offered: Spring and summer terms annually.,"['PHYS 2210', 'MATH 2010']","['PHYS 2210', 'MATH 2010']",Science
+GENERAL RELATIVITY,LEC,4,TF,10:00AM,11:50AM,Joel T. Giedt,Jonsson-Rowland Science Center 2C13,20,12,8,PHYS,2024-01-08,2024-04-24,SPRING 2024,92659,4240,01,PHYS-4240,General Relativity,"Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ASTR 4240 ).",Prerequisites: PHYS 4330 and MATH 4600.,,"['PHYS 4330', 'MATH 4600']","['PHYS 4330', 'MATH 4600']",Science
+ADVANCED EXPERIMENTAL PHYSICS,LEC,4,W,8:00AM,11:50AM,Joseph Darryl Michael,Jonsson-Rowland Science Center 1W01,0,2,-2,PHYS,2024-01-08,2024-04-24,SPRING 2024,94992,4962,01,PHYS-4962,Advanced Experimental Physics,,,,[],[],Science
+ASTROPHYSICS OF GALAXIES,LEC,2,W,12:00PM,1:50PM,Heidi Jo Newberg,Jonsson-Rowland Science Center 1W01,15,4,11,PHYS,2024-01-08,2024-04-24,SPRING 2024,94998,6960,01,PHYS-6960,Astrophysics Of Galaxies,,,,[],[],Science
+ENVIRONMENTAL SEMINAR,LEC,2,M,2:00PM,4:50PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 3W13,20,19,1,IENV,2024-01-08,2024-04-24,SPRING 2024,93963,1910,01,IENV-1910,Environmental Seminar,"Topical issues in environmental sciences covered in a seminar and discussion format, with field trips. Seminar includes guest speakers from academics, industry, non-profits, and government who are experts in an array of environment-related fields. Each class includes weekly reading and short writing assignments. A short, final research paper is required (~10 pgs.).",,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
+LEADERSHIP LAB,LEC,0,T,8:00AM,9:50AM,Jennifer . Beckley,Darrin Communications Center 324,80,41,39,USAF,2024-01-08,2024-04-24,SPRING 2024,90064,0020,01,USAF-0020,Leadership Lab,,,,[],[],Interdisciplinary and Other
+AEROSPACE STUDIES 200B,LEC,1,R,9:00AM,9:50AM,Jennifer . Beckley,Alumni Sports and Rec Center 209,30,8,22,USAF,2024-01-08,2024-04-24,SPRING 2024,90003,2040,01,USAF-2040,Aerospace Studies 200B,"The AS 200, Team and Leadership Fundamentals,"" focuses on laying the foundation for teams and leadership. The topics include skills that will allow cadets to improve their leadership on a personal level and within a team. The courses will prepare cadets for their field training experience where they will be able to put the concepts learned into practice. The purpose is to instill a leadership mindset and to motivate sophomore students to transition from AFROTC cadet to AFROTC officer candidate. Leadership Laboratory (USAF 0010 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.",Prerequisites/Corequisites: USAF 0010 (Mandatory for AFROTC Cadets).,When Offered: 200 A (fall term) 200 B (spring term).,"['USAF 0010', 'USAF 0010']","['USAF 0010', 'USAF 0010']",Interdisciplinary and Other
+AEROSPACE STUDIES 300B,LEC,3,F,7:00AM,9:50AM,Jake L Miller,Alumni Sports and Rec Center 209,30,5,25,USAF,2024-01-08,2024-04-24,SPRING 2024,90004,2060,01,USAF-2060,Aerospace Studies 300B,"AS 300, Leading People and Effective Communication, teaches cadets advanced skills and knowledge in management and leadership. Special emphasis is placed on enhancing leadership skills and communication. Cadets have an opportunity to try out these leadership and management techniques in a supervised environment as juniors and seniors. Laboratory (USAF 0080 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.","Prerequisites/Corequisites: USAF 1010, USAF 1020, USAF 2030, USAF 2040, USAF 2050/ USAF 0080 (Mandatory for AFROTC Cadets).",When Offered: 300 A (fall term) 300 B (spring term).,"['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 0080']","['USAF 0080', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 0080']",Interdisciplinary and Other
+AEROSPACE STUDIES 100B,LEC,1,R,8:00AM,8:50AM,Jake L Miller/Jennifer . Beckley,Alumni Sports and Rec Center 209,30,18,12,USAF,2024-01-08,2024-04-24,SPRING 2024,90085,1020,02,USAF-1020,Aerospace Studies 100B,"AS 100, Leadership Laboratory (USAF 0010 ), is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences.",Prerequisites/Corequisites: USAF 0010 (Mandatory for AFROTC Cadets).,When Offered: 100 A (fall term) 100 B (spring term).,"['USAF 0010', 'USAF 0010']","['USAF 0010', 'USAF 0010']",Interdisciplinary and Other
+AEROSPACE STUDIES 400B,LEC,3,W,7:00AM,9:50AM,Max Sharkey Lipeles,Alumni Sports and Rec Center 209,30,9,21,USAF,2024-01-08,2024-04-24,SPRING 2024,90005,2080,01,USAF-2080,Aerospace Studies 400B,"AS 400, National Security Affairs/Preparation for Active Duty, is designed for college seniors and gives them the foundation to understand their role as military officers in American society. It is an overview of the complex social and political issues facing the military profession and requires a measure of sophistication commensurate with the senior college level. The final semester provides information that will prepare the cadets for Active Duty. Leadership Laboratory (USAF 0080 ) is mandatory for AFROTC cadets and complements this course by providing cadets with leadership/followership experiences. USAF 2040 USAF 2070","Prerequisites/Corequisites: USAF 1010, USAF 1020, USAF 2030, USAF 2040, USAF 2050, USAF 2060, USAF 2070/ USAF 0080 (Mandatory for AFROTC Cadets).",When Offered: 400 A (fall term) 400 B (spring term).,"['USAF 0080', 'USAF 2040', 'USAF 2070', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 2060', 'USAF 2070', 'USAF 0080']","['USAF 0080', 'USAF 2040', 'USAF 2070', 'USAF 1010', 'USAF 1020', 'USAF 2030', 'USAF 2040', 'USAF 2050', 'USAF 2060', 'USAF 2070', 'USAF 0080']",Interdisciplinary and Other
+FUNADMENTALS OF MILITARY SCIENCE LAB II,LEC,0,R,2:30PM,4:50PM,Luis R. Mejia-Roman/Donna Lee Carr,Alumni Sports and Rec Center ,25,0,25,USAR,2024-01-08,2024-04-24,SPRING 2024,91857,0020,01,USAR-0020,Funadmentals Of Military Science Lab Ii,"This course is an overview of leadership fundamentals such as setting direction, problem-solving, listening, presenting briefs, providing feedback, and using effective writing skills. Students continue to explore dimensions of leadership values, attributes, skills, and actions in the context of practical, hands-on, and interactive exercises. Contents of the course are linked to USAR 1020. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
+APPLIED LEADERSHIP II,LEC,1,W,3:00PM,3:50PM,Donna Lee Carr/Luis R. Mejia-Roman,Low Center for Industrial Inn. 4034,25,7,18,USAR,2024-01-08,2024-04-24,SPRING 2024,90007,2020,01,USAR-2020,Applied Leadership Ii,"The course focuses principally on officership, providing an extensive examination of the unique purpose, roles, and obligations of commissioned officers. It includes a detailed look at the origin of the Army's institutional values and their practical application in decision making and leadership. Students examine the challenges of leading teams in a complex, combat operational environment. The course highlights dimensions of terrain analysis, infantry patrols, and operation orders. Further study of the theoretical basis of the Army Leadership Requirements Model explores the dynamics of adaptive leadership in the context of military operations. This course, more than any before it, draws the various components of values, communications, decision making, and leadership together to focus on a career as a commissioned officer. Upon completion of this course, students should possess a fundamental understanding of both leadership and officership, and demonstrate the ability to apply this understanding in real-world situations.",,,[],[],Interdisciplinary and Other
+APPLIED LEADERSHIP LAB II,LEC,0,R,2:30PM,4:50PM,Luis R. Mejia-Roman/Donna Lee Carr,Alumni Sports and Rec Center ,25,2,23,USAR,2024-01-08,2024-04-24,SPRING 2024,91858,0040,01,USAR-0040,Applied Leadership Lab Ii,"This course continues to explore the dimensions of creative and innovative tactical leadership strategies and styles by examining team dynamics and two historical leadership theories that form the basis of the army leadership framework. Aspects of personal motivation and team building are practice planning, executing, and assessing team exercises. Contents of the course are linked to USAR 2020. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
+MILITARY LEADERSHIP II,LEC,2,T,3:00PM,5:30PM,Donna Lee Carr/Luis R. Mejia-Roman,Alumni Sports and Rec Center 209,15,2,13,USAR,2024-01-08,2024-04-24,SPRING 2024,90008,2070,01,USAR-2070,Military Leadership Ii,"The course continues to focus on doctrinal leadership and tactical operations at the small unit level. It includes opportunities to plan and conduct individual and collective skill training for military operations to gain leadership and tactical experience. The course synthesizes the various components of training, leadership, and team building. Students are required to incorporate previous military science instruction for their practical application in a performance-oriented environment. Upon completion of the course, students will possess the fundamental confidence and competence of leadership in a small unit setting and are prepared to attend the Leadership Development and Assessment Course.",,,[],[],Interdisciplinary and Other
+MILITARY MGMT & LEADERSHIP II,LEC,2,M,2:30PM,4:50PM,Donna Lee Carr/Luis R. Mejia-Roman,Alumni Sports and Rec Center 209,15,0,15,USAR,2024-01-08,2024-04-24,SPRING 2024,90063,4020,01,USAR-4020,Military Mgmt & Leadership Ii,"The course focuses on completing the transition from cadet to lieutenant. As a follow-up to the ethics instruction in USAR 4010, the course starts with a foundation in the legal aspects of decision making and leadership. The curriculum reinforces previous instruction on the organization of the Army and introduces how the Army organizes for operations from the tactical to the strategic level. This is followed by instruction on administrative and logistical management that will focus on the fundamentals of soldier and unit level support. At the core of the semester is the Advanced Course Capstone Exercise. This 12-lesson exercise incorporates learning objectives from the entire military science curriculum. The capstone exercise will require students, both individually and collectively, to apply their knowledge to solve problems and confront situations commonly faced by junior officers. Upon completion of the course, students will be prepared for the responsibility of being a commissioned officer in the United States Army.",,,[],[],Interdisciplinary and Other
+MILITARY MGMT & LEADERSHIP II,LEC,2,W,1:00PM,3:30PM,Donna Lee Carr/Luis R. Mejia-Roman,Alumni Sports and Rec Center 209,15,0,15,USAR,2024-01-08,2024-04-24,SPRING 2024,93922,4020,02,USAR-4020,Military Mgmt & Leadership Ii,"The course focuses on completing the transition from cadet to lieutenant. As a follow-up to the ethics instruction in USAR 4010, the course starts with a foundation in the legal aspects of decision making and leadership. The curriculum reinforces previous instruction on the organization of the Army and introduces how the Army organizes for operations from the tactical to the strategic level. This is followed by instruction on administrative and logistical management that will focus on the fundamentals of soldier and unit level support. At the core of the semester is the Advanced Course Capstone Exercise. This 12-lesson exercise incorporates learning objectives from the entire military science curriculum. The capstone exercise will require students, both individually and collectively, to apply their knowledge to solve problems and confront situations commonly faced by junior officers. Upon completion of the course, students will be prepared for the responsibility of being a commissioned officer in the United States Army.",,,[],[],Interdisciplinary and Other
+FUND OF MILITARY SCI II,LEC,1,W,4:00PM,4:50PM,Donna Lee Carr/Luis R. Mejia-Roman,Alumni Sports and Rec Center 209,25,5,20,USAR,2024-01-08,2024-04-24,SPRING 2024,90006,1020,01,USAR-1020,Fund Of Military Sci Ii,"The course builds upon the fundamentals introduced in USAR 1010 by focusing on leadership theory and decision making. ""Life skills"" lessons in the semester include: problem solving, critical thinking, leadership theory, followership, group interaction, goal setting, and feedback mechanisms. Upon completion, students should be prepared to advance to more complex leadership instruction concerning the dynamics of organization.",,,[],[],Interdisciplinary and Other
+APPLIED MILITARY LEADERSHIP LAB II,LEC,0,R,2:30PM,4:50PM,Luis R. Mejia-Roman/Donna Lee Carr,Alumni Sports and Rec Center ,25,0,25,USAR,2024-01-08,2024-04-24,SPRING 2024,91859,0060,01,USAR-0060,Applied Military Leadership Lab Ii,The purpose of this course is to continue development of the basic leadership skills. The course has three objectives: to teach cadets those aspects of the art of leadership and the science of warfare they will use as junior officers in the U.S. Army; to prepare cadets for the Leadership Development and Assessment Course (LDAC); to instill in cadets the values and ethos required to become leaders of character. Contents of the course are linked to USAR 2070. Labs are mandatory for contracted and enrolled Cadets.,,,[],[],Interdisciplinary and Other
+ADV MILT MGT LEADERSHIP LAB II,LEC,0,R,2:30PM,4:50PM,Donna Lee Carr/Luis R. Mejia-Roman,Alumni Sports and Rec Center ,25,0,25,USAR,2024-01-08,2024-04-24,SPRING 2024,91860,0080,01,USAR-0080,Adv Milt Mgt Leadership Lab Ii,"This course concentrates on leadership, management, and ethics. The course begins with a series of lessons designed to enable cadets/students to make informed decisions as they prepare for accessions into the Army. The remainder of the course concentrates on Army Operations, training management, communications, and leadership skills. Cadets are responsible for planning, rehearsing, and executing all ROTC events by performing duties similar to that of officers assigned to a battalion staff. Contents of the course are linked to USAR 4020. Labs are mandatory for contracted and enrolled Cadets.",,,[],[],Interdisciplinary and Other
+DRILL/LABORATORY,LEC,0,W,2:00PM,3:50PM,Michael Wisotzkey/Mark Yu Kersey/Steven Anthony Pique,Darrin Communications Center 337,95,46,49,USNA,2024-01-08,2024-04-24,SPRING 2024,94988,0020,01,USNA-0020,DRILL/LABORATORY,,,,[],[],Interdisciplinary and Other
+SEAPOWER,LEC,3,MR,10:00AM,11:50AM,Mark Yu Kersey,Alumni Sports and Rec Center 302,30,17,13,USNA,2024-01-08,2024-04-24,SPRING 2024,90124,2020,01,USNA-2020,Seapower,"A study in the development of the United States Navy and Marine Corps throughout the history of the United States. This course treats the broad principles, concepts, and elements of sea power with historical and modern applications to the United States and other world powers.",,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
+NAVAL LEADERSHIP & ETHICS,LEC,3,TF,8:00AM,9:50AM,David John Latta,Alumni Sports and Rec Center 209,35,11,24,USNA,2024-01-08,2024-04-24,SPRING 2024,90061,4190,01,USNA-4190,Naval Leadership & Ethics,"The capstone course of the NROTC academic syllabus, providing a study of personal and professional military ethics and Navy/Marine Corps junior officer leadership and administration. Presents leadership and ethical dilemmas in case study and small group discussion format. The course also exposes the student to a study of counseling methods, military justice administration, human resources management, directives and correspondence, personnel management, and career development.",None.,When Offered: Spring term annually.,[],[],Interdisciplinary and Other
+NAVIGATION,LEC,3,TF,8:00AM,9:50AM,Mark Yu Kersey,Alumni Sports and Rec Center 302,18,17,1,USNA,2024-01-08,2024-04-24,SPRING 2024,94347,2050,01,USNA-2050,Navigation,"The principles and procedures of ship navigation, movements, and employment. Course includes piloting, mathematical analysis, spherical triangulation, navigational aids, tides and currents, electronic navigation, and rules of the nautical road.",,When Offered: Fall term annually.,[],[],Interdisciplinary and Other
+NAVAL SHIPS SYSTEMS II,LEC,3,MR,10:00AM,11:50AM,Steven Anthony Pique,Alumni Sports and Rec Center 209,25,8,17,USNA,2024-01-08,2024-04-24,SPRING 2024,94348,2070,01,USNA-2070,Naval Ships Systems Ii,"The study of weapons systems and the theoretical concepts underlying the design and operation of those systems. Includes sensor and detection subsystems, tracking systems, propulsion and guidance systems, launching systems, fire control problem solutions, and systems integration. In-depth analysis of representative, state-of the- art weapons systems in use today.",,When Offered: Fall term annually.,[],[],Interdisciplinary and Other
diff --git a/rpi_data/summer-2024.csv b/rpi_data/summer-2024.csv
new file mode 100644
index 000000000..9fe45b31f
--- /dev/null
+++ b/rpi_data/summer-2024.csv
@@ -0,0 +1,366 @@
+course_name,course_type,course_credit_hours,course_days_of_the_week,course_start_time,course_end_time,course_instructor,course_location,course_max_enroll,course_enrolled,course_remained,course_department,course_start_date,course_end_date,semester,course_crn,course_level,course_section,short_name,full_name,description,raw_precoreqs,offer_frequency,prerequisites,corequisites,school
+MASTER'S PROJECT,LEC,1-9,,,,Alexandros Tsamis,TBA,10,1,9,ARCH,2024-05-20,2024-08-16,SUMMER 2024,20077,6980,01,ARCH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.","Prerequisites: ARCH 6630, ARCH 6750",,"['ARCH 6630', 'ARCH 6750']","['ARCH 6630', 'ARCH 6750']",Architecture
+MASTER'S PROJECT,LEC,3,,,,Nadarajah Narendran,TBA,10,1,9,LGHT,2024-05-20,2024-08-16,SUMMER 2024,19508,6980,01,LGHT-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Architecture
+PROGRAMMING FOR BIOMED ENGR,LEC,3,MR,10:30AM,12:35PM,George Jiren Lee,Jonsson Engineering Center 3207,12,10,2,BMED,2024-05-20,2024-08-16,SUMMER 2024,19863,2050,01,BMED-2050,Programming For Biomed Engr,"Introduction of number systems - decimal, binary and hexadecimal -; variable types including Boolean, integer, float, character and string; general overview of computer architecture and software, programming in ""C/C++"" including input/output, control statements, operators, functions, arrays, strings, classes, objects, inheritance, pointers, references, file processing, exceptions and operator overloading; overview of other programming languages including Matlab, R and Python; design of algorithms for applications that are relevant for biomedical engineering applications.",Prerequisites: ENGR 1100,When Offered: Fall and Spring terms annually,['ENGR 1100'],['ENGR 1100'],Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,T,10:30AM,12:35PM,Monica Agarwal,Folsom Library 107,12,2,10,BMED,2024-05-20,2024-08-16,SUMMER 2024,19627,4010,01,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,T,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,12,2,10,BMED,2024-05-20,2024-08-16,SUMMER 2024,19627,4010,01,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,T,10:30AM,12:35PM,Monica Agarwal,Folsom Library 107,12,7,5,BMED,2024-05-20,2024-08-16,SUMMER 2024,19545,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMEDICAL ENGINEERING LAB,LEC,4,R,1:00PM,3:50PM,Monica Agarwal,Jonsson Engineering Center 5213,12,7,5,BMED,2024-05-20,2024-08-16,SUMMER 2024,19545,4010,02,BMED-4010,Biomedical Engineering Lab,"Theory and practice of biomedical measurements. An introduction to instrumentation and procedures for measurement of membrane transport, bioelectrical potentials, cell counting, biomechanical and biomaterial properties using invasive and noninvasive techniques. Transducers studied include strain gauge, differential transformer, spectrophometer, biopotential electrodes, microscope with camera, mechanical testing machine, piezoelectric transducer (or sensor). Also studied are instruments for determination of material properties.","Prerequisites: BMED 2100, BMED 2300, and BMED 2540","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2100', 'BMED 2300', 'BMED 2540']","['BMED 2100', 'BMED 2300', 'BMED 2540']",Engineering
+BIOMATERIALS SCI & ENGINEERING,LEC,4,TF,10:30AM,12:35PM,Mariah Somer Hahn,Low Center for Industrial Inn. 4040,29,19,10,BMED,2024-05-20,2024-08-16,SUMMER 2024,19864,2100,01,BMED-2100,Biomaterials Sci & Engineering,"Presents structure-property relationships of implant materials including metals, polymers, ceramics, and composites, with an emphasis on mechanical and surface properties in the broader context of implant design. Biological performance of biomaterials, case studies of traditional implants-as well as emerging, tissue-engineered materials- are emphasized.",,When Offered: Spring term annually.,[],[],Engineering
+BIOIMAGING/ BIOINSTRUMENTATION,LEC,4,TF,1:30PM,3:35PM,Hisham S. Mohamed,Jonsson Engineering Center 3207,20,16,4,BMED,2024-05-20,2024-08-16,SUMMER 2024,19916,2300,01,BMED-2300,BIOIMAGING/ Bioinstrumentation,"This course serves as an introduction to biomedical instrumentation and imaging with focus on the acquisition and monitoring of vital signals. Basic principles for the selection and appropriate use of instruments for solving bioengineering and medical problems such as microscopy, magnetic resonance imaging, and ultrasounds, among others are addressed.",Prerequisite: PHYS 1200,When Offered: Spring term annually.,['PHYS 1200'],['PHYS 1200'],Engineering
+BIOMECHANICS,LEC,4,MR,1:30PM,3:35PM,George Jiren Lee,Jonsson Engineering Center 3207,29,13,16,BMED,2024-05-20,2024-08-16,SUMMER 2024,19917,2540,01,BMED-2540,Biomechanics,"Application of mechanics to the study of normal, diseased, and traumatized musculo-skeletal system. Areas covered include determination of joint and muscle forces, mechanical properties of biological tissues, and structural analysis of bone-implant systems. Case studies are discussed to illustrate the role of biomechanics and biomaterials in the design of implants.",Prerequisite: ENGR 1100,When Offered: Spring term annually.,['ENGR 1100'],['ENGR 1100'],Engineering
+MODELING OF BIOMEDICAL SYSTEMS,LEC,3,F,1:30PM,3:35PM,Juergen Hahn,Darrin Communications Center 330,49,32,17,BMED,2024-05-20,2024-08-16,SUMMER 2024,19510,4200,01,BMED-4200,Modeling Of Biomedical Systems,"Introduction of mathematical and computational methods to model physiological systems in biomedical engineering. Mathematical methods include solution techniques for systems of algebraic equations, systems of partial and partial differential equations. Computational methods include finite difference, finite element, and lumped parameter methods. Computational methods are programmed using commercial programming software.","Prerequisites: BMED 2050, MATH 2400 and PHYS 1200","When Offered: Fall, Spring, and Summer terms annually.","['BMED 2050', 'MATH 2400', 'PHYS 1200']","['BMED 2050', 'MATH 2400', 'PHYS 1200']",Engineering
+BIOMED TRANSPORT PHENOMENA,LEC,4,MR,10:30AM,12:35PM,Hisham S. Mohamed,Lally Hall 104,39,31,8,BMED,2024-05-20,2024-08-16,SUMMER 2024,19799,4250,01,BMED-4250,Biomed Transport Phenomena,"Quantitative analysis of transport phenomena in physiological systems, including fluid mechanics, thermodynamics, and mass transfer. Fluid statics, mass and energy conservation, laminar and turbulent flow, microscale and macroscale analytical methods, mass transport with biochemical reactions, applications to transport in tissue and organs will be introduced.","Prerequisites: ENGR 1100, PHYS 1100, MATH 2400","When Offered: Fall, Spring, and Summer terms annually","['ENGR 1100', 'PHYS 1100', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'MATH 2400']",Engineering
+CHEM ENG IN DRUG DISC & DELIV,LEC,3,TF,12:00PM,1:35PM,Pankaj Karande,Darrin Communications Center 235,20,6,14,CHME,2024-05-20,2024-08-16,SUMMER 2024,19792,4963,01,CHME-4963,Chem Eng In Drug Disc & Deliv,,,,[],[],Engineering
+POLYMER PROCESSING & PLAS TECH,LEC,3,TF,4:00PM,5:35PM,Ronald C. Hedden,Troy Building 2012,20,7,13,CHME,2024-05-20,2024-08-16,SUMMER 2024,19912,4965,01,CHME-4965,Polymer Processing & Plas Tech,,,,[],[],Engineering
+CHEMICAL ENGINEERING PRO SIMUL,LEC,3,TF,10:15AM,11:50AM,Nihat Baysal,Troy Building 2018,20,8,12,CHME,2024-05-20,2024-08-16,SUMMER 2024,19573,4966,01,CHME-4966,Chemical Engineering Pro Simul,,,,[],[],Engineering
+TRANSPORT PHENOMENA II,LEC,4,TF,8:00AM,10:05AM,Corey Christopher Woodcock,Troy Building 2018,60,31,29,CHME,2024-05-20,2024-08-16,SUMMER 2024,19602,4020,01,CHME-4020,Transport Phenomena Ii,"A continuation of CHME 4010. Course includes topics on multi-dimensional transport processes, potential, boundary layer and turbulent fluid flows, convective heat and mass transfer processes, friction factors and drag in and around solid objects, heat and mass exchangers, and radiation heat transfer. The course extends the use of numerical methods to apply to multidimensional problems, convective heat and mass transfer problems, and the simulation of more complicated fluid flows including turbulence approximations. Credit not allowed for both this course and ENGR 2250.",Prerequisite: MATH 2400 and CHME 4010.,"When Offered: Fall and Spring term annually, Summer term upon availability of the instructor.","['CHME 4010', 'MATH 2400', 'CHME 4010']","['CHME 4010', 'MATH 2400', 'CHME 4010']",Engineering
+INTRODUCTION TO COMPUTATIONAL CHEMICAL ENGINEERING,LEC,3,TF,1:45PM,3:50PM,Nihat Baysal,Troy Building 2012,40,21,19,CHME,2024-05-20,2024-08-16,SUMMER 2024,19911,2050,01,CHME-2050,Introduction To Computational Chemical Engineering,"This course introduces common computational techniques that are used in Chemical Engineering. Topics include solving algebraic equations, data analysis, numerical differentiation and integration, and numerical solutions of differential equations applied to chemical engineering problems. Multiple numerical approaches will be used, including an introduction to computer programming.",Prerequisites/Corequisites: MATH 2400 as a prerequisite only.,"When Offered: Summer term annually, Fall and Spring terms upon availability of the instructor.",['MATH 2400'],['MATH 2400'],Engineering
+CHEMICAL PROCESS SAFETY,LEC,0,,,,Joel Plawsky,TBA,60,17,43,CHME,2024-05-20,2024-08-16,SUMMER 2024,19914,2100,01,CHME-2100,Chemical Process Safety,This is a course designed to supplement RPI's personal lab safety courses and covers the safety protocols and practices associated with chemical process plants. It is designed to provide information necessary for an ABET accredited degree and to assist students in finding an internship and a job. The course uses material offered on-line by the American Institute of Chemical Engineers. It is part of the Safety and Chemical Engineering (SAChE) Certificate program offered by the society and provides continuing education credits for working engineers.,Prerequisite: CHME 2020,"When Offered: Fall, Spring, annually, Summer term upon availability of the instructor.",['CHME 2020'],['CHME 2020'],Engineering
+MASTERS THESIS,LEC,1-12,,,,Wilfredo Colon,TBA,25,0,25,CHME,2024-05-20,2024-08-16,SUMMER 2024,19214,6990,01,CHME-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Wilfredo Colon,TBA,25,0,25,CHME,2024-05-20,2024-08-16,SUMMER 2024,19215,9990,01,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Georges Belfort,TBA,25,0,25,CHME,2024-05-20,2024-08-16,SUMMER 2024,19345,9990,02,CHME-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+CAREERS IN CHEMICAL ENG,LEC,3,MR,10:15AM,11:50AM,Nihat Baysal,Ricketts Building 206,20,9,11,CHME,2024-05-20,2024-08-16,SUMMER 2024,20021,4961,01,CHME-4961,Careers In Chemical Eng,,,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Michael Symans,TBA,25,0,25,CIVL,2024-05-20,2024-08-16,SUMMER 2024,19226,6990,01,CIVL-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Christopher W Letchford,TBA,25,0,25,CIVL,2024-05-20,2024-08-16,SUMMER 2024,19232,6990,02,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,Tarek H Abdoun,TBA,10,0,10,CIVL,2024-05-20,2024-08-16,SUMMER 2024,19518,6990,03,CIVL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Michael Symans,TBA,25,0,25,CIVL,2024-05-20,2024-08-16,SUMMER 2024,19227,9990,01,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Tarek H Abdoun,TBA,25,0,25,CIVL,2024-05-20,2024-08-16,SUMMER 2024,19327,9990,02,CIVL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+COMP ARCHITECTURE & NETWORKS,LEC,4,TF,10:30AM,12:35PM,James D. Rees,Carnegie Building 113,90,60,30,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19772,2660,01,ECSE-2660,Comp Architecture & Networks,"Quantitative basis of modern computer architecture, processor design, memory hierarchy, and input/output methods. Layered operating system structures, process and storage management. Layered network organization, network protocols, switching, local and wide area networks. Examples from Unix and the Internet.",Prerequisite: ECSE 2610.,"When Offered: Fall, spring and summer terms annually.",['ECSE 2610'],['ECSE 2610'],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,50,0,50,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19211,9990,01,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Partha S. Dutta,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19219,9990,02,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Alhussein A Abouzeid,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19221,9990,03,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,TBA,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19231,9990,04,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Michael Shur,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19307,9990,05,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-18,,,,Zhaoran Huang,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19301,9990,46,ECSE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+PROFESSIONAL PROJECT,LEC,3,,,,John Wen,TBA,1,0,1,ECSE,2024-07-08,2024-08-16,SUMMER 2024,19429,6970,01,ECSE-6970,Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+MASTERS PROFESSIONAL PROJECT,LEC,3,,,,John Wen,TBA,1,0,1,ECSE,2024-07-08,2024-08-16,SUMMER 2024,19430,6970,05,ECSE-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+ELECTRIC CIRCUITS,LEC,4,TF,8:00AM,10:05AM,Shayla Maya Sawyer,Low Center for Industrial Inn. 3051,50,28,22,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19716,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ELECTRIC CIRCUITS,LEC,4,T,4:00PM,6:25PM,TBA,Jonsson Engineering Center 4201,50,28,22,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19716,2010,01,ECSE-2010,Electric Circuits,"Techniques for the analysis and simulation of linear electric circuits and measurements of their properties. Topics include resistive and energy-storage elements, controlled sources and operational amplifiers, systematic analysis methods, AC steady state, power and three-phase systems, magnetic coupling and transformers, transients, s-plane representation and analysis, frequency response, and Laplace transform and computer-aided methods.",Prerequisites: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+PRACTICUM-COLLEGE TEACHING I,LEC,1,,,,Jianqiang Lu,TBA,10,1,9,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19766,2960,01,ECSE-2960,PRACTICUM-COLLEGE Teaching I,,,,[],[],Engineering
+PRACTICUM-COLLEGE TEACHING II,LEC,2,,,,Jianqiang Lu,TBA,10,0,10,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19750,2960,02,ECSE-2960,PRACTICUM-COLLEGE Teaching Ii,,,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Eric Fred Schubert,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19229,6980,01,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Santiago Paternain,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19944,6980,02,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-16,,,,Kyle Richard Wilt,TBA,10,0,10,ECSE,2024-05-20,2024-07-01,SUMMER 2024,19802,6980,03,ECSE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Eric Fred Schubert,TBA,50,0,50,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19212,6990,01,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,W. Randolph Franklin,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19340,6990,02,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Richard J Radke,TBA,5,0,5,ECSE,2024-07-08,2024-08-16,SUMMER 2024,19402,6990,03,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,TBA,TBA,5,0,5,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19412,6990,04,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Ishwara B Bhat,TBA,10,0,10,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19422,6990,05,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,TBA,TBA,10,0,10,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19456,6990,06,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Koushik Kar,TBA,5,0,5,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19629,6990,07,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Tong Zhang,TBA,1,0,1,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19367,6990,10,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,TBA,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19302,6990,24,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTERS THESIS,LEC,1-12,,,,Joe H Chow,TBA,25,0,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19273,6990,35,ECSE-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+ELECTRICAL ENERGY SYSTEMS,LEC,3,TF,8:30AM,10:05AM,Prabhakar Neti,Darrin Communications Center 337,75,50,25,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19722,2110,01,ECSE-2110,Electrical Energy Systems,"This course introduces the major components of today's power system such as transformers, electric machines, and transmission lines. Renewable energy sources and systems are discussed, including wind and solar energy. Integration of energy sources with the grid is addressed.",Prerequisite: ECSE 2010 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']","['ECSE 2010', 'PHYS 1200', 'PHYS 1250']",Engineering
+SIGNALS AND SYSTEMS,LEC,3,MR,10:30AM,12:05PM,Kimberly Irene Oakes,Darrin Communications Center 337,100,46,54,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19715,2410,01,ECSE-2410,Signals And Systems,"Time and frequency-domain representation of continuous- and discrete-time signals and systems. Response of linear, time-invariant systems. Convolution, Fourier series, Fourier transform, Laplace transform, and z-transform. Applications in communication, feedback control, and filtering.",Prerequisite: ECSE 2010,When Offered: Fall and spring terms annually.,['ECSE 2010'],['ECSE 2010'],Engineering
+ENGINEERING PROBABILITY,LEC,3,MR,8:30AM,10:05AM,Ali Tajer/Esra Agca Aktunc,Darrin Communications Center 337,100,55,45,ECSE,2024-05-20,2024-08-16,SUMMER 2024,19845,2500,01,ECSE-2500,Engineering Probability,"Axioms of probability, joint and conditional probability, random variables, probability density, mass, and distribution functions, functions of one and two random variables, characteristic functions, sequences of independent random variables, central limit theorem, and laws of large numbers. Applications to electrical and computer engineering problems.",Prerequisite: MATH 2400.,When Offered: Fall and spring terms annually.,['MATH 2400'],['MATH 2400'],Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,10:30AM,12:35PM,Sergei Shenogin,Low Center for Industrial Inn. 3051,65,48,17,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19514,2090,01,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400, and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,1:30PM,3:35PM,Sergei Shenogin,Low Center for Industrial Inn. 3051,70,56,14,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19513,2090,02,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400, and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+ENGINEERING DYNAMICS,LEC,4,MR,10:30AM,12:35PM,Sangwoo Lee,Pittsburgh Building 4114,50,24,26,ENGR,2024-05-20,2024-08-16,SUMMER 2024,20031,2090,03,ENGR-2090,Engineering Dynamics,"An integrated development of modeling-and problem-solving techniques for particles and rigid bodies emphasizing the use of free-body diagrams, vector algebra, and computer simulation. Topics covered include the kinematics and kinetics of translational, rotational, and general plane motion, energy and momentum methods.","Prerequisites: ENGR 1100 or ECSE 1010, MATH 2400, and PHYS 1100 or PHYS 1150.","When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']","['ENGR 1100', 'ECSE 1010', 'MATH 2400', 'PHYS 1100', 'PHYS 1150']",Engineering
+ENGINEERING ECONOMICS,LEC,3,MR,1:30PM,3:35PM,Esra Agca Aktunc,Amos Eaton Hall 215,50,24,26,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19378,4760,01,ENGR-4760,Engineering Economics,"The objective is to help engineering students recognize and understand the importance of cost factors that are inherent in all engineering decisions. Development of ability to handle engineering problems that involve economic factors. The course includes economic environment, selections in present economy, value analysis, critical path economy, interest and money-time relationships, depreciation and valuation, capital financing and budgeting, basic methods for undertaking economic studies, risk, uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk costs, the effects of income taxes in economic studies, replacement studies, minimum cost formulas, economic studies of public projects, economic studies in public utilities. Effects of inflation are considered at each step. Students cannot obtain credit for both this course and ENGR 4750.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+BUSINESS INTELLIGENCE ANALYSIS,LEC,3,,,,Rostyslav Korolov,Online ,25,11,14,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19742,6215,H01,ENGR-6215,Business Intelligence Analysis,"Students use visualization and cluster analysis tools to gain deeper insights into complex business relationships. Students apply data analytic process to real-world business problems and questions, including pricing decisions, customer analysis, competitive analysis, financial forecasts, customer decision models, organizational performance dashboards. Students tune models to represent current-state and adjust models as underlying assumptions change. Students cannot receive credit for both this course and ENGR 6205 or ENGR 6210.",Prerequisites/Corequisites: Successful completion of ENGR 6200.,,['ENGR 6200'],['ENGR 6200'],Engineering
+MATERIALS SCIENCE,LEC,4,MTRF,10:30AM,12:35PM,Ganpati Ramanath,Russell Sage Laboratory 2112,20,1,19,ENGR,2024-05-20,2024-07-01,SUMMER 2024,19364,1600,01,ENGR-1600,Materials Science,"Introduction to the scientific principles that dictate the structure and properties of engineering materials, including metals, ceramics, semiconductors, and polymers. Physical properties of materials (mechanical, electrical, thermal, optical) are discussed in terms of the underlying bonding and structure, spanning multiple length scales from atomic packing to micron scale defects, in practical engineering materials. Throughout the course, the material behaviors are understood from the viewpoint of thermodynamics and kinetics.","Prerequisite: CHEM 1100, CHEM 1110 or CHEM 1120","When Offered: Fall, spring, and summer terms annually.","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,MR,10:30AM,12:35PM,Kyle Richard Wilt,Jonsson Engineering Center 4201,55,9,46,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19718,2300,01,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+ELECTRONIC INSTRUMENTATION,LEC,4,M,1:30PM,3:35PM,TBA,Jonsson Engineering Center 4201,55,9,46,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19718,2300,01,ENGR-2300,Electronic Instrumentation,"A survey, application-oriented course for engineering and science majors. Transducers and measurement devices. DC and AC analog circuits including impedance, power, frequency response, and resonance. Diodes, transistors, and operational amplifiers. Signal conditioning, noise, and shielding. Digital electronics, A/D and D/A conversation. Power supplies, rectifiers, and electromagnetic devices.",Prerequisite: MATH 1020 and PHYS 1200 or PHYS 1250.,"When Offered: Fall, spring, and summer terms annually.","['MATH 1020', 'PHYS 1200', 'PHYS 1250']","['MATH 1020', 'PHYS 1200', 'PHYS 1250']",Engineering
+MODELING BUSINESS DECISIONS,LEC,3,,,,Rushabh S. Padalia,Online ,25,8,17,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19743,6216,H01,ENGR-6216,Modeling Business Decisions,"Working with a faculty member, students develop a big data inquiry model for a complex business issue, question, or problem of their choosing. Over the semester, the student frames the question to be analyzed, collects and prepares business data for analysis, performs the analysis, and presents actionable results and recommendations back to the organization. Students cannot receive credit for both this course and ENGR 6206 or ENGR 6211.",Prerequisites/Corequisites: Successful completion of ENGR 6215.,,['ENGR 6215'],['ENGR 6215'],Engineering
+SUSTAINABLE ENERGY SYSTEMS,LEC,4,MTRF,10:30AM,12:35PM,Matthew Adam Oehlschlaeger,Russell Sage Laboratory 4510,20,0,20,ENGR,2024-05-20,2024-07-01,SUMMER 2024,19910,4960,01,ENGR-4960,Sustainable Energy Systems,,,,[],[],Engineering
+DATA ARCHITECTURE,LEC,3,,,,Jan P. Olausson,Online ,25,4,21,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19744,6220,H01,ENGR-6220,Data Architecture,"Students design and deploy analytical systems that serve as the basis for the analysis, processing, storage, and interface of the machine learing process. Students choose learning models appropriate to the result desired using decision tree, Bayesian, neural net, and vector machine approaches. Students use multiple statistical approaches to evaluate results that lead to best results.","Completion of one of the three following certificates: (Business Intelligence (BIH), Production Analytics (PAH), or Health Analytics (HAH).",,[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,MR,8:00AM,10:05AM,Shatoya Denise Michel/Tracy N. Sullivan,Low Center for Industrial Inn. 4050,48,42,6,ENGR,2024-05-20,2024-07-01,SUMMER 2024,19349,4010,01,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+PD: LEADERSHIP COMPETENCIES,LEC,1,MR,1:30PM,3:35PM,Susan Victoria Henry/Tracy N. Sullivan,Low Center for Industrial Inn. 4050,48,47,1,ENGR,2024-07-08,2024-08-16,SUMMER 2024,19597,4010,02,ENGR-4010,PD: Leadership Competencies,"Students will study issues associated with working in teams in a modern work environment. Various styles of leadership, the definitions of power and empowerment and their applications in industry and team settings will be studied. Additionally, other topics to be explored include vision, values and attitudes, and organizational culture. The course format will include small and large group discussions, case studies, experiential exercises, and participation from industry guests.   Students may not get credit for both ENGR 4010 and MANE 4220.",Prerequisite: In conjunction with sophomore and junior courses.,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENHANCING CRITICAL THINKING,LEC,3,MTRF,1:30PM,3:35PM,Azita Hirsa,Darrin Communications Center 324,15,2,13,ENGR,2024-07-08,2024-08-16,SUMMER 2024,19969,4961,01,ENGR-4961,Enhancing Critical Thinking,,,,[],[],Engineering
+MACHINE LEARNING FRAMEWORKS,LEC,3,,,,Rushabh S. Padalia,Online ,25,2,23,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19745,6221,H01,ENGR-6221,Machine Learning Frameworks,Students develop predictive models that lead to the least likelihood of unintended variance and build natural language and recommendation engines for common applications such as enhancement engines. Students observe results and tune recommendation models to achieve more accurate predictions and recommendations.,Prerequisites/Corequisites: Successful completion of ENGR 6220.,,['ENGR 6220'],['ENGR 6220'],Engineering
+STRENGTH OF MATERIALS,LEC,4,MR,8:00AM,10:05AM,Rahmi Ozisik/Omar Osama El-Shafee,Jonsson Engineering Center 3207,30,8,22,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19489,2530,01,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+STRENGTH OF MATERIALS,LEC,4,TF,8:00AM,10:05AM,Rahmi Ozisik/Omar Osama El-Shafee,Jonsson Engineering Center 3207,30,10,20,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19450,2530,02,ENGR-2530,Strength Of Materials,"Concept of stress and strain, generalized Hooke's law, axial load, torsion, pure bending, transverse loading, transformation of stress and strain components in 2D, design of beams and shafts for strength, deflection of beams, work and energy, columns.",Prerequisite: ENGR 1100.,"When Offered: Fall, spring and summer terms annually.",['ENGR 1100'],['ENGR 1100'],Engineering
+DEEP LEARNING IN AI SYSTEMS,LEC,3,,,,Jan P. Olausson,Online ,25,5,20,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19798,6222,H01,ENGR-6222,Deep Learning In Ai Systems,"Working directly with a faculty member, students build machine learning systems that can be used as the foundation for decision-making intelligences, where learning systems transition from recommendations to decision capacities. Over the semester, the student proposes the model, develops the model, and trains the system to improve performance.",Prerequisites/Corequisites: Successful completion of ENGR 6221.,,['ENGR 6221'],['ENGR 6221'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,MR,10:30AM,12:35PM,Xun Wang,Jonsson Engineering Center 3210,50,21,29,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19203,2600,01,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,TF,10:30AM,12:35PM,Paul George Keblinski,Jonsson Engineering Center 3210,50,39,11,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19598,2600,02,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+MOD & ANALYSIS UNCERTAINTY,LEC,3,MR,1:30PM,3:35PM,Xun Wang,Jonsson Engineering Center 3210,50,34,16,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19623,2600,03,ENGR-2600,Mod & Analysis Uncertainty,"Appreciation and understanding of uncertainties and the conditions under which they occur, within the context of the engineering problem-solving pedagogy of measurements, models, validation, and analysis. Problems and concerns in obtaining measurements; tabular and graphical organization of data to minimize misinformation and maximize information; and development and evaluation of models. Concepts will be supported with computer demonstration. Applications to problems in engineering are emphasized.",Prerequisite: MATH 1010.,"When Offered: Fall, spring, and summer terms annually.",['MATH 1010'],['MATH 1010'],Engineering
+LEAN SIX SIGMA II,LEC,3,,,,Antonella Zompa,Online ,25,4,21,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19746,6231,H01,ENGR-6231,Lean Six Sigma Ii,"Building on the experience with DMAIC, students learn to identify the need for a new process, quantify its value and create it so that the quality of the results meet a predefined quality standard. To do so, the Define, Measure, Analyze, Design, Optimize, and Verify (DMADOV) is used. The first three phases of DMAIC lay the foundation, but new tools and skills are learned in the context of new process creation. These include: developing an elevator speech, data collection and statistical methods for design of experiments (DOE), root cause analysis, and developing key performance indicators (KPIs) and dashboards.",Prerequisites/Corequisites: Successful completion of ENGR 6230.,,['ENGR 6230'],['ENGR 6230'],Engineering
+INTRO TO ENGR ANALYSIS,LEC,4,MTRF,8:00AM,10:05AM,Eyosias Legesse Ashenafi,Darrin Communications Center 236,30,7,23,ENGR,2024-05-20,2024-07-01,SUMMER 2024,19299,1100,01,ENGR-1100,Intro To Engr Analysis,An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages.,,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+ENG GRAPHICS & CAD,LEC,1,MTR,10:30AM,12:35PM,Jeffrey Phillip Morris,Darrin Communications Center 239,30,5,25,ENGR,2024-05-20,2024-07-01,SUMMER 2024,19201,1200,01,ENGR-1200,Eng Graphics & Cad,"An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+DATA-DRIVEN DECISION MAKING,LEC,3,,,,John Franklin,Online ,25,7,18,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19619,6200,H01,ENGR-6200,DATA-DRIVEN Decision Making,Students frame questions and problems in forms that can be analyzed using data analytic tools. Students use data wrangling and preparation methods to prepare for analysis. Students use analytical tools to evaluate analytic models using linear/nonlinear multivariate methodologies. Students validate results and develop algorithms that can be used to make recommendations and forecasts. Students work with stakeholders to scope and frame questions and problems so that actionable results can be achieved.,,,[],[],Engineering
+ENGINEERIING PROCESSES,LEC,1,TR,1:00PM,4:20PM,John P Szczesniak,Jonsson Engineering Center 1010,12,1,11,ENGR,2024-07-08,2024-08-16,SUMMER 2024,19324,1300,01,ENGR-1300,Engineeriing Processes,"The use of basic machine tools such as lathes, milling machines, drill presses, band saws, and grinders, including micrometers, vernier calipers, and other devices of use in a machine shop or laboratory. Welding techniques and tool making are also considered.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Engineering
+INTRO ENGINEERING DESIGN,LEC,4,MR,10:30AM,12:35PM,Karthikeyan Panneerselvam/Christine M Allard,Pittsburgh Building 5216,30,25,5,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19202,2050,01,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,8:00AM,10:05AM,Tathagata Bhaduri/Judith A. Obiero,Jonsson Engineering Center 4304,30,26,4,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19496,2050,02,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,10:30AM,12:35PM,Tathagata Bhaduri/Shatoya Denise Michel,Jonsson Engineering Center 4304,30,30,0,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19535,2050,03,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN,LEC,4,TF,10:30AM,12:35PM,Prabhakar Neti/Judith A. Obiero,Jonsson Engineering Center 3207,28,16,12,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19968,2050,04,ENGR-2050,Intro Engineering Design,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,8:00AM,10:05AM,John R. LaGraff/Glen R Gross,Jonsson Engineering Center 4304,30,24,6,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19616,2050,05,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+INTRO ENGINEERING DESIGN-PILOT,LEC,4,MR,10:30AM,12:35PM,John R. LaGraff/Glen R Gross,Jonsson Engineering Center 4304,28,12,16,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19624,2050,06,ENGR-2050,Intro Engineering DESIGN-PILOT,"A first course in engineering design which emphasizes creativity, teamwork, communication, and work across engineering disciplines. Students are introduced to the design process through a semester-long project which provides a design-build-test experience. Oral and written communication are important elements of the course. The course meets with ENGR 1010.",Prerequisites: ENGR 1100 or ECSE 1010; and either CIVL 1200 or ENGR 1200 or ENGR 1400 Corequisites: PHYS 1200,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']","['ENGR 1100', 'ECSE 1010', 'ECSE 1010', 'CIVL 1200', 'CIVL 1200', 'ENGR 1200', 'ENGR 1200', 'ENGR 1400', 'ENGR 1400']",Engineering
+PRODUCTION & LOGISTIC ANALYSIS,LEC,3,,,,Don Graham,Online ,25,1,24,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19740,6205,H01,ENGR-6205,Production & Logistic Analysis,"Students use visualization and cluster analysis tools to gain deeper insights into production and logistic relationships. Students apply data analytic process to real-world production problems and questions, including evaluating production throughput, factor isolation and output risk analysis, modeling production changes, forecasting environmental control factor changes, and minimization of defects and shortages. Students tune models to represent current-state and adjust models as underlying assumptions change. Students cannot receive credit for both this course and ENGR 6210 or ENGR 6215.",Prerequisites/Corequisites: Successful completion of ENGR 6200.,,['ENGR 6200'],['ENGR 6200'],Engineering
+MODELING PRODUCTION DECISIONS,LEC,3,,,,Rushabh S. Padalia,Online ,25,4,21,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19741,6206,H01,ENGR-6206,Modeling Production Decisions,"Working with a faculty member, students develop a big data inquiry model for a production related issue, question, or problem of their choosing. Over the semester, the student frames the question to be analyzed, collects and prepares data for analysis, performs the analysis and presents actionable results and recommendations back to the organization. Students cannot receive credit for both this course and ENGR 6211 or ENGR 6216.",Prerequisites/Corequisites: Successful completion of ENGR 6205.,,['ENGR 6205'],['ENGR 6205'],Engineering
+MASTERS PROFESSIONAL PROJECT,LEC,3,,,,Michael David Hughes,Online ,10,3,7,ENGR,2024-05-20,2024-08-16,SUMMER 2024,19801,6970,H01,ENGR-6970,Masters Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,James Kilduff,TBA,25,0,25,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19300,9990,01,ENVE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,M,3:45PM,5:35PM,Christopher W Letchford,Jonsson Engineering Center 1034,16,3,13,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19847,4370,01,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,8:00AM,10:05AM,Christopher W Letchford,Jonsson Engineering Center 4309,16,3,13,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19847,4370,01,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,8:00AM,10:05AM,Christopher W Letchford,Jonsson Engineering Center 4309,16,9,7,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19848,4370,02,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,T,3:45PM,5:35PM,Christopher W Letchford,Jonsson Engineering Center 1034,16,9,7,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19848,4370,02,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,8:00AM,10:05AM,Christopher W Letchford,Jonsson Engineering Center 4309,16,3,13,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19849,4370,03,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,R,3:45PM,5:35PM,Christopher W Letchford,Jonsson Engineering Center 1034,16,3,13,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19849,4370,03,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,TF,8:00AM,10:05AM,Christopher W Letchford,Jonsson Engineering Center 4309,16,1,15,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19850,4370,04,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+APPLIED HYDROLOGY & DESIGN,LEC,4,F,3:45PM,5:35PM,Christopher W Letchford,Jonsson Engineering Center 1034,16,1,15,ENVE,2024-05-20,2024-08-16,SUMMER 2024,19850,4370,04,ENVE-4370,Applied Hydrology & Design,"This course introduces elements of applied hydrology including climate data analysis, hydrologic processes (rainfall, abstraction, evaporation, excess runoff), and catchment modelling. Applications include design of stormwater management infrastructure to promote infiltration, control peak discharge, and control receiving stream flow distribution.",Prerequisite: CIVL 2060,When Offered: Summer ARCH and Fall annually,['CIVL 2060'],['CIVL 2060'],Engineering
+DISSERTATION,LEC,1-15,,,,David Joseph Mendonca,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19532,9990,01,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Jennifer Ann Pazour,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19563,9990,05,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Kristen Rene Schell,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19630,9990,06,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Kristin P Bennett,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19755,9990,07,ISYE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+ENHANCING CRITICAL THINKING,LEC,3,MTRF,1:30PM,3:35PM,Azita Hirsa,Darrin Communications Center 324,15,3,12,ISYE,2024-07-08,2024-08-16,SUMMER 2024,19970,4961,01,ISYE-4961,Enhancing Critical Thinking,,,,[],[],Engineering
+STATISTICAL ANALYSIS,LEC,4,TF,10:30AM,12:35PM,Rostyslav Korolov,Low Center for Industrial Inn. 3130,20,2,18,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19528,4140,01,ISYE-4140,Statistical Analysis,"Review of simple and multiple regression, selection procedures, regression diagnostics, residual analysis, stepwise regression, analysis of variance, design of experiments including factorial experiments, analysis of ordinal data and nonparametric inference, basic time series models. Extensive use of statistical software. Emphasis on statistical applications to industrial engineering.",Prerequisites: ENGR 2600 or MATP 4600 and knowledge of calculus.,When Offered: Spring and summer terms annually.,"['ENGR 2600', 'MATP 4600']","['ENGR 2600', 'MATP 4600']",Engineering
+SYSTEMS MODELING IN DSES,LEC,3,MR,4:00PM,6:05PM,Esra Agca Aktunc,Amos Eaton Hall 215,20,0,20,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19855,6610,01,ISYE-6610,Systems Modeling In Dses,Survey of decision science methodologies in the context of technical and economic decision problems. The course seeks to develop a conceptual understanding of these methods and basic implementation skills. Students will learn how to apply decision science methods from problem recognition and data development through problem formulation and computer solution.,Prerequisite: ISYE 4140 or permission of instructor.,When Offered: Fall term annually.,['ISYE 4140'],['ISYE 4140'],Engineering
+ENGR PROJ MANAGEMENT,LEC,3,TF,1:30PM,3:35PM,Rostyslav Korolov,Low Center for Industrial Inn. 3130,20,13,7,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19570,4240,01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
+ENGR PROJ MANAGEMENT,LEC,3,,,,Trevor Caskey,Online ,25,4,21,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19553,4240,H01,ISYE-4240,Engr Proj Management,"Planning, controlling, and evaluating engineering projects. Use of network analysis techniques, PERT/CPM, budget control, time/cost tradeoff, time estimation, resource allocation, and resource leveling. Extensions include probabilistic models, multiple resource models, project organization, risk analysis, technical forecasting, and network theory.",,When Offered: Upon availability of instructor.,[],[],Engineering
+OPERATIONS RESEARCH METHOD,LEC,4,MR,4:00PM,6:05PM,Esra Agca Aktunc,Amos Eaton Hall 215,20,15,5,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19529,4600,01,ISYE-4600,Operations Research Method,"An introduction to commonly used methods of deterministic and stochastic operations research. Topics include linear programming, simplex algorithms, duality, linear networks, integer programming, dynamic programming, goa1 programming, location models, exact and heuristic solution procedures for integer and sequencing problems, queuing theory, Markov chains, multi-criteria decision making, and decision analysis.",Prerequisites: ENGR 2600 and MATH 1020.,When Offered: Summer and fall terms annually.,"['ENGR 2600', 'MATH 1020']","['ENGR 2600', 'MATH 1020']",Engineering
+THEORY OF PROD SCHEDULE,LEC,3,,,,David Joseph Stec,Online ,25,10,15,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19747,6210,H01,ISYE-6210,Theory Of Prod Schedule,"Problems of scheduling several tasks over time. Topics include measures of performance, single machine sequencing, flowshop scheduling, the job shop problem, and priority dispatching. Integer programming, dynamic programming, and heuristic approaches to various problems are also presented.",Prerequisite: introductory course in operations research.,When Offered: Upon sufficient demand.,[],[],Engineering
+MASTERS PROJECT,LEC,3,,,,Yinan Wang,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19571,6980,01,ISYE-6980,Masters Project,"Active participation in a master's-level project under the supervision of a faculty adviser, leading to a master's project report. Grades of IP are assigned until the master's project has been approved by the faculty adviser. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the Library. Grades will then be listed as S.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,David Joseph Mendonca,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19555,6990,02,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-9,,,,Jennifer Ann Pazour,TBA,10,0,10,ISYE,2024-05-20,2024-08-16,SUMMER 2024,19562,6990,06,ISYE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+HEAT TRANSFER,LEC,3,TF,10:30AM,12:50PM,Theodorian Borca-Tasciuc/Diana Andra Borca Tasciuc,Darrin Communications Center 318,55,43,12,MANE,2024-05-20,2024-08-16,SUMMER 2024,19622,4730,01,MANE-4730,Heat Transfer,"Comprehensive treatment of conduction, convection (including boiling and condensation), and radiation heat transfer. Thermal system design and performance (including heat exchangers). Emphasis is on physical and mathematical modeling of engineering systems for application of modern analytical and computational solution methods.",Prerequisite: MANE 2710,"When Offered: Fall, spring and summer terms annually.",['MANE 2710'],['MANE 2710'],Engineering
+MODELING AND CONTRL OF DYN SYS,LEC,3,MR,10:30AM,12:35PM,Luiz Victor Repolho Cagliari,Low Center for Industrial Inn. 3039,42,21,21,MANE,2024-05-20,2024-08-16,SUMMER 2024,19621,4500,01,MANE-4500,Modeling And Contrl Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+MODELING AND CONTRL OF DYN SYS,LEC,3,MR,1:30PM,3:35PM,Luiz Victor Repolho Cagliari,Low Center for Industrial Inn. 3039,42,25,17,MANE,2024-05-20,2024-08-16,SUMMER 2024,19727,4500,02,MANE-4500,Modeling And Contrl Of Dyn Sys,"Introduction to modeling, analysis, and control of dynamic systems. Modeling of mechanical, electrical, and electromechanical systems. Time-domain and Laplace-Transform solutions. Block diagrams and transfer functions. Analysis and design of feedback control systems. Control system representation and characteristics. System performance specifications. Absolute stability criteria. Root-Locus and frequency response analysis and design methods. Systems compensation and controller design.",Prerequisites: MATH 2400 and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'PHYS 1200', 'PHYS 1250']","['MATH 2400', 'PHYS 1200', 'PHYS 1250']",Engineering
+SUSTAINABLE ENERGY SYSTEMS,LEC,4,MTRF,10:30AM,12:35PM,Matthew Adam Oehlschlaeger,Russell Sage Laboratory 4510,20,3,17,MANE,2024-05-20,2024-07-01,SUMMER 2024,19865,4960,01,MANE-4960,Sustainable Energy Systems,,,When Offered: Upon sufficient demand.,[],[],Engineering
+MASTER'S PROFESSIONAL PROJECT,LEC,3,,,,Francisco J Cunha,Online ,25,2,23,MANE,2024-05-20,2024-08-16,SUMMER 2024,19516,6970,H01,MANE-6970,MASTER'S Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A,B,C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+MASTER'S PROFESSIONAL PROJECT,LEC,3,,,,Ernesto Gutierrez-Miravete,Online ,25,9,16,MANE,2024-05-20,2024-08-16,SUMMER 2024,19538,6970,H02,MANE-6970,MASTER'S Professional Project,"Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Office of Graduate Education and are not archived in the library. Grades of A,B,C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.",,,[],[],Engineering
+ELEMENTS OF MECH DESIGN,LEC,4,TF,8:00AM,10:05AM,M Arshad Zahangir Chowdhury,Low Center for Industrial Inn. 4050,75,60,15,MANE,2024-05-20,2024-08-16,SUMMER 2024,19531,4030,01,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
+ELEMENTS OF MECH DESIGN,LEC,4,TF,10:30AM,12:35PM,M Arshad Zahangir Chowdhury,Low Center for Industrial Inn. 4050,61,33,28,MANE,2024-05-20,2024-08-16,SUMMER 2024,19852,4030,02,MANE-4030,Elements Of Mech Design,"Introduction to the design of mechanical components and integrated assemblies. Loads, stresses, and strains. Failure phenomena and material selection. Mechanical components including shafts, couplings, bearings, gears, springs, clutches, brakes, screws and fasteners, and bonded joints.",Prerequisites: MATH 2400 and (ENGR 2530 or BMED 2540 ).,"When Offered: Fall, spring, and summer terms annually.","['MATH 2400', 'ENGR 2530', 'BMED 2540']","['MATH 2400', 'ENGR 2530', 'BMED 2540']",Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19625,6980,01,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19362,6980,02,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19762,6980,03,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-9,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19947,6980,04,MANE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19259,6990,01,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-12,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19361,6990,02,MANE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+AEROSPACE STRUC & MATERIALS,LEC,4,TF,8:00AM,10:05AM,Ali Shahsavari,Jonsson Engineering Center 5119,50,34,16,MANE,2024-05-20,2024-08-16,SUMMER 2024,19853,4060,01,MANE-4060,Aerospace Struc & Materials,"Beam structures under combined shear, bending, and torsional loads. Semi-monocoque structures: idealizations involving wings, ribs, and fuselage bulkheads. Effects of taper and cutouts in stiffened shell structures, shear deformations and warping, location of elastic axis in open and closed sections, torsion of multicell sections. Stability of beam and membrane elements. Introduction to materials used in aerospace vehicles including metals, ceramics, and composites with special emphasis on fiber-reinforced composite materials. Methods for material analysis and selection for various aerospace components.",Prerequisites/Corequisites: ENGR 2530,"When Offered: Fall, spring, and summer terms annually.",['ENGR 2530'],['ENGR 2530'],Engineering
+AEROSPACE STRUC & MATERIALS,LEC,4,TF,10:30AM,12:35PM,Ali Shahsavari,Jonsson Engineering Center 5119,50,35,15,MANE,2024-05-20,2024-08-16,SUMMER 2024,20023,4060,02,MANE-4060,Aerospace Struc & Materials,"Beam structures under combined shear, bending, and torsional loads. Semi-monocoque structures: idealizations involving wings, ribs, and fuselage bulkheads. Effects of taper and cutouts in stiffened shell structures, shear deformations and warping, location of elastic axis in open and closed sections, torsion of multicell sections. Stability of beam and membrane elements. Introduction to materials used in aerospace vehicles including metals, ceramics, and composites with special emphasis on fiber-reinforced composite materials. Methods for material analysis and selection for various aerospace components.",Prerequisites/Corequisites: ENGR 2530,"When Offered: Fall, spring, and summer terms annually.",['ENGR 2530'],['ENGR 2530'],Engineering
+AERODYNAMICS,LEC,4,MR,8:00AM,10:05AM,Kevin Wayne Housley,Carnegie Building 113,65,44,21,MANE,2024-05-20,2024-08-16,SUMMER 2024,19526,4070,01,MANE-4070,Aerodynamics,"Introduction to fixed-wing flight mechanics. Lift generation, thin-airfoil, and wing theories. Boundary layers and applications to wings. One and two-dimensional compressible flow and applications to aircraft and rocket engines.",Prerequisites: MANE 2710 and MANE 2720,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
+AERODYNAMICS,LEC,4,MR,10:30AM,12:35PM,Kevin Wayne Housley,Carnegie Building 113,50,29,21,MANE,2024-05-20,2024-08-16,SUMMER 2024,19728,4070,02,MANE-4070,Aerodynamics,"Introduction to fixed-wing flight mechanics. Lift generation, thin-airfoil, and wing theories. Boundary layers and applications to wings. One and two-dimensional compressible flow and applications to aircraft and rocket engines.",Prerequisites: MANE 2710 and MANE 2720,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
+ADV COMPUTNL FLUID DYNAMICS,LEC,3,,,,Francisco J Cunha,Online ,25,2,23,MANE,2024-05-20,2024-08-16,SUMMER 2024,19731,6720,H01,MANE-6720,Adv Computnl Fluid Dynamics,"Course focuses on computational approaches to solve the Navier-Stokes equations. Course assumes knowledge of numerical methods and therefore directly attacks the obstacles to applying these methods to the Navier-Stokes equations. Issues concerning implementation of finite difference methods (FDM), finite volume methods (FVM) and finite element methods (FEM) will be discussed. These issues include: the discrete formulation, nonlinear equation iterator (steady)/marcher (time-accurate), linear equation formation, boundary condition prescription, and linear equation solution.",Prerequisites: MANE 6660/ CIVL 6660.,When Offered: Upon sufficient demand.,"['MANE 6660', 'CIVL 6660']","['MANE 6660', 'CIVL 6660']",Engineering
+PROPULSION SYSTEMS,LEC,3,MTRF,1:30PM,3:20PM,Matthew Adam Oehlschlaeger,Russell Sage Laboratory 4510,25,12,13,MANE,2024-05-20,2024-07-01,SUMMER 2024,19617,4080,01,MANE-4080,Propulsion Systems,"Analysis of thrust generation from rockets, gas turbines, and propellers. Applications of one- and two-dimensional compressible flow to analysis of propulsion systems. Gas turbine component performance including diffusers and nozzles, turbomachinery, and combustors.",Prerequisites: MANE 2710 and MANE 2720; or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['MANE 2710', 'MANE 2720']","['MANE 2710', 'MANE 2720']",Engineering
+INTRO TO FINITE ELEMENTS,LEC,3,MTRF,1:30PM,3:35PM,Kartik Josyula,Walker Laboratory 6113,30,19,11,MANE,2024-07-08,2024-08-16,SUMMER 2024,19596,4240,01,MANE-4240,Intro To Finite Elements,"An introductory course in the use of finite element methods for the solution of practical problems in engineering. The course focuses on the concepts of model generation, finite element discretization, numerical integration, computational solution, and verification. Students will be exposed to the use of commercial finite element software.",Prerequisites: ENGR 2530 or BMED 2540.,"When Offered: Fall, spring and summer terms annually.","['ENGR 2530', 'BMED 2540']","['ENGR 2530', 'BMED 2540']",Engineering
+INVENTOR'S STUDIO 1,LEC,4,TF,10:30AM,12:35PM,Clinton T. Ballinger/Jordan L Vener,Pittsburgh Building 4114,28,28,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19720,2220,01,MANE-2220,INVENTOR'S Studio 1,"A first course in enhancing critical skills for leaders of technological innovation. The course emphasizes creativity, teamwork, communication and work across engineering disciplines. Students learn how to build on personal and innate talents through critical thinking skills, design-oriented mindsets, and an understanding of appropriate tool and process selection. Students will utilize tools and processes for ideation and innovation, develop ideas from concepts to minimum viable products via the ideate - build - learn cycle, and recognize and understand prototyping methods.",Prerequisites: (ENGR 1100 or ECSE 1010 ) and (ENGR 1200 or ENGR 1400 or CIVL 1200 ) and (PHYS 1200 or PHYS 1250 ).,"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']","['ENGR 1100', 'ECSE 1010', 'ENGR 1200', 'ENGR 1400', 'CIVL 1200', 'PHYS 1200', 'PHYS 1250']",Engineering
+MANE LABORATORY SAFETY PROGRAM,LEC,0,,,,Thomas Clark Haley,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19854,4880,01,MANE-4880,Mane Laboratory Safety Program,,,,[],[],Engineering
+MECHANICS OF SOLIDS,LEC,3,,,,Ernesto Gutierrez-Miravete,Online ,25,8,17,MANE,2024-05-20,2024-08-16,SUMMER 2024,19739,6170,H01,MANE-6170,Mechanics Of Solids,"This course provides an introduction to the mechanics of solids from a continuum perspective. Topics covered in this course include: vector and tensor analysis, coordinate systems and calculus in curvilinear coordinate systems, kinematics (motion, deformation and strain), stress and momentum balance, energy principles and balance laws, linear isotropic and anisotropic elasticity, thermoelasticity, method of solutions for 2D and 3D linear elastic boundary value problems, applications to simple structures.",,When Offered: Fall term annually.,[],[],Engineering
+DISSERTATION,LEC,1-16,,,,TBA,TBA,0,0,0,MANE,2024-05-20,2024-08-16,SUMMER 2024,19317,9990,01,MANE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+FLUID MECHANICS,LEC,3,MR,8:00AM,10:05AM,Corey Christopher Woodcock,Troy Building 2018,65,52,13,MANE,2024-05-20,2024-08-16,SUMMER 2024,19595,2720,01,MANE-2720,Fluid Mechanics,"The fundamentals of fluid statics and dynamics. Hydrostatics, fluid flow fields, control-volume analysis, and the Navier-Stokes equations. Inviscid, viscous, and turbulent flows. Similitude, boundary layers, internal and external flows.",Prerequisites: ENGR 1100 Introduction to Engineering Analysis and (PHYS 1100 or PHYS 1150 Physics I) and MATH 2010 * and MATH 2400 *. (*can also be taken simultaneously),"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']",Engineering
+FLUID MECHANICS,LEC,3,MR,10:30AM,12:35PM,Corey Christopher Woodcock,Troy Building 2018,50,30,20,MANE,2024-05-20,2024-08-16,SUMMER 2024,19719,2720,02,MANE-2720,Fluid Mechanics,"The fundamentals of fluid statics and dynamics. Hydrostatics, fluid flow fields, control-volume analysis, and the Navier-Stokes equations. Inviscid, viscous, and turbulent flows. Similitude, boundary layers, internal and external flows.",Prerequisites: ENGR 1100 Introduction to Engineering Analysis and (PHYS 1100 or PHYS 1150 Physics I) and MATH 2010 * and MATH 2400 *. (*can also be taken simultaneously),"When Offered: Fall, spring, and summer terms annually.","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']","['ENGR 1100', 'PHYS 1100', 'PHYS 1150', 'MATH 2010', 'MATH 2400']",Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Rahmi Ozisik,TBA,10,0,10,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19224,6980,01,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Edmund Francis Palermo,TBA,25,0,25,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19275,6980,02,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S PROJECT,LEC,1-12,,,,Robert Hull,TBA,5,0,5,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19413,6980,03,MTLE-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Edmund Francis Palermo,TBA,10,0,10,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19210,6990,01,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,David J Duquette,TBA,25,0,25,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19276,6990,02,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Robert Hull,TBA,5,0,5,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19411,6990,03,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,TBA,TBA,5,0,5,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19373,6990,04,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MASTER'S THESIS,LEC,1-15,,,,Daniel Gall,TBA,25,0,25,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19261,6990,05,MTLE-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Engineering
+MATERIALS LABORATORY SKILLS,LEC,1,M,1:30PM,5:30PM,Daniel J. Lewis,Materials Research Center 136,8,6,2,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19773,2500,01,MTLE-2500,Materials Laboratory Skills,"Introduction to some experimental methods used to fabricate and measure the structure and properties of materials. Thermal and mechanical processing and properties are emphasized. Specimen preparation, examination by light optical microscopy, report writing, and measurement systems analysis are covered.",,When Offered: Summer term annually.,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Rahmi Ozisik,TBA,10,0,10,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19223,9990,02,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,David J Duquette,TBA,25,0,25,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19271,9990,03,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,Daniel Gall,TBA,5,0,5,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19351,9990,04,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+DISSERTATION,LEC,1-15,,,,TBA,TBA,5,0,5,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19372,9990,09,MTLE-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library..",,,[],[],Engineering
+MECHANICAL PROPERTIES OF MATERIALS,LEC,4,MR,10:30AM,12:35PM,Rahmi Ozisik,Materials Research Center 136,10,7,3,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19774,4250,01,MTLE-4250,Mechanical Properties Of Materials,"This is a required departmental course, but is also appropriate for biomedical engineers and other engineering disciplines as an elective. This course teaches the mechanical properties of metals, ceramics, and polymers from both the macroscopic and atomistic or micromechanical viewpoints. An introduction to three-dimensional stresses and strains. Elastic behavior, plastic behavior, strengthening mechanisms, fracture, creep, and fatigue are all addressed. Includes laboratory component.","Prerequisites: ENGR 1600, MTLE 2100.",When Offered: Summer Arch term annually.,"['ENGR 1600', 'MTLE 2100']","['ENGR 1600', 'MTLE 2100']",Engineering
+MECHANICAL PROPERTIES OF MATERIALS,LEC,4,R,1:30PM,5:30PM,TBA,Materials Research Center 136,10,7,3,MTLE,2024-05-20,2024-08-16,SUMMER 2024,19774,4250,01,MTLE-4250,Mechanical Properties Of Materials,"This is a required departmental course, but is also appropriate for biomedical engineers and other engineering disciplines as an elective. This course teaches the mechanical properties of metals, ceramics, and polymers from both the macroscopic and atomistic or micromechanical viewpoints. An introduction to three-dimensional stresses and strains. Elastic behavior, plastic behavior, strengthening mechanisms, fracture, creep, and fatigue are all addressed. Includes laboratory component.","Prerequisites: ENGR 1600, MTLE 2100.",When Offered: Summer Arch term annually.,"['ENGR 1600', 'MTLE 2100']","['ENGR 1600', 'MTLE 2100']",Engineering
+POPULAR MUSIC AND SOCIETY,LEC,4,MR,8:00AM,10:05AM,Kathleen A. Galloway,West Hall 112,19,19,0,ARTS,2024-05-20,2024-08-16,SUMMER 2024,20008,2550,01,ARTS-2550,Popular Music And Society,"This topics-based course examines popular music in society, considering the ways it may express identities, motivate political movements, and function within various economic, mediated, and technological environments. This course explores popular music representing diverse genres (country, hip hop, EDM, Top 40) as it relates to social life, the intersections of race, gender, class, and sexuality, and media and technology.",,When Offered: spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+GAME SOUND & MUSICAL PLAY,LEC,4,MR,10:30AM,12:35PM,Kathleen A. Galloway,West Hall 112,19,11,8,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19936,2560,01,ARTS-2560,Game Sound & Musical Play,"What makes play musical and music playful? How does game sound and music contribute to gameworld creation, gameplay, and virtual performance? Ludomusicology-the relation of music to play-addresses these questions and challenges us to take play seriously. This course considers the diverse relationships among music, play, media, and performance, including game sound, music-stylistic features of game consoles and systems, children's games, remixing and sampling, the role musical games play in cultural identity, and more.",,When Offered: summer term annually,[],[],"Humanities, Arts, and Social Sciences"
+SCULPTURE I,LEC,4,MTRF,1:00PM,3:05PM,Igor Vamos,TBA,15,9,6,ARTS,2024-05-20,2024-07-01,SUMMER 2024,19988,2210,01,ARTS-2210,Sculpture I,A beginning sculpture course combining hands-on studio work sessions with lectures on the history and theory of sculpture practice. The studio component involves explorations of materials and techniques as tools for the enhancing of visual sensitivity and creative expression.,,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+3D DIGITAL MODELING,LEC,4,TF,1:30PM,3:35PM,Benjamin Chia-Ming Chang,Russell Sage Laboratory 2411,19,21,-2,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19974,2230,01,ARTS-2230,3D Digital Modeling,"A foundational course in concepts and techniques in digital 3D, for animation, games, and digital art. This course focuses on methods and aesthetics in creating digital 3D objects, spaces, and characters, including modeling, texturing, and lighting, as preparation for further courses in the 3D Animation curriculum.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOUND RECORDING & PROD I,LEC,4,MTRF,1:00PM,3:00PM,Ross A. Rice,Darrin Communications Center 174,12,10,2,ARTS,2024-05-20,2024-07-01,SUMMER 2024,20038,2700,01,ARTS-2700,Sound Recording & Prod I,"An introductory studio course covering the principles of critical listening, psychoacoustics, the art of music recording, and the basic use of digital equipment for music production and post-production. Hands-on assignments in a professional sound facility will be combined with readings and historical examples drawing on popular and experimental styles.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: VIOLIN,LEC,1,,,,Jamecyn F. Morey,TBA,10,5,5,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19732,2750,01,ARTS-2750,Private Music LESSONS: Violin,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: VIOLA,LEC,1,,,,Jamecyn F. Morey,TBA,10,0,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19733,2750,02,ARTS-2750,Private Music LESSONS: Viola,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: FLUTE,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,6,1,5,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19734,2750,03,ARTS-2750,Private Music LESSONS: Flute,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: OBOE,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,6,0,6,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19735,2750,04,ARTS-2750,Private Music LESSONS: Oboe,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS:CLARINET,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,6,2,4,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19736,2750,05,ARTS-2750,Private Music LESSONS:CLARINET,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: SAX,LEC,1,,,,Thomas J. Gerbino/Christopher James Fisher-Lochhead,TBA,6,0,6,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19737,2750,06,ARTS-2750,Private Music LESSONS: Sax,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: VOICE,LEC,1,,,,Katherine Anne Skovira/Christopher James Fisher-Lochhead,TBA,20,5,15,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19738,2750,07,ARTS-2750,Private Music LESSONS: Voice,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: GUITAR,LEC,1,,,,Paul J. Quigley,West Hall ,12,2,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19794,2750,08,ARTS-2750,Private Music LESSONS: Guitar,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: CELLO,LEC,1,,,,David Bebe,TBA,10,0,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19918,2750,09,ARTS-2750,Private Music LESSONS: Cello,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PIANO,LEC,1,,,,Jingwen Tu,TBA,6,5,1,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19919,2750,10,ARTS-2750,Private Music LESSONS: Piano,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: EUPHONI,LEC,1,,,,Michael David Blostein,TBA,10,0,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19920,2750,11,ARTS-2750,Private Music LESSONS: Euphoni,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: TUBA,LEC,1,,,,Michael David Blostein,TBA,10,0,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19921,2750,12,ARTS-2750,Private Music LESSONS: Tuba,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: TROMBON,LEC,1,,,,Michael David Blostein,TBA,10,0,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19922,2750,13,ARTS-2750,Private Music LESSONS: Trombon,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: PERCSSN,LEC,1,,,,Mark Foster,TBA,12,1,11,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19923,2750,14,ARTS-2750,Private Music LESSONS: Percssn,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: BASS,LEC,1,,,,Evan Tyler Runyon,TBA,12,1,11,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19924,2750,15,ARTS-2750,Private Music LESSONS: Bass,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+PRIVATE MUSIC LESSONS: TRUMPET,LEC,1,,,,Omar Williams,TBA,10,0,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,20026,2750,17,ARTS-2750,Private Music LESSONS: Trumpet,Private applied music lessons provide weekly instruction in instrumental and vocal performance. The goal of this class is to develop the student's musical ability relative to capacity and interest. A supplementary lesson fee is charged.,"Students may begin lessons at any level of ability, but auditions may be required where demand for a particular instrument exceeds class capacity.","When Offered: Fall, spring, and summer terms annually.",[],[],"Humanities, Arts, and Social Sciences"
+ART & CODE & INTERACTIVITY ARTS,LEC,4,MR,10:30AM,12:35PM,Yiyuan Zeng,Russell Sage Laboratory 2411,19,9,10,ARTS,2024-05-20,2024-08-16,SUMMER 2024,19975,4090,01,ARTS-4090,Art & Code & Interactivity Arts,"This course is primarily concerned with learning how to build any interactive experience or artwork from concept to completion. It will introduce open-source, cross-platform programming libraries and tools used by artists and programmers to create interactive experiences and artworks for museum installations, festivals, VJ-ing, projection mapping, interactive experiences/artworks, and more. It will then start to address the questions: Is code an art form? What is interactive art? Is software art?",Prerequisite: ARTS 1020 or permission of instructor,When Offered: Upon availability of instructor.,['ARTS 1020'],['ARTS 1020'],"Humanities, Arts, and Social Sciences"
+COMM THEORY & PRACTICE,LEC,4,MTRF,1:30PM,3:35PM,Weina Ran,Russell Sage Laboratory 4711,19,16,3,COMM,2024-05-20,2024-07-01,SUMMER 2024,19833,2520,01,COMM-2520,Comm Theory & Practice,"This course introduces students to basic topics in communication theory and research. It includes topics in interpersonal, group, organizational, mediated, and mass communication. Students will study and apply theories to real world situations and events and explore the social and cultural impact of new media technology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SUPERHEROES IN THE CLASSROOM,LEC,4,MTRF,10:30AM,12:35PM,Christopher C. Jeansonne,Russell Sage Laboratory 3205,19,14,5,COMM,2024-05-20,2024-07-01,SUMMER 2024,19992,2616,01,COMM-2616,Superheroes In The Classroom,"This course engages students with the transmedial genre of superheroes, which has become one the most influential genres in film, television, video games, toys, and of course comics-not to mention the cultural artifacts that are associated with its iconography. Through an examination of the genre's origins and history, its economic and aesthetic aspects, and the ideological issues that surround its narratives-including representational dynamics of race, class, gender, sexuality and other vectors of identity-students in this course will become more critically aware consumers of popular culture media.",,When Offered: summer term annually,[],[],"Humanities, Arts, and Social Sciences"
+HEALTH COMM IN PRACTICE,LEC,4,MTRF,4:00PM,6:05PM,Weina Ran,Russell Sage Laboratory 4711,19,9,10,COMM,2024-05-20,2024-07-01,SUMMER 2024,20003,4288,01,COMM-4288,Health Comm In Practice,"This course is designed to provide students with a comprehensive overview of major theories, research, and practice in health communication. Upon completing this course, students will have a broad understanding of health communication and specialized knowledge in an area of interest: patient-provider communication, health-information seeking, media/health literacy and health disparities, and health communication campaigns.",Prerequisite: COMM 2520 or COMM 2660 or WRIT 1110 or WRIT 2110; or permission of the instructor,When Offered: Fall Semester Annually,"['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","['COMM 2520', 'COMM 2660', 'WRIT 1110', 'WRIT 2110']","Humanities, Arts, and Social Sciences"
+INTRODUCTION TO GRAPHIC DESIGN,LEC,4,MTRF,8:00AM,10:05AM,Benjamin David Gleeksman,Russell Sage Laboratory 2411,19,17,2,COMM,2024-05-20,2024-07-01,SUMMER 2024,19991,2660,01,COMM-2660,Introduction To Graphic Design,"This course introduces students to the practice of graphic design with a variety of hands-on projects. Studies include the principles and theories of 2D design and the integration of form, color, type, image, and content. Students will develop a heightened visual awareness and an understanding of how design influences meaning. The course emphasizes strategic and critical thinking in the solving of graphic design problems for the purposes of professional communication across a range of media platforms.",,When Offered: Fall and spring terms annually,[],[],"Humanities, Arts, and Social Sciences"
+INTERACTIVE DATA VISUALIZATION,LEC,3,MTR,4:00PM,6:50PM,Patricia Search,Russell Sage Laboratory 4510,5,2,3,COMM,2024-05-20,2024-07-01,SUMMER 2024,19512,6880,01,COMM-6880,Interactive Data Visualization,"This course covers interactive, multimedia interface design (for Web sites and apps) for data visualization or other forms of interactive information design. Innovative designs that explore new directions in interactive data design are highlighted. Topics include multisensory information design using graphics, sound, touch, and large-scale data projection. Interface design topics include user-centered design, information architecture, rapid prototyping, cross-cultural design, and intellectual property. Students may choose the applications they want to design for the class project.",Graduate standing.,When Offered: Summer term annually.,[],[],"Humanities, Arts, and Social Sciences"
+LEADERSHIP AND CREATIVITY,LEC,4,MTRF,1:30PM,3:35PM,Skye Anicca,Low Center for Industrial Inn. 4040,19,4,15,COMM,2024-05-20,2024-07-01,SUMMER 2024,19993,2960,01,COMM-2960,Leadership And Creativity,Experimental courses tried out in one or two terms.,,,[],[],"Humanities, Arts, and Social Sciences"
+SOCIAL MEDIA AND SOCIETY,LEC,4,MTRF,4:00PM,6:05PM,Leah Corinne Jones,Low Center for Industrial Inn. 3045,19,12,7,COMM,2024-05-20,2024-07-01,SUMMER 2024,19994,2961,01,COMM-2961,Social Media And Society,,,,[],[],"Humanities, Arts, and Social Sciences"
+LANGUAGE AND SOCIETY,LEC,4,MTRF,4:00PM,6:05PM,Anita Kay Greenfield,Russell Sage Laboratory 2112,19,17,2,COMM,2024-07-08,2024-08-16,SUMMER 2024,20000,2962,01,COMM-2962,Language And Society,,,,[],[],"Humanities, Arts, and Social Sciences"
+INTERACTIVE DATA VISUALIZATION,LEC,4,MTR,4:00PM,6:50PM,Patricia Search,Russell Sage Laboratory 4510,15,12,3,COMM,2024-05-20,2024-07-01,SUMMER 2024,19511,4880,01,COMM-4880,Interactive Data Visualization,"The course covers interactive, multimedia interface design (for Web sites and apps) for data visualization or other forms of interactive information design. Innovative designs that explore new directions in interactive data design are highlighted. Topics include multisensory information design using graphics, sound, touch, and large-scale data projection. Interface design topics include user-centered design, information architecture, rapid prototyping, cross-cultural design, and intellectual property. Students may choose the applications they want to design for the class project.",Prerequisites: CSCI 1100 or permission of the instructor.,When Offered: Summer term annually.,['CSCI 1100'],['CSCI 1100'],"Humanities, Arts, and Social Sciences"
+DOCUMENTARY FILM,LEC,4,MTRF,3:30PM,5:35PM,Tamar Gordon,Troy Building 2015,25,7,18,COMM,2024-05-20,2024-07-01,SUMMER 2024,19990,2440,01,COMM-2440,Documentary Film,"Does documentary film depict reality or is it just another form of storytelling? This course takes a broad, historical look at documentary media, exposing students to a wide range of works that in some sense stand on claims to truth. Students are invited to develop a critical stance toward documentary modes of social representation, through viewing and analyzing colonial photography and cinema, ethnographic, propaganda, cinema verite, experimental, and even ""fake"" documentaries.",,When Offered: Spring term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOCIAL MEDIA: EAST & WEST,LEC,4,MTRF,1:30PM,3:35PM,Yalun Zhou,Pittsburgh Building 5114,19,16,3,COMM,2024-07-08,2024-08-16,SUMMER 2024,19938,4535,01,COMM-4535,Social MEDIA: East & West,"This course provides students a venue to explore the different uses of Eastern and Western social media for socializing, entertaining, publicizing, and marketing. Students explore how media and mediated communication affect people and society, and develop critical perspectives of the diversity of mediated messages across cultures. The course also looks at the variability and cross-cultural encounters built on students' own everyday observations. The course is taught in English and requires no Chinese language proficiency.",,When Offered: Summer term annually,[],[],"Humanities, Arts, and Social Sciences"
+DIALOGUE FACILITATION  METHODS,LEC,4,MR,10:30AM,12:35PM,Alicia Ann Walf/Amy Corron Youmans,Low Center for Industrial Inn. 4040,19,3,16,IHSS,2024-05-20,2024-08-16,SUMMER 2024,19982,2960,01,IHSS-2960,Dialogue Facilitation Methods,,,,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE I,LEC,4,MTRF,1:30PM,3:35PM,Jianling Yue,Russell Sage Laboratory 3205,19,9,10,LANG,2024-05-20,2024-07-01,SUMMER 2024,19834,1410,01,LANG-1410,Chinese I,"This course assumes no previous knowledge of the subject. The course is designed to provide students with fundamental skills in listening, speaking, reading, and writing Mandarin Chinese. Oral and aural skills will be emphasized. Background on Chinese culture will be introduced as an element of the course. For entry level, non-native speakers only.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE LANG & CULTURE IN FILM,LEC,4,MTRF,4:00PM,6:05PM,Jianling Yue,Russell Sage Laboratory 3205,19,8,11,LANG,2024-05-20,2024-07-01,SUMMER 2024,19611,4961,01,LANG-4961,Chinese Lang & Culture In Film,,,,[],[],"Humanities, Arts, and Social Sciences"
+CHINESE CALLIGRAPHY,LEC,4,MTRF,4:00PM,6:05PM,Yalun Zhou,Pittsburgh Building 5114,19,16,3,LANG,2024-07-08,2024-08-16,SUMMER 2024,19976,4455,01,LANG-4455,Chinese Calligraphy,"This course introduces students to the techniques and socio-cultural significance of Chinese calligraphy as they explore its history, aesthetics, and practice. Students will gain hands-on practice with brush and ink, developing fundamental calligraphic skills as they analyze historical and contemporary examples of the art from both cultural studies and artistic perspectives. Finally, they will learn about the wellness benefits of calligraphic practice, including improved mental health, concentration, posture, and spiritual calmness. Taught in English, this course requires no prior knowledge of Chinese.","Prerequisites/Corequisites: INQR 1492, LANG 1410, or LANG 2410",When Offered: Summer term annually,"['INQR 1492', 'LANG 1410', 'LANG 2410']","['INQR 1492', 'LANG 1410', 'LANG 2410']","Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,MTRF,10:30AM,12:35PM,Susan Lynn Smith,Greene Building 120,25,6,19,PHIL,2024-05-20,2024-07-01,SUMMER 2024,19729,4500,01,PHIL-4500,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: STSO 2510, STSO 2520, STSO 2700, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Fall and spring term annually.,"['STSO 2520', 'STSO 2700', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2700', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+PHILOSOPHY OF SCIENCE,LEC,4,MTRF,1:30PM,3:35PM,John R Milanese,Folsom Library 107,19,20,-1,PHIL,2024-07-08,2024-08-16,SUMMER 2024,19835,4130,01,PHIL-4130,Philosophy Of Science,"How does science stimulate philosophical thinking and how has philosophy influenced science? This broad range of interaction is studied with special attention given to the concepts of theory, observation, and scientific method. Special attention is given to issues basic to psychology, in particular, reductionism, behaviorism, functionalism, and cognitivism.",,When Offered: Spring term odd-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+PHILOSOPHY OF SCIENCE,LEC,4,MTRF,4:00PM,6:05PM,John R Milanese,Folsom Library 107,19,25,-6,PHIL,2024-07-08,2024-08-16,SUMMER 2024,19836,4130,02,PHIL-4130,Philosophy Of Science,"How does science stimulate philosophical thinking and how has philosophy influenced science? This broad range of interaction is studied with special attention given to the concepts of theory, observation, and scientific method. Special attention is given to issues basic to psychology, in particular, reductionism, behaviorism, functionalism, and cognitivism.",,When Offered: Spring term odd-numbered years.,[],[],"Humanities, Arts, and Social Sciences"
+INTRODUCTION TO LOGIC,LEC,4,MTRF,8:00AM,10:05AM,Bram Van Heuveln,Academy Hall AUD,40,38,2,PHIL,2024-05-20,2024-07-01,SUMMER 2024,19235,2140,01,PHIL-2140,Introduction To Logic,"Introduction to first-order logic as a tool to be used in engineering, computer science, philosophy, etc., and as procedural knowledge helpful in puzzle-solving environments (e.g., standardized tests). A hands-on laboratory component is included.",,When Offered: Fall and Spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+SUSTAINABLE ENERGY SYSTEMS,LEC,4,MTRF,10:30AM,12:35PM,Matthew Adam Oehlschlaeger,Russell Sage Laboratory 4510,20,2,18,STSO,2024-05-20,2024-07-01,SUMMER 2024,20029,4960,01,STSO-4960,Sustainable Energy Systems,,,,[],[],"Humanities, Arts, and Social Sciences"
+THE METAVERSE,LEC,4,MTRF,10:30AM,12:35PM,James Wilson Malazita,Troy Building 2012,30,4,26,STSO,2024-05-20,2024-07-01,SUMMER 2024,19998,4961,01,STSO-4961,The Metaverse,,,,[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,MR,8:00AM,10:05AM,Allison Beth Hoffman,Voorhees Computing Center SO,30,22,8,STSO,2024-05-20,2024-07-01,SUMMER 2024,19839,4100,01,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,MR,10:30AM,12:35PM,Allison Beth Hoffman,Voorhees Computing Center SO,30,10,20,STSO,2024-05-20,2024-07-01,SUMMER 2024,19840,4100,02,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,MR,1:30PM,3:35PM,Allison Beth Hoffman,Voorhees Computing Center SO,30,27,3,STSO,2024-05-20,2024-07-01,SUMMER 2024,19841,4100,03,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,MR,10:30AM,12:35PM,Azita Hirsa,Darrin Communications Center 324,35,11,24,STSO,2024-07-08,2024-08-16,SUMMER 2024,19842,4100,04,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,MR,4:00PM,6:00PM,Azita Hirsa,Darrin Communications Center 324,35,33,2,STSO,2024-07-08,2024-08-16,SUMMER 2024,19843,4100,05,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+PD - TECH ISSUES & SOLUTIONS,LEC,2,TF,10:30AM,12:30PM,Azita Hirsa,Darrin Communications Center 324,35,17,18,STSO,2024-07-08,2024-08-16,SUMMER 2024,20030,4100,06,STSO-4100,Pd - Tech Issues & Solutions,"This course focuses on increasing students' knowledge concerning the impact of non-technical issues on the viability of technical (engineering) designs and solutions. The non-technical issues to be considered include the cognitive and physical strengths and limitations of people in the chain spanning from product/equipment designers/manufacturers to end users, as well as economic, environmental, cultural, political, ethical, health and safety, and societal influences. During the course, students will read and discuss articles and case studies in which the technical solution pursued did not have the desired effect, or led to disaster. Possible explanations include a failure to take into account the environmental, economic, socio-cultural, and/or political issues associated with the technology's ultimate usage.",,"When Offered: Fall, Spring, and Summer terms annually",[],[],"Humanities, Arts, and Social Sciences"
+BIOETHICS,LEC,4,MTRF,10:30AM,12:35PM,Susan Lynn Smith,Greene Building 120,25,2,23,STSO,2024-05-20,2024-07-01,SUMMER 2024,19873,4250,01,STSO-4250,Bioethics,"This course involves a philosophical analysis of some of the basic moral issues raised by recent and anticipated developments in the areas of biology and medicine. The general question ""What are moral problems, and how does one resolve them?"" is examined in the context of concrete cases involving issues such as abortion, euthanasia, organ transplants, experimentation on human patients, cloning, genetic engineering, and behavior control and modification.","Prerequisite: One of the following: STSO 2510, STSO 2520, STSO 2500, PHIL 1110, INQR 1150, INQR 1160, PHIL 4240, or permission of instructor",When Offered: Spring term annually,"['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","['STSO 2520', 'STSO 2500', 'PHIL 1110', 'INQR 1150', 'INQR 1160', 'PHIL 4240']","Humanities, Arts, and Social Sciences"
+"FOOD, FARMS, AND FAMINE",LEC,4,MR,10:30AM,12:35PM,Sara Thomas Black,Folsom Library 107,19,14,5,STSO,2024-05-20,2024-08-16,SUMMER 2024,19985,4260,01,STSO-4260,"FOOD, FARMS, And Famine","This course provides students with a wide-ranging understanding of the environmental and social context of food, agriculture, and hunger. Drawing primarily on sociological concepts and research, the class will take a ""food systems"" approach, analyzing food as it travels from farm to table as part of an interconnected process. Students will examine why humans eat the way they do and how individuals' food choices affect other people and the environment.","Prerequisite: STSO 2100, STSO 2210, STSO 2300, STSO 2500, or STSO 2520 or permission of instructor.","When Offered: Fall semester, even-numbered years","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2500', 'STSO 2520']","['STSO 2100', 'STSO 2210', 'STSO 2300', 'STSO 2500', 'STSO 2520']","Humanities, Arts, and Social Sciences"
+ENVIRONMENT AND SOCIETY,LEC,4,MR,1:30PM,3:35PM,Sara Thomas Black,Lally Hall 104,35,9,26,STSO,2024-05-20,2024-08-16,SUMMER 2024,19984,2300,01,STSO-2300,Environment And Society,"Society and the natural environment are crucially linked in a number of ways. Environmental problems such as pollution and natural resource depletion are not only problems for society, affecting the way people live their lives; they are also problems of society-the result of patterns of social organization and social practices. In this course, students will explore these society/environment interactions at various levels, from the local to the global, using the concepts and insights of environmental sociology. Environmental sociologists aim to understand the social origins of environmental problems and propose workable solutions to them. By showing how social interaction, institutions, and beliefs shape human behavior, environmental sociology provides a useful complement to the natural sciences in the analysis of the environmental problems faced today.","Prerequisite:INQR 1100, STSO 1100, INQR 1110, INQR 1240, INQR 1250, INQR 1320, or permission of instructor",When Offered: Fall and Spring term annually.,"['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","['INQR 1100', 'STSO 1100', 'INQR 1110', 'INQR 1240', 'INQR 1250', 'INQR 1320']","Humanities, Arts, and Social Sciences"
+DESIGN & INNOVATION STUDIO A,LEC,4,MR,1:30PM,4:35PM,Brandon James Costelloe-Kuehn,Russell Sage Laboratory 2211,30,6,24,STSO,2024-05-20,2024-08-16,SUMMER 2024,19868,4600,01,STSO-4600,Design & Innovation Studio A,"DIS Studio A introduces students to the principles and practices of design for environmental sustainability. It is open to majors in Design, Innovation, and Society (DIS), Sustainability Studies, and Science, Technology, and Society (STS). This is an intensive studio/seminar hybrid that will advance students' understanding, through practice, of iterative design processes and the multiple dimensions of sustainability. The specific methodologies, concepts, and topics will vary according to the expertise and research specialization of the faculty member teaching the course and may include themes such as disability, feminism, critical race theory, or other approaches as they intersect with environmental sustainability.",,When Offered: Summer term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SOCIOLOGY,LEC,4,MTRF,10:30AM,12:35PM,Katherine Anne Tyrol,Darrin Communications Center 324,19,16,3,STSO,2024-05-20,2024-07-01,SUMMER 2024,19942,2520,01,STSO-2520,Sociology,"A study of the principles and concepts of sociology and their application to the study of society and self. Students are introduced to the scope, materials, and methods of sociology. The issues and problems to be studied come from basic social institutions such as the family, science, and religion. Other topics may include love, crime, political economy, power, population growth, social class, and minority and ethnic relations.",,When Offered: Fall term annually.,[],[],"Humanities, Arts, and Social Sciences"
+SPEECH COMMUNICATION,LEC,4,MTRF,10:30AM,12:45PM,Alexander Scott Hiland,Troy Building 2015,19,5,14,WRIT,2024-05-20,2024-07-01,SUMMER 2024,20020,2340,01,WRIT-2340,Speech Communication,"This course focuses on developing public speaking skills and critical listening abilities. Guided by rhetorical theory, theories of persuasion, and argumentation theory, students prepare several oral presentations, engage in extemporaneous speaking exercises, and criticize other performances.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+INTRO TO CREATIVEWRITING,LEC,4,MTRF,4:00PM,6:50PM,Skye Anicca,Low Center for Industrial Inn. 3039,19,19,0,WRIT,2024-05-20,2024-07-01,SUMMER 2024,20024,1769,01,WRIT-1769,Intro To Creativewriting,"This course will introduce students to the field of creative writing studies and offer opportunities to practice writing fiction, creative nonfiction, and poetry. Course learning will be experiential, including reading, writing, and creativity development exercises. Discussion, informal critique, and workshop will be key assessment criteria. Student participation is the heart of this course.",None.,When Offered: Summer term annually.,[],[],"Humanities, Arts, and Social Sciences"
+COGNITIVE MODELING,LEC,4,MTRF,8:00AM,10:05AM,Lucy Cui,Troy Building 2015,19,12,7,COGS,2024-07-08,2024-08-16,SUMMER 2024,20034,4210,01,COGS-4210,Cognitive Modeling,"Recent advances in Cognitive Science, Computer Science and Mathematics, have resulted in the ability to develop computer programs that implement Probabilistic Cognitive Models (PCMs). The cognitive models that this course covers are based on approximate Bayesian Inference implemented by Markov Chain Monte Carlo and Variational techniques that have made this approach tractable. The objective of this course is to enable the student to develop models of cognition in a Bayesian framework.",Prerequisites/Corequisites: CSCI 2300 or permission of instructor.,When Offered: Spring term annually.,['CSCI 2300'],['CSCI 2300'],"Humanities, Arts, and Social Sciences"
+INTRO TO COGNITIVE SCIENCE,LEC,4,MTRF,10:30AM,12:35PM,Benjamin P. Weissman,Amos Eaton Hall 215,50,36,14,COGS,2024-05-20,2024-07-01,SUMMER 2024,19989,2120,01,COGS-2120,Intro To Cognitive Science,"This course is an introduction to the new and quickly growing field of cognitive science. Cognitive Science is a highly interdisciplinary field of study of mind at the intersection of philosophy, psychology, computer science, neuroscience, linguistics, and anthropology.",,When Offered: Fall and spring terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,1:30PM,3:35PM,Alicia Ann Walf,Troy Building 2012,10,10,0,COGS,2024-05-20,2024-08-16,SUMMER 2024,19543,4360,01,COGS-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,1:30PM,3:35PM,Alicia Ann Walf,Troy Building 2012,10,7,3,COGS,2024-05-20,2024-08-16,SUMMER 2024,19978,4360,02,COGS-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.","Prerequisite: PSYC 1200 or COGS 2120, or permission of instructor.",When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+EXTENDED COGNITION,LEC,1-6,,,,Bram Van Heuveln,TBA,20,13,7,COGS,2024-05-20,2024-08-16,SUMMER 2024,19869,4960,01,COGS-4960,Extended Cognition,An advanced course concerned with selected topics in cognitive science.,,,[],[],"Humanities, Arts, and Social Sciences"
+ENVIRONMENTAL ECONOMICS,LEC,4,MTRF,10:30AM,12:05PM,Sarah Marsden Greene,Darrin Communications Center 330,40,12,28,ECON,2024-05-20,2024-07-01,SUMMER 2024,19601,4230,01,ECON-4230,Environmental Economics,"Develops a critical understanding of environmental issues and policy from an interdisciplinary economics perspective. Covers the economics of environmental quality including the links between the economy and the environment, the causes of environmental problems, evaluation of environmental projects and policies, and policies to address environmental issues with an emphasis on efficiency, equity, and sustainability, and the international dimensions of environmental issues.",Prerequisite: ECON 1200 or INQR 1200; permission of instructor. ECON 2010 recommended.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200', 'ECON 2010']","['ECON 1200', 'INQR 1200', 'ECON 2010']","Humanities, Arts, and Social Sciences"
+ECONOMETRICS,LEC,4,MTRF,8:00AM,10:05AM,Huaming Peng,Troy Building 2012,25,18,7,ECON,2024-07-08,2024-08-16,SUMMER 2024,19620,4570,01,ECON-4570,Econometrics,"This course is an introduction to econometric data analysis. The statistical methods covered enable analysis of relationships between variables in data, with special attention to identification of true casual effects. Topics covered include linear and simple nonlinear regression models, internal and external validity, methods for panel data and binary dependent variables, instrumental variable methods, use of experimental and quasi-experimental data, and basic time series methods. The course included hands-on data analysis and report writing.",Prerequisites: MATH 2010 and ENGR 2600 or MGMT 2100 or MATP 4600 or PSYC 2310 or BIOL 4200 or permission of instructor,When Offered: Fall and spring terms annually.,"['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","['MATH 2010', 'ENGR 2600', 'MGMT 2100', 'MATP 4600', 'PSYC 2310', 'BIOL 4200']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,MR,4:00PM,6:05PM,Robert W. Jones,Low Center for Industrial Inn. 3051,70,44,26,ECON,2024-05-20,2024-08-16,SUMMER 2024,19544,2010,01,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. Product pricing strategies are examined. The course also provides an introduction to topics such as the pricing of stocks and bonds, game theory, positive and negative externalities, asymmetric information, and behavioral economics. Applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Regression analysis of demand and cost, linear programming of production and simulation analysis of risk, and capital budgeting are also presented.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MICROECONOMIC THEORY,LEC,4,MTRF,1:30PM,3:35PM,Conor Lennon,Darrin Communications Center 232,30,9,21,ECON,2024-05-20,2024-07-01,SUMMER 2024,19995,2010,02,ECON-2010,Intermediate Microeconomic Theory,"This course combines demand, derived from consumer preferences, and supply, based on firms' production functions, to establish market prices for goods and services. Calculus-based techniques are used to minimize costs and maximize utility and profits across differing industry structures. Product pricing strategies are examined. The course also provides an introduction to topics such as the pricing of stocks and bonds, game theory, positive and negative externalities, asymmetric information, and behavioral economics. Applies the microeconomic theory of the firm to price, cost, and output decisions of business enterprises under different market structures. Regression analysis of demand and cost, linear programming of production and simulation analysis of risk, and capital budgeting are also presented.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+MONEY & BANKING,LEC,4,MR,8:00AM,10:05AM,Sarah Marsden Greene,Darrin Communications Center 318,200,113,87,ECON,2024-05-20,2024-08-16,SUMMER 2024,19776,4130,01,ECON-4130,Money & Banking,"Financial institutions, especially commercial banking and the Federal Reserve System, are considered from three perspectives: their monetary roles; trends in the economic, organizational, and technological aspects of their operations; and their other economic roles-a critical view. Also, the role of money in macroeconomic theory is considered along with the role of monetary policies in relation to the problems of inflation and unemployment.",Prerequisite: ECON 1200 or INQR 1200; or permission of instructor.,When Offered: Fall and spring terms annually.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE MACROECONOMIC THEORY,LEC,4,MTRF,10:30AM,12:35PM,Mina Mahmoudi,Russell Sage Laboratory 5510,30,14,16,ECON,2024-05-20,2024-07-01,SUMMER 2024,19726,2020,02,ECON-2020,Intermediate Macroeconomic Theory,"Attention is directed primarily to variations in the aggregate volume of output, income, and employment. Cyclical fluctuations and long-term economic trends are examined and the interrelations of business and government policies are analyzed. The applicability of economic theory to the problems of business forecasting is discussed.","Prerequisites/Corequisites: INQR 1200 or ECON 1200; and MATH 1010 or MATH 1500, or permission of instructor.",When Offered: Fall and spring terms annually.,"['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","['INQR 1200', 'ECON 1200', 'MATH 1010', 'MATH 1500']","Humanities, Arts, and Social Sciences"
+INTERNATIONAL ECONOMICS AND GLOBALIZATION,LEC,4,MTRF,1:30PM,3:35PM,Mina Mahmoudi,Russell Sage Laboratory 4101,30,11,19,ECON,2024-05-20,2024-07-01,SUMMER 2024,19730,4190,01,ECON-4190,International Economics And Globalization,"This course investigates the significance of economic globalization, covering the following topics: international trade and financial flows, technological innovation and intellectual property, technology transfer, national government and transnational corporations, natural resources, health and the environment, impacts on selected industries and countries, and roles of the world trade organization and international monetary fund. The major controversies surroundin globalization are identified, and alternative arguments are evaluated based on available evidence.",Prerequisite: ECON 1200 or INQR 1200 or permission of instructor.,When Offered: Upon availability of instructor.,"['ECON 1200', 'INQR 1200']","['ECON 1200', 'INQR 1200']","Humanities, Arts, and Social Sciences"
+INTERMEDIATE GAME DESIGN,LEC,4,MTRF,8:00AM,10:05AM,James Wilson Malazita,Troy Building 2012,19,6,13,GSAS,2024-05-20,2024-07-01,SUMMER 2024,19996,4961,01,GSAS-4961,Intermediate Game Design,,,,[],[],"Humanities, Arts, and Social Sciences"
+GAME SOUND & MUSICAL PLAY,LEC,4,MR,10:30AM,12:35PM,Kathleen A. Galloway,West Hall 112,19,8,11,GSAS,2024-05-20,2024-08-16,SUMMER 2024,19925,2560,01,GSAS-2560,Game Sound & Musical Play,"What makes play musical and music playful? How does game sound and music contribute to gameworld creation, gameplay, and virtual performance? Ludomusicology-the relation of music to play-addresses these questions and challenges us to take play seriously. This course considers the diverse relationships among music, play, media, and performance, including game sound, music-stylistic features of game consoles and systems, children's games, remixing and sampling, the role musical games play in cultural identity, and more.",,When Offered: summer term annually,[],[],"Humanities, Arts, and Social Sciences"
+LEVEL DESIGN,LEC,4,W,1:00PM,5:10PM,Eric Louis Ameres,Russell Sage Laboratory 2112,19,16,3,GSAS,2024-05-20,2024-08-16,SUMMER 2024,19980,4270,01,GSAS-4270,Level Design,"This project-based course introduces students to the tools and concepts used to create levels for games and simulations. It explores how various fields and theories (architecture, psychogeography, and theory of the Derive, player psychology), influence the level design and alter or enhance the ludic concepts (flow and critical path, risks-rewards, tutoring, balance of difficulty, and storytelling). Level analysis will help students to recall these concepts. Students will demonstrate their understanding by designing three ""paper"" maps (stealth, puzzle adventure, 3rd person) and implementing two developed levels (2D and 3D).","Prerequisites: One of the following: GSAS 1040, GSAS 1600, GSAS 2510, GSAS 2520, or GSAS 2540",When Offered: spring term annually,"['GSAS 1040', 'GSAS 1600', 'GSAS 2510', 'GSAS 2520', 'GSAS 2540']","['GSAS 1040', 'GSAS 1600', 'GSAS 2510', 'GSAS 2520', 'GSAS 2540']","Humanities, Arts, and Social Sciences"
+EXPERIMENTAL GAME DESIGN,LEC,4,TF,10:30AM,12:35PM,Silvia Ruzanka,Russell Sage Laboratory 2411,25,16,9,GSAS,2024-05-20,2024-08-16,SUMMER 2024,19981,4510,01,GSAS-4510,Experimental Game Design,"Experimental Game Design is an upper level studio arts course focusing on the creation of innovative, workable game prototypes using a variety of interactive multimedia. Games are considered as a new genre and are analyzed as cultural artifacts. The aesthetics of game design including character development, level design, game play experience, and delivery systems are covered. Flow, game theory, and game play gestalt are considered. Alternate gaming paradigms and emerging forms are encouraged.",Prerequisites: GSAS 4540 or CSCI 4540,When Offered: Fall and spring terms annually.,['GSAS 4540'],['GSAS 4540'],"Humanities, Arts, and Social Sciences"
+POSITIVE PSYCHOLOGY,LEC,4,MTRF,1:00PM,3:05PM,Holly A Traver,Low Center for Industrial Inn. 4050,120,21,99,PSYC,2024-05-20,2024-07-01,SUMMER 2024,19930,4730,01,PSYC-4730,Positive Psychology,"Positive Psychology is the scientific study of human happiness, well-being, and strength of character. This course takes an empirical approach to helping individuals use the science of flourishing to enhance their lives. Resiliency, the ability to adapt to stress and adversity, will be emphasized. Students will learn about coping techniques of resiliency to effectively navigate through life situations.",Prerequisite: PSYC 1200.,"When Offered: Fall, spring, and summer terms annually.",['PSYC 1200'],['PSYC 1200'],"Humanities, Arts, and Social Sciences"
+RESEARCH METHODS AND STATISTICS I,LEC,4,MTRF,10:30AM,12:35PM,Lucy Cui,Troy Building 2015,19,19,0,PSYC,2024-07-08,2024-08-16,SUMMER 2024,20001,2310,01,PSYC-2310,Research Methods And Statistics I,"This course, the first in a two-course sequence, provides an introduction to basic methods of behavioral and social science research, including experimental, quasi-experimental, and non-experimental research designs, psychometric considerations (e.g., reliability, validity, control, importance, levels of measurement), approaches to data collection and analysis, and communication of results. Students will demonstrate their understanding of the topics covered by writing a detailed research proposal formatted according to American Psychological Association (APA) guidelines. Students will also gain experience in using a selection of parametric (e.g., correlation, simple and multiple regression, ANOVA) and non-parametric (e.g., Chi-square, Mann-Whitney U, Wilcoxon T, Kruskal-Wallis, Friedman's ANOVA) statistical procedures. Data analysis will be carried out using R, an open-source programming language for statistical calculation and graphics, and R-Studio, an open-source integrated development environment for R.",Prerequisites/Corequisites: PSYC 1200 or COGS 2120 or permission of instructor.,"When Offered: Fall, spring, and summer terms annually.","['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,1:30PM,3:35PM,Alicia Ann Walf,Troy Building 2012,10,10,0,PSYC,2024-05-20,2024-08-16,SUMMER 2024,19939,4360,01,PSYC-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+BEHAVIORAL NEUROSCIENCE,LEC,4,MR,1:30PM,3:35PM,Alicia Ann Walf,Troy Building 2012,10,10,0,PSYC,2024-05-20,2024-08-16,SUMMER 2024,19983,4360,02,PSYC-4360,Behavioral Neuroscience,"This course is an introduction to the role of physiological mechanisms in behavioral processes. There will be detailed examination and discussion of the involvement of biological systems in feeding and drinking, sexual behavior, sleep and arousal, learning and memory, psychopathology and psychopharmacology.",Prerequisite: PSYC 1200 or COGS 2120.,When Offered: Summer term annually.,"['PSYC 1200', 'COGS 2120']","['PSYC 1200', 'COGS 2120']","Humanities, Arts, and Social Sciences"
+PSYCHOLOGY OF MINDFULNESS,LEC,4,MTRF,10:30AM,12:35PM,Holly A Traver,Low Center for Industrial Inn. 4034,19,17,2,PSYC,2024-05-20,2024-07-01,SUMMER 2024,19929,4430,01,PSYC-4430,Psychology Of Mindfulness,"Mindfulness involves giving particular attention to our moment-to-moment experiences in a way that emphasizes observing, rather than judging or evaluating. There is empirical evidence of the many health benefits of mindfulness meditation, including the potential to produce fundamental changes in brain structure and epigenetic change. In this class, participants will discuss the historical and psychological foundations of mindfulness and empirical findings supporting its positive effects. Students will participate in structured exercises. This course is a very hands-on approach to mindfulness. Students will be required to practice mindfulness and meditation and develop their mindful skills.",,When Offered: Fall and summer terms annually.,[],[],"Humanities, Arts, and Social Sciences"
+WELL-BEING:CREATING A TOOLBOX,LEC,1,M,4:00PM,6:05PM,Alicia Ann Walf,Troy Building 2012,19,17,2,PSYC,2024-05-20,2024-07-01,SUMMER 2024,19877,2960,01,PSYC-2960,WELL-BEING:CREATING A Toolbox,,,,[],[],"Humanities, Arts, and Social Sciences"
+GRAPH PERCEPTION & DATA VISUAL,LEC,1,M,1:30PM,3:35PM,Lucy Cui,Troy Building 2015,19,9,10,PSYC,2024-07-08,2024-08-16,SUMMER 2024,20004,4961,01,PSYC-4961,Graph Perception & Data Visual,,,,[],[],"Humanities, Arts, and Social Sciences"
+PHYSICS MEETS SOCIAL SCIENCES,LEC,4,TF,1:30PM,3:35PM,Yingrui Yang,Low Center for Industrial Inn. 4034,19,7,12,PSYC,2024-05-20,2024-08-16,SUMMER 2024,20048,4962,01,PSYC-4962,Physics Meets Social Sciences,,,,[],[],"Humanities, Arts, and Social Sciences"
+COGNITIVE MODELING,LEC,4,MTRF,8:00AM,10:05AM,Lucy Cui,Troy Building 2015,19,4,15,PSYC,2024-07-08,2024-08-16,SUMMER 2024,20002,4510,01,PSYC-4510,Cognitive Modeling,"Cognitive modeling investigates human cognition by developing computational systems that simulate cognitive processes. Cognitive modeling grew out of Cognitive Psychology and Artificial Intelligence. Cognitive models are used in a number of basic and applied domains including Human-Computer Interaction, Intelligent Tutoring Systems, Computer-Generated Forces, and Synthetic Characters. In this course, students will develop models in ACT-R (a unified theory of cognition) that simulate recent findings in cognitive psychology.",Prerequisites: PSYC 1200 or COGS 2120 and CSCI 2300. Recommended: CSCI 4150 and/or PSYC 4370 or permission of instructor.,When Offered: Spring term annually.,"['PSYC 1200', 'COGS 2120', 'CSCI 2300', 'CSCI 4150', 'PSYC 4370']","['PSYC 1200', 'COGS 2120', 'CSCI 2300', 'CSCI 4150', 'PSYC 4370']","Humanities, Arts, and Social Sciences"
+ENHANCING CRITICAL THINKING,LEC,3,MTRF,1:30PM,3:35PM,Azita Hirsa,Darrin Communications Center 324,15,1,14,PSYC,2024-07-08,2024-08-16,SUMMER 2024,20050,4964,01,PSYC-4964,Enhancing Critical Thinking,,,,[],[],"Humanities, Arts, and Social Sciences"
+IT AND SOCIETY,LEC,4,MTRF,1:00PM,3:05PM,Katherine Anne Tyrol,Darrin Communications Center 324,19,11,8,ITWS,2024-05-20,2024-07-01,SUMMER 2024,19997,1220,01,ITWS-1220,It And Society,"This course investigates the relationship between Information Technology (IT) and the individuals and groups who use it - which is to say, virtually everyone. The course has two main goals. First, it seeks to define and explain core concepts in the field of IT in a fashion that is not overly technical. Second, it examines the historical, social, cultural, political and economic factors that have helped to shape, and have been shaped by, the dimensions of IT that we will study.",,When Offered: Spring term annually.,[],[],Information Technology and Web Science
+MANAGERIAL FINANCE,LEC,4,MR,1:30PM,3:20PM,Brian John Clark,Low Center for Industrial Inn. 3045,40,22,18,MGMT,2024-05-20,2024-08-16,SUMMER 2024,19712,2320,01,MGMT-2320,Managerial Finance,"An introduction to corporate financial analysis and decision making. This course covers the following topics: financial statement analysis, valuation principles, risk and return analysis, working capital management, capital budgeting, cost of capital, capital structure, and dividend policy.",Prerequisites: MGMT 2300,"When Offered: Fall, spring, and summer terms annually.",['MGMT 2300'],['MGMT 2300'],Management and Technology
+BUSINESS AND SUSTAINABILITY,LEC,4,MTRF,8:00AM,10:00AM,Kevin Albro Fletcher,Troy Building 2015,25,7,18,MGMT,2024-05-20,2024-07-01,SUMMER 2024,19973,4960,01,MGMT-4960,Business And Sustainability,,,,[],[],Management and Technology
+COMPUTER INFO SYSTEMS,LEC,4,TF,1:30PM,3:20PM,Jonathan Alexis McKinney,Jonsson Engineering Center 5119,50,20,30,MGMT,2024-05-20,2024-08-16,SUMMER 2024,19714,4140,01,MGMT-4140,Computer Info Systems,"This course provides the undergraduate management student with an introduction to the concept and components of computer-based ""management information systems"" (MIS) and their integration into organizational processes to gain competitive advantage. This course will examine approaches for developing and using information systems in support of business processes. Topics include: the impact of computer-based information systems on organizations; the basic technology components of modern information systems; the process by which information systems are created and changed; and selected management and technology issues.",,"When Offered: Fall, spring, and summer terms anually.",[],[],Management and Technology
+DISSERTATION,LEC,1-15,,,,M.V. Shyam Kumar,TBA,10,1,9,MGMT,2024-05-20,2024-08-16,SUMMER 2024,20066,9990,01,MGMT-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Management and Technology
+THE WEALTH COMPASS,LEC,4,MTRF,10:30AM,12:35PM,Johan Maharjan,Low Center for Industrial Inn. 3045,40,2,38,MGMT,2024-05-20,2024-07-01,SUMMER 2024,20011,2960,01,MGMT-2960,The Wealth Compass,,,,[],[],Management and Technology
+EARTH AND SKY,LEC,4,TF,8:00AM,10:05AM,Charles Harold Martin,Low Center for Industrial Inn. 3039,39,39,0,ASTR,2024-05-20,2024-08-16,SUMMER 2024,20033,2120,01,ASTR-2120,Earth And Sky,"An introduction to astronomy from an observational perspective. Students will learn the basics of observing the night-time sky, both with the unaided eye and through telescopic observation. Observations of Earth from orbiting satellites will also be discussed. The course is suitable for nonphysics and nonscience majors as well as those committed to specialization in astronomy. Includes evening laboratory sessions.",,When Offered: Fall and summer terms annually.,[],[],Science
+COSMOLOGY: OUR UNIVERSE,LEC,4,MR,1:30PM,3:35PM,Julian S. Georg,Jonsson Engineering Center 5119,40,37,3,ASTR,2024-05-20,2024-08-16,SUMMER 2024,19781,2960,01,ASTR-2960,COSMOLOGY: Our Universe,,,,[],[],Science
+"STARS, GALAXIES AND THE COSMOS",LEC,4,MR,8:00AM,10:05AM,Charles Harold Martin,Low Center for Industrial Inn. 3039,39,39,0,ASTR,2024-05-20,2024-08-16,SUMMER 2024,20032,1520,01,ASTR-1520,"STARS, Galaxies And The Cosmos","This course serves as an introduction to astronomy, focusing on understanding the physical nature of stars and galaxies, the vastness of the cosmos, and how astronomers have built up a comprehensive picture of the Universe in which we live through meticulous study.",,When Offered: Spring and summer terms annually.,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Chunyu Wang,TBA,10,0,10,BCBP,2024-05-20,2024-08-16,SUMMER 2024,19432,6990,01,BCBP-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Christopher Bystroff,TBA,10,0,10,BCBP,2024-05-20,2024-08-16,SUMMER 2024,19433,9990,01,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Douglas Martin Swank,TBA,0,0,0,BCBP,2024-05-20,2024-08-16,SUMMER 2024,19434,9990,02,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Chunyu Wang,TBA,10,0,10,BCBP,2024-05-20,2024-08-16,SUMMER 2024,19436,9990,03,BCBP-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MOLECULAR BIOCHEMISTRY I,LEC,4,MR,10:30AM,12:35PM,Keith Fraser,Amos Eaton Hall 214,50,16,34,BCBP,2024-05-20,2024-08-16,SUMMER 2024,19547,4760,01,BCBP-4760,Molecular Biochemistry I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites: CHEM 2250 and; BIOL 1010 or BIOL 2120,When Offered: Fall and summer terms annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
+BIOLOGY IN POPULAR FICTION,LEC,3,W,2:00PM,4:50PM,Michael T Klein/Joseph Louis Trzepacz,Jonsson-Rowland Science Center 2C13,20,20,0,BIOL,2024-05-20,2024-08-16,SUMMER 2024,20025,1960,01,BIOL-1960,Biology In Popular Fiction,,,,[],[],Science
+BIOSTATISTICS,LEC,4,TF,10:30AM,12:35PM,Jonathan T Stetler,Jonsson Engineering Center 4309,25,25,0,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19549,4200,01,BIOL-4200,Biostatistics,"An introduction to the concepts and techniques of modern statistics. Computer-based, in-class sessions will emphasize hands-on application of statistical techniques using data and examples drawn from the biological and medical sciences. Pre-class, online exercises will prepare students for in-depth classroom explorations. Topics covered will include sampling, regression, analysis of variance, and factor analysis, MANOVA, maximum likelihood methods, discriminant analysis, time series analysis, and forecasting. The final project requires analysis of a major research-related data set and write-up of results in the format of a scientific paper.","Prerequisites: BIOL 1010 and MATH 1010, or permission of the instructor.","When Offered: Fall, spring, and summer term annually.","['BIOL 1010', 'MATH 1010']","['BIOL 1010', 'MATH 1010']",Science
+HUMAN EVOLUTION LAB,LEC,2,TF,8:00AM,10:05AM,Seemanti Ramanath,Walker Laboratory 6113,24,12,12,BIOL,2024-05-20,2024-07-01,SUMMER 2024,19871,2960,01,BIOL-2960,Human Evolution Lab,,,,[],[],Science
+FIELD EXPERIENCES AQUATIC BIOL,LEC,2,W,10:30AM,1:30PM,Jonathan T Stetler,Troy Building 2012,8,8,0,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19945,2961,01,BIOL-2961,Field Experiences Aquatic Biol,,,,[],[],Science
+MOLECULAR BIOLOGY LAB,LEC,6,T,1:00PM,6:00PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center ,8,7,1,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19768,4720,01,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
+MOLECULAR BIOLOGY LAB,LEC,6,F,1:00PM,2:50PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center 2C25,8,7,1,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19768,4720,01,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
+MOLECULAR BIOLOGY LAB,LEC,6,R,1:00PM,6:00PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center ,8,3,5,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19769,4720,02,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
+MOLECULAR BIOLOGY LAB,LEC,6,F,1:00PM,2:50PM,Eric Matthew Rutledge,Jonsson-Rowland Science Center 2C25,8,3,5,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19769,4720,02,BIOL-4720,Molecular Biology Lab,"The techniques of gel electrophoresis, restriction enzyme mapping, PCR, and use of a molecular biology software program are applied to the study of bacterial plasmids and mammalian genes. The course includes extensive hands-on laboratory work, as well as the writing of in-depth reports. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 4620.",When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 4620']","['BIOL 2120', 'BIOL 2125', 'BIOL 4620']",Science
+MASTER'S THESIS,LEC,1-9,,,,Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19242,6990,01,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Lee Ligon,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19437,6990,02,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Christopher Bystroff,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19438,6990,03,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,TBA,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19439,6990,04,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,TBA,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19244,6990,05,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Susan P. Gilbert,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19440,6990,06,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Eric Matthew Rutledge,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19442,6990,07,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Douglas Martin Swank,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19443,6990,08,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTER'S THESIS,LEC,1-9,,,,Chunyu Wang,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19444,6990,09,BIOL-6990,MASTER'S Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presented, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+SENSE AND SIGNAL,LEC,1,R,8:00AM,10:05AM,Seemanti Ramanath,Walker Laboratory 5113,24,8,16,BIOL,2024-05-20,2024-07-01,SUMMER 2024,20010,2962,01,BIOL-2962,Sense And Signal,,,,[],[],Science
+ADVANCED CELL BIOLOGY LABORATORY,LEC,6,MR,1:00PM,3:50PM,Michael T Klein,Jonsson-Rowland Science Center 3W09,8,6,2,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19797,4740,01,BIOL-4740,Advanced Cell Biology Laboratory,"Students will learn a variety of modern cell biology techniques such as cell culture, genetic analysis, immunocytochemistry, fluorescence microscopy, and live cell imaging. Using these techniques, students will investigate the function of genetically manipulated proteins in cells. In the last third of the semester, students will develop independent experimental research plans to address questions of interest to the student. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 2500.",When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 2500']","['BIOL 2120', 'BIOL 2125', 'BIOL 2500']",Science
+ADVANCED CELL BIOLOGY LABORATORY,LEC,6,R,4:00PM,4:50PM,Michael T Klein,Jonsson-Rowland Science Center 3W09,8,6,2,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19797,4740,01,BIOL-4740,Advanced Cell Biology Laboratory,"Students will learn a variety of modern cell biology techniques such as cell culture, genetic analysis, immunocytochemistry, fluorescence microscopy, and live cell imaging. Using these techniques, students will investigate the function of genetically manipulated proteins in cells. In the last third of the semester, students will develop independent experimental research plans to address questions of interest to the student. This is a communication-intensive course.","Prerequisites: BIOL 2120, BIOL 2125, and BIOL 2500.",When Offered: Fall term annually.,"['BIOL 2120', 'BIOL 2125', 'BIOL 2500']","['BIOL 2120', 'BIOL 2125', 'BIOL 2500']",Science
+DISSERTATION,LEC,1-20,,,,Sandra Nierzwicki-Bauer,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19245,9990,01,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Kevin Christopher Rose,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19246,9990,02,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Lee Ligon,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19380,9990,03,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Jonathan Dordick,TBA,10,1,9,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19445,9990,04,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Christopher Bystroff,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19247,9990,05,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Susan P. Gilbert,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19333,9990,06,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,George I. Makhatadze,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19447,9990,07,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Douglas Martin Swank,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19448,9990,08,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-20,,,,Chunyu Wang,TBA,10,0,10,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19449,9990,09,BIOL-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MOLECULAR BIOCHEMISTRY I,LEC,4,MR,10:30AM,12:35PM,Keith Fraser,Amos Eaton Hall 214,50,22,28,BIOL,2024-05-20,2024-08-16,SUMMER 2024,19546,4760,01,BIOL-4760,Molecular Biochemistry I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites: CHEM 2250 and; BIOL 1010 or BIOL 2120,When Offered: Fall and summer terms annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
+INTRODUCTION TO BIOLOGY,LEC,3,TRF,10:30AM,12:35PM,Seemanti Ramanath/Georgi G. Shablovsky,Walker Laboratory 6113,24,18,6,BIOL,2024-05-20,2024-07-01,SUMMER 2024,19487,1010,01,BIOL-1010,Introduction To Biology,"Introduction to biological systems. Discussion of problems associated with biological organization, scaling, and hierarchy. Major topics covered include evolution, genetics and medicine, and ecology. The course considers the biological components of various environmental, social, and individual problems. Course is taught using both traditional and research-based pedagogical methods.",Prerequisites/Corequisites: Corequisite: BIOL 1015 or BIOL 1016.,"When Offered: Fall, spring, and summer terms annually.","['BIOL 1015', 'BIOL 1016']","['BIOL 1015', 'BIOL 1016']",Science
+MICROBIOLOGY LABORATORY,LEC,6,TRF,1:00PM,4:50PM,Richard Peter Bonocora,Jonsson-Rowland Science Center 3C30,8,6,2,BIOL,2024-05-20,2024-07-01,SUMMER 2024,19770,4320,01,BIOL-4320,Microbiology Laboratory,"Microbiology Laboratory will provide hands-on experience for broad training in bacteriology and mycology with emphasis on: microscopy, bacterial growth, and biochemical assays. An investigative component will involve characterization of an unknown bacterium using the analytical tools learned. In addition to laboratory experience and good technique, the course will emphasize written communication with reports in the format of scientific papers. This is a communication-intensive course.",Prerequisite: BIOL 2500.,When Offered: Fall term annually.,['BIOL 2500'],['BIOL 2500'],Science
+INTRODUCTION TO BIOLOGY LABORATORY,LEC,1,TF,1:15PM,3:50PM,Seemanti Ramanath/Georgi G. Shablovsky,Walker Laboratory 6113,24,15,9,BIOL,2024-05-20,2024-07-01,SUMMER 2024,19488,1015,01,BIOL-1015,Introduction To Biology Laboratory,"The goal of this laboratory course is to learn about biology through hands-on, project-based lab activities that engage students in actual biology experiments and procedures - learning biology by actually doing biology.",Prerequisites/Corequisites: Corequisite: BIOL 1010.,"When Offered: Fall, spring and summer terms annually.",['BIOL 1010'],['BIOL 1010'],Science
+CHEMISTRY II,LEC,4,MTRF,10:30AM,12:35PM,Steven A. Tysoe,Walker Laboratory 5113,20,4,16,CHEM,2024-07-08,2024-08-16,SUMMER 2024,20012,1200,01,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+CHEMISTRY II,LEC,4,MR,1:00PM,3:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,20,4,16,CHEM,2024-07-08,2024-08-16,SUMMER 2024,20012,1200,01,CHEM-1200,Chemistry Ii,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120.,When Offered: Spring and summer terms annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+ORGANIC CHEMISTRY LAB I,LEC,1,TF,1:30PM,4:20PM,Margarita L Kirova-Snover,Walker Laboratory 3214,10,3,7,CHEM,2024-05-20,2024-07-01,SUMMER 2024,19789,2230,01,CHEM-2230,Organic Chemistry Lab I,Laboratory experiments dealing with basic techniques used in the synthesis and characterization of organic compounds.,Prerequisites/Corequisites: Pre- or corequisite: CHEM 2250 or a similar course in organic chemistry.,When Offered: Fall term annually.,['CHEM 2250'],['CHEM 2250'],Science
+MACROSCOPIC PHYSICAL CHEMISTRY,LEC,3,MR,8:00AM,10:05AM,Amgalanbaatar Baldansuren,Jonsson Engineering Center 4309,35,9,26,CHEM,2024-05-20,2024-07-27,SUMMER 2024,19606,4410,01,CHEM-4410,Macroscopic Physical Chemistry,"A course dealing with physicochemical properties of substances on a macroscopic scale. Chemical thermodynamics, electrochemistry, electric and magnetic phenomena, transport properties, and surface and colloid chemistry.",Prerequisite: MATH 2400.,When Offered: Fall and summer terms annually.,['MATH 2400'],['MATH 2400'],Science
+CHEMISTRY II WITHOUT LAB,LEC,3,MTRF,10:30AM,12:35PM,Steven A. Tysoe,Walker Laboratory 5113,1,0,1,CHEM,2024-07-08,2024-08-16,SUMMER 2024,20115,1210,01,CHEM-1210,Chemistry Ii Without Lab,"Continued examination of the principles of chemistry in more depth, considering thermodynamics, advanced concepts in chemical equilibrium and acid-base chemistry, kinetics of chemical reactions, and electrochemistry. This course consists of the lecture portion of CHEM 1200 with no laboratory requirements. Students cannot get credit for this course and CHEM 1200 or CHEM 1220.",Prerequisites/Corequisites: CHEM 1100 or CHEM 1110 or CHEM 1120,,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+ORGANIC CHEMISTRY LAB II,LEC,1,TF,1:30PM,4:20PM,Filbert Totsingan,Walker Laboratory 3214,10,5,5,CHEM,2024-07-08,2024-08-16,SUMMER 2024,19790,2240,01,CHEM-2240,Organic Chemistry Lab Ii,"A continuation of CHEM 2230, which is a prerequisite.",Prerequisite: CHEM 2230 and CHEM 2260 or a similar course in organic chemistry should be taken with or prior to this course.,When Offered: Spring term annually.,"['CHEM 2230', 'CHEM 2230', 'CHEM 2260']","['CHEM 2230', 'CHEM 2230', 'CHEM 2260']",Science
+ORGANIC CHEMISTRY I,LEC,3,MTRF,10:30AM,12:20PM,Filbert Totsingan,Pittsburgh Building 5216,30,4,26,CHEM,2024-05-20,2024-07-01,SUMMER 2024,19319,2250,01,CHEM-2250,Organic Chemistry I,"Structure and chemical behavior of organic molecules with particular emphasis on reaction mechanisms as pathways for understanding their reactions. Stereochemistry, synthesis, and spectroscopic methods for the identification of organic functional groups are among the topics included.","Prerequisite: CHEM 1100 or CHEM 1110 or CHEM 1120, or equivalent.",When Offered: Fall term annually.,"['CHEM 1100', 'CHEM 1110', 'CHEM 1120']","['CHEM 1100', 'CHEM 1110', 'CHEM 1120']",Science
+INORGANIC CHEMISTRY II,LEC,3,TF,1:30PM,3:05PM,Peter John Bonitatibus,Walker Laboratory 5113,15,7,8,CHEM,2024-05-20,2024-08-16,SUMMER 2024,19607,4010,01,CHEM-4010,Inorganic Chemistry Ii,"A course dealing with more advanced topics of inorganic chemistry, including molecular symmetry, application of symmetry concepts to molecular orbital descriptions of polyatomic molecules, solid state and non-stoichiometric compounds, coordination chemistry, spectral and magnetic properties, organometallic chemistry, and bioinorganic chemistry.",Prerequisite: CHEM 2030; it is recommended that CHEM 4410 be taken concurrently.,When Offered: Fall and summer terms annually,"['CHEM 2030', 'CHEM 4410']","['CHEM 2030', 'CHEM 4410']",Science
+PHYSICAL CHEM FOR LIFE SCIENCE,LEC,4,MR,8:00AM,10:05AM,Wilfredo Colon/Amgalanbaatar Baldansuren,Jonsson Engineering Center 4309,35,16,19,CHEM,2024-05-20,2024-08-16,SUMMER 2024,19605,4440,01,CHEM-4440,Physical Chem For Life Science,"Topics in physical chemistry that are important for understanding processes in biological systems. Included are: thermodynamics as applied to phase and chemical equilibria in chemical and biochemical systems; passive transport models for diffusion and electrical conductivity in electrolyte solutions; kinetic models for simple and complex chemical reactions, including enzyme mechanisms; quantum mechanical models used in spectroscopy.",Prerequisites: CHEM 1200 or CHEM 1220 and MATH 1010.,When Offered: Fall and summer terms annually.,"['CHEM 1200', 'CHEM 1220', 'MATH 1010']","['CHEM 1200', 'CHEM 1220', 'MATH 1010']",Science
+ORGANIC CHEMISTRY II,LEC,3,MTRF,10:30AM,12:20PM,Margarita L Kirova-Snover,Russell Sage Laboratory 4112,40,4,36,CHEM,2024-07-08,2024-08-16,SUMMER 2024,19320,2260,01,CHEM-2260,Organic Chemistry Ii,"A continuation of CHEM 2250, which is a prerequisite.",Prerequisite: CHEM 2250.,When Offered: Spring term annually.,"['CHEM 2250', 'CHEM 2250']","['CHEM 2250', 'CHEM 2250']",Science
+MODERN TECHNIQUES IN CHEMISTRY,LEC,4,MR,8:00AM,9:35AM,Simon Nicholas Platts/Steven A. Tysoe,Walker Laboratory 6113,16,16,0,CHEM,2024-05-20,2024-08-16,SUMMER 2024,19530,4530,01,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
+MODERN TECHNIQUES IN CHEMISTRY,LEC,4,MR,2:00PM,5:00PM,Simon Nicholas Platts/Steven A. Tysoe,Walker Laboratory 3109,16,16,0,CHEM,2024-05-20,2024-08-16,SUMMER 2024,19530,4530,01,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
+MODERN TECHNIQUES IN CHEMISTRY,LEC,4,W,12:00PM,3:00PM,Simon Nicholas Platts/Steven A. Tysoe,Walker Laboratory 3109,16,16,0,CHEM,2024-05-20,2024-08-16,SUMMER 2024,19530,4530,01,CHEM-4530,Modern Techniques In Chemistry,"A lecture/laboratory course for Chemical Engineering students. Topics include the principles of chemical equilibria and their relation to modern analytical methods and the basis of instrumental techniques for characterizing the chemical structures and properties of compounds. The course provides laboratory experience in the use of modern instruments along with other chemical techniques. Aspects of analytical, organic, and physical chemistry will be illustrated throughout the course. Students cannot get credit for both this course and CHEM 2110.",Prerequisites: CHEM 2250.,"When Offered: Fall, spring, and summer terms annually.",['CHEM 2250'],['CHEM 2250'],Science
+INTRO TO NANOMATERIALS CHEM,LEC,2,TF,10:30AM,12:35PM,Geetu Sharma,Low Center for Industrial Inn. 3112,20,7,13,CHEM,2024-05-20,2024-07-01,SUMMER 2024,19752,4961,01,CHEM-4961,Intro To Nanomaterials Chem,,,,[],[],Science
+FOOD CHEMISTRY AND TECHNOLOGY,LEC,2,TF,10:30AM,12:35PM,Filbert Totsingan,Darrin Communications Center 236,30,21,9,CHEM,2024-07-08,2024-08-16,SUMMER 2024,19753,4962,01,CHEM-4962,Food Chemistry And Technology,,,,[],[],Science
+MOLECULAR BIOCHEMISTRY I,LEC,4,MR,10:30AM,12:35PM,Keith Fraser,Amos Eaton Hall 214,50,15,35,CHEM,2024-05-20,2024-08-16,SUMMER 2024,19548,4760,01,CHEM-4760,Molecular Biochemistry I,"Part I of a two-semester sequence focusing on the chemistry, structure, and function of biological molecules, macromolecules, and systems. Topics covered include protein and nucleic acid structure, enzymology, mechanisms of catalysis, regulation, lipids and membranes, carbohydrates, bioenergetics, and carbohydrate metabolism.",Prerequisites/Corequisites: CHEM 2250 and BIOL 1010 or BIOL 2120 or equivalents.,When Offered: Fall term annually.,"['CHEM 2250', 'BIOL 1010', 'BIOL 2120']","['CHEM 2250', 'BIOL 1010', 'BIOL 2120']",Science
+CHEMISTRY I,LEC,4,MTRF,10:30AM,12:35PM,Alexander C. Ma,Walker Laboratory 5113,20,2,18,CHEM,2024-05-20,2024-07-01,SUMMER 2024,19495,1100,01,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY I,LEC,4,MR,1:00PM,3:50PM,Kathleen Lillian Morrissey/Geetu Sharma,Walker Laboratory 5113,20,2,18,CHEM,2024-05-20,2024-07-01,SUMMER 2024,19495,1100,01,CHEM-1100,Chemistry I,"Principles of chemistry, with particular focus on atomic and molecular structure and bonding, periodicity, basic thermodynamic principles, introduction to acid-base chemistry and elementary chemical equilibrium, and introduction to organic chemistry. The course includes a laboratory component which compliments the lecture by offering students experimental experience and hands on applications to theory.",,"When Offered: Fall, spring and summer terms annually.",[],[],Science
+CHEMISTRY IN THE MOVIES,LEC,2,TF,8:00AM,10:05AM,Steven A. Tysoe,Low Center for Industrial Inn. 3045,30,20,10,CHEM,2024-05-20,2024-07-01,SUMMER 2024,20067,2961,01,CHEM-2961,Chemistry In The Movies,,,,[],[],Science
+SOFTWARE DESIGN & DOCUME,LEC,4,MR,10:30AM,12:35PM,John Sturman,Lally Hall 102,50,40,10,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19788,4440,01,CSCI-4440,Software Design & Docume,"Software system design methodology emphasizing use of object oriented modeling of application domains and of software systems and emphasizing the roles of written and oral communication in software engineering. Project management and software testing. Individual and team projects include specification, software architecture, user interfaces, and documentation of the phases of a project. This is a communication-intensive course.",Prerequisite: CSCI 2300.,When Offered: Fall and spring terms annually.,['CSCI 2300'],['CSCI 2300'],Science
+SOFTWARE DESIGN & DOCUME,LEC,4,MR,1:30PM,3:35PM,John Sturman,Lally Hall 102,50,39,11,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19800,4440,02,CSCI-4440,Software Design & Docume,"Software system design methodology emphasizing use of object oriented modeling of application domains and of software systems and emphasizing the roles of written and oral communication in software engineering. Project management and software testing. Individual and team projects include specification, software architecture, user interfaces, and documentation of the phases of a project. This is a communication-intensive course.",Prerequisite: CSCI 2300.,When Offered: Fall and spring terms annually.,['CSCI 2300'],['CSCI 2300'],Science
+NUMERICAL COMPUTING,LEC,4,MR,10:30AM,12:35PM,William Douglas Henshaw,Pittsburgh Building 4206,10,8,2,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19787,4800,01,CSCI-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis is placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+MASTER'S PROJECT,LEC,1-9,,,,Mohammed J. Zaki,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19216,6980,01,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,James A. Hendler,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19233,6980,02,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Selmer Bringsjord,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19515,6980,03,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Ana L. Milanova,TBA,20,0,20,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19263,6980,04,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Barbara Cutler,TBA,25,1,24,CSCI,2024-05-20,2024-08-16,SUMMER 2024,20043,6980,05,CSCI-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Mohammed J. Zaki,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19255,6990,01,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Deborah L. McGuinness,TBA,5,0,5,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19368,6990,06,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Christopher D. Carothers,TBA,5,0,5,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19457,6990,08,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Carlos A Varela,TBA,10,0,10,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19490,6990,10,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Barbara Cutler,TBA,5,0,5,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19371,6990,11,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Boleslaw Szymanski,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19280,6990,12,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+MASTERS THESIS,LEC,1-16,,,,Ana L. Milanova,TBA,20,0,20,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19264,6990,13,CSCI-6990,Masters Thesis,"Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the thesis has been presentend, approved by the adviser, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+INTRODUCTION TO RESEARCH,LEC,4,TF,10:30AM,12:35PM,Neha Keshan,Low Center for Industrial Inn. 3039,30,15,15,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19478,4960,01,CSCI-4960,Introduction To Research,"This course is designed to introduce students to the key aspects of CSCI inter-domain research. The course's goal is to make students aware of the technicalities related to formal research and to assist students in overcoming any common misconceptions that may exist. By completing this course, students will be able to conduct research in a more systematic and formal manner from the start.",Prerequisites: CSCI 2200,,['CSCI 2200'],[],Science
+INTRODUCTION TO RESEARCH,LEC,4,TF,1:30PM,3:35PM,Neha Keshan,Low Center for Industrial Inn. 3039,30,5,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,20017,4960,02,CSCI-4960,Introduction To Research,"This course is designed to introduce students to the key aspects of CSCI inter-domain research. The course's goal is to make students aware of the technicalities related to formal research and to assist students in overcoming any common misconceptions that may exist. By completing this course, students will be able to conduct research in a more systematic and formal manner from the start.",Prerequisites: CSCI 2200,,['CSCI 2200'],[],Science
+INTRO TO QUANTUM COMPUTING,LEC,4,TF,6:30PM,8:35PM,Xiaoyang Liu,Darrin Communications Center 337,60,50,10,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19550,4961,01,CSCI-4961,Intro To Quantum Computing,"Building on a foundation of computing (CSCI 2200) and algorithms (CSCI 2300), this course delves into such fundamental principles as qubits, superposition, entanglement, quantum gates, and algorithms. Students will engage in hands-on lab sessions using Qiskit and/or AWS/Azure cloud services, exploring both quantum and classical simulations of quantum circuits. Students will also explore potential applications in optimization and machine learning, with discussions on the latest in quantum hardware, including Google's Sycamore circuits. Learning objectives include a solid grasp of quantum computing principles, an understanding of quantum advantages (including the quantum supremacy in the NISQ era), proficiency in reading and analyzing simple quantum algorithms, and insights into practical applications.",Prerequisites: CSCI 2300,,['CSCI 2300'],[],Science
+PRINCIPLES OF SOFTWARE,LEC,4,TF,4:10PM,6:15PM,Konstantin Kuzmin/Shianne M. Hulbert,Low Center for Industrial Inn. 4050,100,41,59,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19603,2600,01,CSCI-2600,Principles Of Software,"A study of important concepts in software design, implementation, and testing. Topics include specification, abstraction with classes, design principles and patterns, testing, refactoring, the software development process, GUI and event-driven programming, and cloud-based programming. The course also introduces implementation and testing tools, including IDEs, revision control systems, and other frameworks. The overarching goal of the course is for students to learn how to write correct and maintainable software.",Prerequisites: CSCI 1200 and CSCI 2200.,When Offered: Spring and summer terms annually.,"['CSCI 1200', 'CSCI 2200']","['CSCI 1200', 'CSCI 2200']",Science
+PRINCIPLES OF SOFTWARE,LEC,4,R,4:10PM,6:15PM,TBA,Darrin Communications Center 318,100,41,59,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19603,2600,01,CSCI-2600,Principles Of Software,"A study of important concepts in software design, implementation, and testing. Topics include specification, abstraction with classes, design principles and patterns, testing, refactoring, the software development process, GUI and event-driven programming, and cloud-based programming. The course also introduces implementation and testing tools, including IDEs, revision control systems, and other frameworks. The overarching goal of the course is for students to learn how to write correct and maintainable software.",Prerequisites: CSCI 1200 and CSCI 2200.,When Offered: Spring and summer terms annually.,"['CSCI 1200', 'CSCI 2200']","['CSCI 1200', 'CSCI 2200']",Science
+PRINCIPLES OF SOFTWARE,LEC,4,TF,6:30PM,8:35PM,Konstantin Kuzmin/Shianne M. Hulbert,Low Center for Industrial Inn. 4050,100,69,31,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19777,2600,02,CSCI-2600,Principles Of Software,"A study of important concepts in software design, implementation, and testing. Topics include specification, abstraction with classes, design principles and patterns, testing, refactoring, the software development process, GUI and event-driven programming, and cloud-based programming. The course also introduces implementation and testing tools, including IDEs, revision control systems, and other frameworks. The overarching goal of the course is for students to learn how to write correct and maintainable software.",Prerequisites: CSCI 1200 and CSCI 2200.,When Offered: Spring and summer terms annually.,"['CSCI 1200', 'CSCI 2200']","['CSCI 1200', 'CSCI 2200']",Science
+PRINCIPLES OF SOFTWARE,LEC,4,R,4:10PM,6:15PM,TBA,Darrin Communications Center 318,100,69,31,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19777,2600,02,CSCI-2600,Principles Of Software,"A study of important concepts in software design, implementation, and testing. Topics include specification, abstraction with classes, design principles and patterns, testing, refactoring, the software development process, GUI and event-driven programming, and cloud-based programming. The course also introduces implementation and testing tools, including IDEs, revision control systems, and other frameworks. The overarching goal of the course is for students to learn how to write correct and maintainable software.",Prerequisites: CSCI 1200 and CSCI 2200.,When Offered: Spring and summer terms annually.,"['CSCI 1200', 'CSCI 2200']","['CSCI 1200', 'CSCI 2200']",Science
+APPLICATION DESIGN USING JAVA,LEC,4,TF,8:00AM,10:05AM,Konstantin Kuzmin/Meredith Elizabeth Widman,Carnegie Building 113,50,44,6,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19551,4963,01,CSCI-4963,Application Design Using Java,"Java is one of the most popular general purpose modern programming languages used in industry. This course focuses on learning and practicing advanced Java features that are widely used in industry and academia. The first part of the course is dedicated to object-oriented features of Java and how to use them in software design. It also covers all major tools that support the development process during the entire software development life cycle. The second part of the course covers parallel programming, how it can be implemented in Java, its advantages and limitations. The third part of the course is dedicated to creating Web applications. Finally, the fourth part of the course discusses different database models and provides specific details on how to create Java applications that can use different databases as a data storage option. Special attention is given to noSQL graph databases that, combined with Java, allow building solutions that are capable of storing, manipulating, and analyzing billion-node scale networks.",Prerequisites: CSCI 2300 and CSCI 2600,,"['CSCI 2300', 'CSCI 2600']",[],Science
+COMPUTER SCIENCE I,LEC,4,MR,1:30PM,3:10PM,Uzma Mushtaque/Shianne M. Hulbert,Troy Building 2018,32,11,21,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19323,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,T,1:30PM,3:35PM,TBA,Troy Building 2018,32,11,21,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19323,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COMPUTER SCIENCE I,LEC,4,R,4:10PM,6:15PM,TBA,Troy Building 2018,32,11,21,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19323,1100,01,CSCI-1100,Computer Science I,"An introduction to computer programming algorithm design and analysis. Additional topics include basic computer organization; internal representation of scalar and array data; use of top-down design and subprograms to tackle complex problems; abstract data types. Enrichment material as time allows. Interdisciplinary case studies, numerical and nonnumerical applications. Students who have passed CSCI 1200 cannot register for this course.",,"When Offered: Fall, spring, and summer terms annually.",[],[],Science
+COGNITIVE MODELING,LEC,4,MTRF,8:00AM,10:05AM,Lucy Cui,Troy Building 2015,19,5,14,CSCI,2024-07-08,2024-08-16,SUMMER 2024,20037,4965,01,CSCI-4965,Cognitive Modeling,,,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Mohammed J. Zaki,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19258,9990,01,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Boleslaw Szymanski,TBA,25,0,25,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19353,9990,04,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+DISSERTATION,LEC,1-15,,,,Deborah L. McGuinness,TBA,10,0,10,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19499,9990,05,CSCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+RCOS,LEC,1,TF,1:30PM,3:35PM,Wesley D Turner/David Eric Goldschmidt,Carnegie Building 113,16,6,10,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19723,2960,01,CSCI-2960,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+RCOS,LEC,2,TF,1:30PM,3:35PM,Wesley D Turner/David Eric Goldschmidt,Carnegie Building 113,16,2,14,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19830,2960,02,CSCI-2960,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+RCOS,LEC,3,TF,1:30PM,3:35PM,Wesley D Turner/David Eric Goldschmidt,Carnegie Building 113,32,11,21,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19891,2960,03,CSCI-2960,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+RCOS,LEC,4,TF,1:30PM,3:35PM,Wesley D Turner/David Eric Goldschmidt,Carnegie Building 113,160,127,33,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19906,2960,04,CSCI-2960,Rcos,"RCOS (Rensselaer Center for Open Source) is an eclectic group of undergraduate students that embark on individual and team-based open source projects, primarily software, but also open hardware projects. Many new projects are introduced each semester, though many ongoing and ""higher-profile"" projects are also undertaken. Overall, students are required to work on and contribute to open source projects, in particular through multiple commits (commit early, commit often), maintaining a blog, presenting their work and/or specific technical talks, mentoring other projects, etc. This project-based ""course"" may be taken multiple semesters, with grades based on clear effort and contributions rather than a project that meets all of its requirements.",Prerequisites: CSCI 1700 or CSCI 2700 or CSCI 1200 or CSCI 2200,,"['CSCI 1700', 'CSCI 2700', 'CSCI 1200', 'CSCI 2200']",[],Science
+OPERATING SYSTEMS,LEC,4,MR,10:30AM,12:35PM,David Eric Goldschmidt/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,75,73,2,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19599,4210,01,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,T,4:10PM,6:15PM,TBA,TBA,75,73,2,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19599,4210,01,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,MR,10:30AM,12:35PM,Jidong Xiao/David Eric Goldschmidt/Meredith Elizabeth Widman,Darrin Communications Center 308,75,59,16,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19609,4210,02,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,T,4:10PM,6:15PM,TBA,TBA,75,59,16,CSCI,2024-05-20,2024-08-16,SUMMER 2024,19609,4210,02,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,MR,1:30PM,3:35PM,David Eric Goldschmidt/Meredith Elizabeth Widman/Jidong Xiao,Darrin Communications Center 308,75,70,5,CSCI,2024-05-20,2024-08-16,SUMMER 2024,20013,4210,03,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,T,4:10PM,6:15PM,TBA,TBA,75,70,5,CSCI,2024-05-20,2024-08-16,SUMMER 2024,20013,4210,03,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,MR,1:30PM,3:35PM,Jidong Xiao/David Eric Goldschmidt/Meredith Elizabeth Widman,Darrin Communications Center 308,75,49,26,CSCI,2024-05-20,2024-08-16,SUMMER 2024,20014,4210,04,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+OPERATING SYSTEMS,LEC,4,T,4:10PM,6:15PM,TBA,TBA,75,49,26,CSCI,2024-05-20,2024-08-16,SUMMER 2024,20014,4210,04,CSCI-4210,Operating Systems,"Discussion of various aspects of computer operating systems design and implementation. Topics include I/O programming, concurrent processes and synchronization problems, process management and scheduling of processes, virtual memory management, device management, file systems, deadlock problems, system calls, and interprocess communication. Programming projects are required.",Prerequisites: CSCI 2300 and either CSCI 2500 or ECSE 2660.,When Offered: Spring and summer terms annually.,"['CSCI 2300', 'CSCI 2500', 'ECSE 2660']","['CSCI 2300', 'CSCI 2500', 'ECSE 2660']",Science
+DISSERTATION,LEC,1-15,,,,TBA,TBA,10,0,10,ISCI,2024-05-20,2024-08-16,SUMMER 2024,19454,9990,07,ISCI-9990,Dissertation,"Active participation in research, under the supervision of a faculty adviser, leading to a doctoral dissertation. Grades of S or U are assigned by the adviser each term to reflect the student's research progress for the given semester. Once the dissertation has been publicly defended, approved by the doctoral committee, and accepted by the Office of Graduate Education, it will be archived in a standard format in the library.",,,[],[],Science
+ENVIRONMENTAL MEASUREMENTS,LEC,4,MR,1:30PM,5:35PM,Sasha Joy Wagner,Jonsson-Rowland Science Center 3W13,10,13,-3,ERTH,2024-07-08,2024-08-16,SUMMER 2024,19795,4190,01,ERTH-4190,Environmental Measurements,"Modern methods used in analysis of environmental samples for monitoring and research purposes. Standard and advanced techniques of air, water, sediment, and soil analysis are covered including spectrometric and chromatographic methods.",Permission of the instructor required.,When Offered: Summer Arch,[],[],Science
+PLANET EARTH I,LEC,4,TF,1:30PM,4:35PM,Sarah Beth Cadieux,Jonsson-Rowland Science Center 2C13,24,22,2,ERTH,2024-05-20,2024-08-16,SUMMER 2024,19851,1010,01,ERTH-1010,Planet Earth I,"Age and origin of the Earth, internal constituents, and energy sources; how plates move, oceans develop, resources accumulate, and mountains rise. Gives nonspecialists a picture of the Earth's major processes and the ways in which they interact to provide the world's citizens with adequate material resources. Lectures and recitation. (Students cannot obtain credit for both ERTH 1010 and ERTH 1100.)",,When Offered: Fall term annually.,[],[],Science
+LINEAR ALGEBRA,LEC,4,MR,1:30PM,3:35PM,Chjan C Lim,Carnegie Building 113,80,25,55,MATH,2024-05-20,2024-08-16,SUMMER 2024,19783,4100,01,MATH-4100,Linear Algebra,"The theory underlying vector spaces, algebra of subspaces, bases; linear transformations, dual spaces; eigenvectors, eigenvalues, minimal polynomials, canonical forms of linear transformations; inner products, adjoints, orthogonal projections, and complements.",Prerequisites/Corequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+NUMERICAL COMPUTING,LEC,4,MR,10:30AM,12:35PM,William Douglas Henshaw,Pittsburgh Building 4206,60,31,29,MATH,2024-05-20,2024-08-16,SUMMER 2024,19786,4800,01,MATH-4800,Numerical Computing,"A survey of numerical methods for scientific and engineering problems. Topics include numerical solution of linear and nonlinear algebraic equations, interpolation and least squares approximations, numerical integration and differentiation, eigenvalue problems, and an introduction to the numerical solution of ordinary differential equations. Emphasis placed on efficient computational procedures including the use of library and student written procedures using high-level software such as MATLAB.",Prerequisites: MATH 2010 and MATH 2400.,When Offered: Fall and spring terms annually.,"['MATH 2010', 'MATH 2400']","['MATH 2010', 'MATH 2400']",Science
+MASTER'S PROJECT,LEC,1-6,,,,William Douglas Henshaw,TBA,10,1,9,MATH,2024-05-20,2024-08-16,SUMMER 2024,20047,6980,01,MATH-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+INTRO TO COMPLEX VARIABLES,LEC,4,TF,1:30PM,3:35PM,Belmiro Galo da Silva,Amos Eaton Hall 214,60,49,11,MATH,2024-05-20,2024-08-16,SUMMER 2024,19784,4300,01,MATH-4300,Intro To Complex Variables,"An introduction to the theory and applications of complex variables. Topics include analytic functions, Riemann surfaces, complex integration, Taylor and Laurent series, residues, conformal mapping, harmonic functions, and Laplace transforms. Applications will be to problems in science and engineering such as fluid and heat flow, dynamical systems, and electrostatics.",Prerequisite: MATH 2010 or equivalent.,When Offered: Spring term annually.,['MATH 2010'],['MATH 2010'],Science
+CALCULUS II,LEC,4,MTRF,10:30AM,12:35PM,Daniel Franklin Stevenson,Amos Eaton Hall 216,60,8,52,MATH,2024-05-20,2024-07-01,SUMMER 2024,20015,1020,01,MATH-1020,Calculus Ii,"Techniques and applications of integration, polar coordinates, parametric equations, infinite sequences and series, vector functions and curves in space, functions of several variables, and partial derivatives.",Prerequisite: MATH 1010.,When Offered: Fall and spring terms annually.,['MATH 1010'],['MATH 1010'],Science
+ADVANCED CALCULUS,LEC,4,MR,1:30PM,3:35PM,Gregor Kovacic,Darrin Communications Center 337,80,33,47,MATH,2024-05-20,2024-08-16,SUMMER 2024,19785,4600,01,MATH-4600,Advanced Calculus,"A course emphasizing advanced concepts and methods from calculus. Topics include: multivariable integral theorems (Green's, divergence, Stokes', Reynolds transport), extrema of multivariable functions (including Taylor's theorem and Lagrange multipliers), the calculus of variations (Euler-Lagrange equations, constraints, principle of least action), and Cartesian tensors (calculus, invariants, representations).",Prerequisites: MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+FOUNDATIONS OF ANALYSIS,LEC,4,TF,10:30AM,12:35PM,Belmiro Galo da Silva,Amos Eaton Hall 214,40,33,7,MATH,2024-05-20,2024-08-16,SUMMER 2024,19782,4090,01,MATH-4090,Foundations Of Analysis,"The course provides an opportunity for the development of theorem-proving skills in the field of mathematical analysis. Expansion of a knowledge base comes as a by-product of energy expended in theorem proving and subsequent exposition. Analysis topics included are: sets, functions, the real numbers, cardinality, induction, decimal representations of real numbers, Euclidean spaces, abstract vector spaces, and metric spaces. This is a communication-intensive course.",Prerequisites: mathematics major and MATH 2010.,When Offered: Fall and spring terms annually.,['MATH 2010'],['MATH 2010'],Science
+EXPERIMENTAL PHYSICS,LEC,4,T,8:00AM,12:00PM,Joseph Darryl Michael,Jonsson-Rowland Science Center 2C14,18,16,2,PHYS,2024-05-20,2024-08-16,SUMMER 2024,19778,2350,01,PHYS-2350,Experimental Physics,"Experiments in mechanics, optics, electricity and electromagnetics, oscillations and waves, atomic, nuclear, and solid-state physics. Experimental methods, quantitative observations, and interpretation of data. This is a communication-intensive course.",Prerequisite or co-requisite:PHYS 2210,"When Offered: Fall, spring, and summer terms annually.",['PHYS 2210'],['PHYS 2210'],Science
+EXPERIMENTAL PHYSICS,LEC,4,W,12:00PM,4:00PM,Joseph Darryl Michael,Jonsson-Rowland Science Center 2C14,18,17,1,PHYS,2024-05-20,2024-08-16,SUMMER 2024,19779,2350,02,PHYS-2350,Experimental Physics,"Experiments in mechanics, optics, electricity and electromagnetics, oscillations and waves, atomic, nuclear, and solid-state physics. Experimental methods, quantitative observations, and interpretation of data. This is a communication-intensive course.",Prerequisite or co-requisite:PHYS 2210,"When Offered: Fall, spring, and summer terms annually.",['PHYS 2210'],['PHYS 2210'],Science
+PHYSICS II,LEC,4,MTRF,1:30PM,3:35PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C22,48,34,14,PHYS,2024-07-08,2024-08-16,SUMMER 2024,19366,1200,01,PHYS-1200,Physics Ii,"The second semester of the two-semester sequence of interactive courses. Topics include electric and magnetic forces and fields, Gauss's Law, dc and ac circuits, Ampere's Law and Faraday's Law, electromagnetic radiation, physical optics, and quantum physics. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisite: PHYS 1100 or equivalent or permission of instructor. Corequisite: MATH 1020.,When Offered: Fall and spring terms annually.,"['PHYS 1100', 'MATH 1020']","['PHYS 1100', 'MATH 1020']",Science
+INTRO PHYSICS TEACH PRACTICUM,LEC,2,,,,Peter Persans,TBA,30,1,29,PHYS,2024-05-20,2024-07-01,SUMMER 2024,19760,2961,01,PHYS-2961,Intro Physics Teach Practicum,,,,[],[],Science
+COMPUTING FOR PHYSICISTS,LEC,4,TF,1:30PM,3:35PM,Damien J. West,Jonsson Engineering Center 3210,40,14,26,PHYS,2024-05-20,2024-08-16,SUMMER 2024,19608,2962,01,PHYS-2962,Computing For Physicists,,,,[],[],Science
+PHYS TEACHING PRACTICUM,LEC,2,,,,Peter Persans,TBA,0,0,0,PHYS,2024-07-08,2024-08-16,SUMMER 2024,19948,2963,02,PHYS-2963,Phys Teaching Practicum,,,,[],[],Science
+MASTER'S PROJECT,LEC,1-9,,,,Gwo Ching Wang,TBA,10,0,10,PHYS,2024-05-20,2024-07-01,SUMMER 2024,19346,6980,01,PHYS-6980,MASTER'S Project,"Active participation in a master's-level project, under the supervision of a faculty adviser, leading to a master's project report. Grades S or U are assigned at the end of the semester. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the library.",,,[],[],Science
+PHYSICS I,LEC,4,MTRF,1:30PM,3:35PM,Yong Sung Kim,Jonsson-Rowland Science Center 2C30,40,13,27,PHYS,2024-05-20,2024-07-01,SUMMER 2024,19365,1100,01,PHYS-1100,Physics I,"The first semester of a two-semester sequence of interactive courses. Topics include linear and angular kinematics and dynamics, work and energy, momentum and collisions, forces and fields, gravitation, oscillatory motion, waves, sound, and interference. This course includes a lab component that is intended to provide students with hand-on as well as data analysis experience.",Prerequisites/Corequisites: Corequisite: MATH 1010 or equivalent or permission of instructor. Credit cannot be obtained for both PHYS 1050 and PHYS 1100.,When Offered: Fall and spring terms annually.,"['MATH 1010', 'PHYS 1050']","['MATH 1010', 'PHYS 1050']",Science
+GROUP THEORY FOR PHYSICISTS,LEC,4,MR,10:30AM,12:35PM,Julian S. Georg,Jonsson Engineering Center 5119,35,25,10,PHYS,2024-05-20,2024-08-16,SUMMER 2024,19791,4962,01,PHYS-4962,Group Theory For Physicists,,,,[],[],Science