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| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
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Subject: Actuarial Science (ACSC)
CRN: 41023
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Writing in the Discipline
This course introduces students to the subjects of insurance--theory and practice--and corporate risk management. In addressing these subjects, students will receive exposure to risk theory, insurance pricing, contract analysis, insurance company operations, reinsurance, regulation and the concepts and principles of business risk management. Offered fall semester. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Actuarial Science (ACSC)
CRN: 41024
In Person | Lecture
St Paul: Owens Science Hall 275
A survey of topics in the mathematical analysis of financial transactions which involve payments made over time. Specific areas of concentration will include the time value of money, the analysis of annuities, amortization and sinking funds, and the pricing and rates of return on investments. Both continuous time and discrete time problems will be considered. Offered spring semester. Prerequisite: a grade of C- or above in MATH 114
4 Credits
| 10/23 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Actuarial Science (ACSC)
CRN: 41025
Blended Online & In-Person | Online: Asynchronous Blended
St Paul: O'Shaughnessy Science Hall 227
Requirements Met:
[Core] Signature Work
This course serves as, partly, a Capstone course for the Actuarial Science major and one of the tracks in the Risk Management & Insurance Certificate, but also presents some flexibility for focusing on timely and relevant topics in the field. As such, there is an expectation that some topics will change over time to reflect current issues of importance. Nevertheless, the general thematic structure of this course is to examine risk management and insurance ‘in action.’ On the risk management side of the course this will mean examining risk management program operations and will entail some case study activity. Such topics could include problems in managing work-related injury; managing risks in global firms; and alternative risk financing. On the insurance side of the course, the intention is to consider insurance industry challenges and problems. Such topics could include the effects of climate change on the insurance contract; insuring driverless vehicles; and an examination of the reinsurance sector. Prerequisites: ACSC 220 or FINC 2XX (crosslisted course equiv. to ACSC 220) and either ACSC 264 and STAT 313 or FINC 301, FINC 302, and FINC 303
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Actuarial Science (ACSC)
CRN: 41026
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 327
The course covers the theory and applications of contingency mathematics in the area of life and health insurance, annuities and pensions from both the probabilistic and deterministic approaches. Topics will include: survival distributions, actuarial notation, life insurance and life annuities, net premiums and reserves. Offered fall semester. Prerequisite: a grade of C- or above in ACSC 264 and STAT 313
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biochemistry (BCHM)
CRN: 43012
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Requirements Met:
Writing to learn
BCHM301 is taken the first semester of the junior year. It is a two-credit course graded on the usual letter grade scale. The course is an in-depth investigation of selected current topics in biochemistry designed to develop critical scientific reading, writing, and presentation skills while exploring the primary literature. The subject matter will vary from year to year. The class will meet for one and a half hours once per week with evaluation based upon in-class discussion and quality of written and oral assignments. Required of all biochemistry majors. Prerequisites: CHEM 202, completion or current enrollment in BIOL 209
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biochemistry (BCHM)
CRN: 42310
In Person | Lecture
St Paul: Owens Science Hall 257
Requirements Met:
Writing to learn
BCHM301 is taken the first semester of the junior year. It is a two-credit course graded on the usual letter grade scale. The course is an in-depth investigation of selected current topics in biochemistry designed to develop critical scientific reading, writing, and presentation skills while exploring the primary literature. The subject matter will vary from year to year. The class will meet for one and a half hours once per week with evaluation based upon in-class discussion and quality of written and oral assignments. Required of all biochemistry majors. Prerequisites: CHEM 202, completion or current enrollment in BIOL 209
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Biology (BIOL)
CRN: 41069
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41070
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41071
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Emphasizing biology as a creative, investigative process and its relevance in today's world, this course provides an overview of cell biology, genetics, physiology, and human impact on the environment. Two laboratory hours per week. Not open to biology majors, pre-professional students, or students who have completed BIOL 105 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41074
Online: Asynchronous | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41075
Online: Asynchronous | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Biology (BIOL)
CRN: 41072
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Biology (BIOL)
CRN: 41073
In Person | Lecture
St Paul: Owens Science Hall 150
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Biology (BIOL)
CRN: 41076
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Biology (BIOL)
CRN: 41077
In Person | Lecture
St Paul: Owens Science Hall 150
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41078
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:45 pm |
||||||
Subject: Biology (BIOL)
CRN: 41079
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41080
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41081
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41082
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41083
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41084
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:45 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41085
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41086
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41087
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
An introduction to cells, genetics, development and the human body, and the impact of humans on the environment. Laboratories will emphasize investigative scientific problem solving and creative thinking. Three laboratory hours per week. Not open to students who have completed BIOL 101 or BIOL 106.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
|||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41088
Blended Online & In-Person | Lecture
St Paul: Murray-Herrick Campus Center 205
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41089
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:45 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41090
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 404
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
Subject: Biology (BIOL)
CRN: 43306
In Person | Lab
St Paul: In Person
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sci, Med, Soc (SMDS) Minor
School of Ed Transfer Course
WGSS Major Approved
WGSS Minor Approved
This course addresses issues of biology from the perspective of women. The focus of the course will be to learn basic principles of biology in areas such as anatomy, physiology, genetics, cell biology, and microbiology in the context of issues relevant to women and women's health. Two laboratory hours per week. Not open to Biology majors or students who have completed BIOL 101 or BIOL 105.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Biology (BIOL)
CRN: 41091
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Biology (BIOL)
CRN: 41092
In Person | Lecture
St Paul: Owens Science Hall 250
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Biology (BIOL)
CRN: 41093
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Biology (BIOL)
CRN: 41095
In Person | Lecture
St Paul: Murray-Herrick Campus Center 305J
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Biology (BIOL)
CRN: 41096
In Person | Lecture
St Paul: Murray-Herrick Campus Center 305J
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Biology (BIOL)
CRN: 41097
Online: Sync Distributed | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 41098
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
6:00 pm |
||||||
Subject: Biology (BIOL)
CRN: 41099
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Biology (BIOL)
CRN: 41100
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biology (BIOL)
CRN: 41101
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
6:00 pm |
||||||
Subject: Biology (BIOL)
CRN: 41102
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Biology (BIOL)
CRN: 41103
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 41104
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
6:00 pm |
||||||
Subject: Biology (BIOL)
CRN: 41105
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Biology (BIOL)
CRN: 41106
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biology (BIOL)
CRN: 41107
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
6:00 pm |
||||||
Subject: Biology (BIOL)
CRN: 41108
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Biology (BIOL)
CRN: 41109
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 43184
In Person | Lab
St Paul: Owens Science Hall 264
Core Requirements Met:
[Core] Natural Science
This course lays a foundation on which to build both concepts and skills in biology. We explore genetics, evolution, and ecology, demonstrating within each of these disciplines the importance of diversity in supporting life. Topics include: Mendelian genetics, molecular genetics, selection theory and the process of evolution, speciation, and population, community, and global ecology. Emphasis on applications of these topics to current issues related to human health and sustainability. Laboratory work (3 hours per week) consists of authentic research projects that require creating hypotheses, designing experiments, analyzing and interpreting data, and making new contributions to science.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Biology (BIOL)
CRN: 41110
In Person | Lecture
St Paul: Owens Science Hall 257
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Biology (BIOL)
CRN: 41111
In Person | Lecture
St Paul: Murray-Herrick Campus Center 201
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41112
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Online
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41113
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Online
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41114
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Online
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41115
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 378
Online
Core Requirements Met:
[Core] Natural Science
The purpose of this course is to introduce the structure and function of cells, and how structure and function drives organismal physiology and diversity. By the end of this course, through lecture and laboratory exercises, students should have an understanding of the basic components of cells, how cells and organisms transfer genetic information to future generations, how communication is integral to cellular and organismal function, and how cells and organisms generate and process energy to drive physiological functions. In addition, students will continue to improve skills for scientific inquiry through activities designed to increase familiarity with the scientific literature and science terminology, improve skills to design and critically analyze experiments, foster ability to work with a scientific team, and provide opportunities to improve scientific writing. Any one topic covered in this course has enough material for a course of its own. However, this course will give basic overview of a series of selected topics that are meant to introduce students to the vast field of cellular and organismal biology and the use of biological science in life. Prerequisite: c- or above in BIOL 207 or a C- in any BIOL 100 level course.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Biology (BIOL)
CRN: 41116
Blended Online & In-Person | Lecture
St Paul: Murray-Herrick Campus Center 305I
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Biology (BIOL)
CRN: 41117
In Person | Lecture
St Paul: Owens Science Hall 250
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Biology (BIOL)
CRN: 41118
Blended Online & In-Person | Lecture
St Paul: Murray-Herrick Campus Center 305I
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Biology (BIOL)
CRN: 41119
Online: Sync Distributed | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Biology (BIOL)
CRN: 41120
Blended Online & In-Person | Lecture
St Paul: Murray-Herrick Campus Center 305I
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
Influences of humans on the global environment have reached unprecedented levels, increasing the need for society to strive to live in a sustainable manner. Many issues facing the environment have a biological basis. Thus, an understanding of basic biology is necessary to understand and address many environmental issues. This course will cover the fundamental biology involved with five environmental issues at the global scale: climate change, excessive nutrient loading into ecosystems, agricultural production, chemical contaminants, and loss of biodiversity. Specific biological principles to be covered include energy and nutrient mass balance by organisms and ecosystems, homeostasis and organismal physiology, and population dynamics and conservation biology. Prerequisite: Completion of BIOL 207 or BIOL 208 or any 100 level GEOL or CHEM 112 or CHEM 115 or permission of the instructor.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Biology (BIOL)
CRN: 41122
In Person | Lecture
St Paul: Owens Science Hall LL54
Principles of Biochemistry examines the chemistry underlying biological phenomena and emphasizes the importance of biochemistry in fields ranging from agriculture to medicine. Major topics include the structure and function of biological molecules; the critical role of enzymes; the generation, storage and regulation of metabolic energy. Prerequisites: CHEM 201, AND a minimum grade of C- in BIOL 209. For all life science majors besides biochemistry, students may not take CHEM440 in addition to this course and receive BIOL credit for CHEM440. For biochemistry majors, this course does not fulfill a BIOL3XX requirement.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Biology (BIOL)
CRN: 41123
In Person | Lecture
St Paul: Owens Science Hall LL54
Principles of Biochemistry examines the chemistry underlying biological phenomena and emphasizes the importance of biochemistry in fields ranging from agriculture to medicine. Major topics include the structure and function of biological molecules; the critical role of enzymes; the generation, storage and regulation of metabolic energy. Prerequisites: CHEM 201, AND a minimum grade of C- in BIOL 209. For all life science majors besides biochemistry, students may not take CHEM440 in addition to this course and receive BIOL credit for CHEM440. For biochemistry majors, this course does not fulfill a BIOL3XX requirement.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41126
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41127
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41128
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41129
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41130
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41131
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41132
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41133
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 380
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Biology (BIOL)
CRN: 41124
In Person | Lecture
St Paul: Owens Science Hall LL54
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41125
Online: Asynchronous | Lecture
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course includes an examination of the functional morphology of the vertebrate skeletal, muscular, nervous, and sensory systems. Emphasis will be placed upon the evolution, development and function of these systems as well as the control and integration of all organ systems in vertebrates. This course may be taken as part of a two-semester sequence with BIOL 350 but may also be taken alone. Four laboratory hours per week. Prerequisites: BIOL 207, BIOL 208 and a minimum grade of C- in BIOL 209
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Biology (BIOL)
CRN: 41134
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Biology (BIOL)
CRN: 41135
In Person | Lecture
St Paul: Owens Science Hall 266
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 41136
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 41137
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Biology (BIOL)
CRN: 41138
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biology (BIOL)
CRN: 41139
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
The in-depth study of microorganismal biology is directed at gaining an understanding of the mechanisms that underlie the functions of bacteria. The importance of microorganisms as they relate to human disease, industry and the environment will be explored through lectures, readings from the literature and discussions. Laboratory includes an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: BIOL 207, AND BIOL 208, AND a minimum grade of C- in BIOL 209, AND either: CHEM 111 AND CHEM 112, OR CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Biology (BIOL)
CRN: 41140
In Person | Lecture
St Paul: Murray-Herrick Campus Center 210
This course provides an introduction to the microscopic anatomy of cells, tissues, and major organs that constitute the mammalian organism. The animal body is composed of a vast diversity of cell types, which are in turn organized into tissues and organs that carry out the complex functions of life. Microscopic anatomy is the study of the cellular architecture of tissues and provides deep insights into the workings of the body. Emphasis is placed on structural-functional correlates at both the light and electron microscopic levels. Students also will explore alterations in normal histology through disease or injury to provide an understanding of the etiology of various disease states. Prerequisite: minimum grade of C- in BIOL208. Credit will not be given for both this course and BIOL 353 Microscopic Anatomy.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41142
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 417
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41144
Blended Online & In-Person | Lab
St Paul: Schoenecker Center 417
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Biology (BIOL)
CRN: 41141
In Person | Lecture
St Paul: Owens Science Hall 257
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on a detailed consideration of specific topics in transmission, molecular, and population genetics. Eukaryotic and prokaryotic systems are discussed and genetic reasoning and analysis will be emphasized. Four laboratory hours per week. Prerequisites: A minimum grade of C- in BIOL 207 or BIOL 101 or 105 or BIOL 110, AND BIOL 208, or a permission of the instructor. Students who get credit for this course will not be able to get credit for BIOL 368 and vice versa.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Biology (BIOL)
CRN: 42778
In Person | Lecture
St Paul: Murray-Herrick Campus Center 308
This course will examine the molecular, cellular, and organismal aspects of the human immune system. The goal is to arrive at a clear, memorable understanding of how the immune system protects us from disease, and what can go wrong when it is either overly active or not active enough. The format will consist of less traditional lecturing and more active learning, supported by the instructor. Classroom periods will involve collaborative and creative work by and among students to collectively improve everyone’s learning and understanding. A significant amount of independent work outside the classroom is also required. This course does not include a laboratory component. Prerequisite: BIOL101 or BIOL102 or BIOL105 or BIOL207, BIOL208 and a minimum grade of C- in BIOL209. Credit will not be given for both this course and BIOL 363 Immunology.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Biology (BIOL)
CRN: 41149
In Person | Lecture
St Paul: Murray-Herrick Campus Center 209
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
An advanced investigation of topics in cell structure and the regulation of cellular activities, including signal transduction, protein transport, cell-cycle regulation, and cellular movement, emphasizing molecular mechanisms, current concepts and their experimental basis. Includes significant use of the primary literature. Four laboratory hours per week. Prerequisite: BIOL 208, and a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 372.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biology (BIOL)
CRN: 41150
In Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
An advanced investigation of topics in cell structure and the regulation of cellular activities, including signal transduction, protein transport, cell-cycle regulation, and cellular movement, emphasizing molecular mechanisms, current concepts and their experimental basis. Includes significant use of the primary literature. Four laboratory hours per week. Prerequisite: BIOL 208, and a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 372.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 41151
In Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
An advanced investigation of topics in cell structure and the regulation of cellular activities, including signal transduction, protein transport, cell-cycle regulation, and cellular movement, emphasizing molecular mechanisms, current concepts and their experimental basis. Includes significant use of the primary literature. Four laboratory hours per week. Prerequisite: BIOL 208, and a minimum grade of C- in BIOL 209. Credit will not be given for both this course and BIOL 372.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Biology (BIOL)
CRN: 41155
In Person | Lecture
St Paul: Murray-Herrick Campus Center 305H
Requirements Met:
Biology Lab Elective
Cancer Biology focuses on the molecular and cellular events that contribute to cancer. Topics include oncogenes and tumor suppressors, apoptosis, cancer stem cells, angiogenesis, and tumor metastasis. The laboratory will focus on independent research utilizing cellular and molecular techniques widely used in cancer research. Four laboratory hours per week. Prerequisites: At least one of the following: BIOL 340 (Principles of Biochemistry), BIOL 349 and 350 (Comparative Anatomy and Physiology), BIOL 354 (Neurobiology), BIOL 356 (Microbiology), BIOL 360 (Genetics), BIOL 363 (Immunology), BIOL 371 (Cell Biology); or permission from instructor
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Biology (BIOL)
CRN: 41154
In Person | Lab
St Paul: Owens Science Hall 389
Requirements Met:
Biology Lab Elective
Cancer Biology focuses on the molecular and cellular events that contribute to cancer. Topics include oncogenes and tumor suppressors, apoptosis, cancer stem cells, angiogenesis, and tumor metastasis. The laboratory will focus on independent research utilizing cellular and molecular techniques widely used in cancer research. Four laboratory hours per week. Prerequisites: At least one of the following: BIOL 340 (Principles of Biochemistry), BIOL 349 and 350 (Comparative Anatomy and Physiology), BIOL 354 (Neurobiology), BIOL 356 (Microbiology), BIOL 360 (Genetics), BIOL 363 (Immunology), BIOL 371 (Cell Biology); or permission from instructor
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
|||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41157
Blended Online & In-Person | Lecture
St Paul: Murray-Herrick Campus Center 305H
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Writing in the Discipline
This course focuses on emerging infectious diseases from many different perspectives with particular attention to the ways in which human behavior is altering the ecology of infectious disease transmission, thereby promoting emergence of these diseases as a major global health threat. The course will be a seminar format designed around case studies, discussion, guest speakers, and student projects. Laboratory will consist of an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: Two biology courses at the 300-level or above
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41156
Blended Online & In-Person | Lab
St Paul: Murray-Herrick Campus Center 211
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course focuses on emerging infectious diseases from many different perspectives with particular attention to the ways in which human behavior is altering the ecology of infectious disease transmission, thereby promoting emergence of these diseases as a major global health threat. The course will be a seminar format designed around case studies, discussion, guest speakers, and student projects. Laboratory will consist of an independent research project done in collaboration with the professor and peers. Four laboratory hours per week. Prerequisites: Two biology courses at the 300-level or above
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Biology (BIOL)
CRN: 42810
In Person | Lecture
St Paul: Murray-Herrick Campus Center 305I
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Writing in the Discipline
This course is an advanced exploration of the major concepts in modern evolutionary biology, including adaptation and natural selection, evolutionary genetics and microevolution, macroevolution, and molecular evolution. Applications of evolutionary thinking to such topics as medicine, aging, life history patterns, and behavior will be major foci. Four laboratory/recitation hours per week. Prerequisites: A minimum grade of C- in BIOL 209; any 300-level BIOL course
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Biology (BIOL)
CRN: 42811
In Person | Lab
St Paul: Owens Science Hall 263
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
This course is an advanced exploration of the major concepts in modern evolutionary biology, including adaptation and natural selection, evolutionary genetics and microevolution, macroevolution, and molecular evolution. Applications of evolutionary thinking to such topics as medicine, aging, life history patterns, and behavior will be major foci. Four laboratory/recitation hours per week. Prerequisites: A minimum grade of C- in BIOL 209; any 300-level BIOL course
0 Credits
| 09/03 - 10/22 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41158
Online: Some Synchronous | Lecture
Online
Requirements Met:
School of Ed Transfer Course
[Core] Signature Work
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
|||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41160
Blended Online & In-Person | Lecture
St Paul: Schoenecker Center 224
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
Writing in the Discipline
There is an increasing public interest and concern over the connections between ecological integrity, water accessibility, and human health (WEH). This course will allow students to use empirical strategies to explore the intersections between water, environment, and health (WEH). Through this course, students will 1) become proficient with a variety WEH research methodologies (e.g., systematic review, causal inference analysis, environmental risk assessment), 2) apply their knowledge of biology and environmental science and global health to critically evaluate primary WEH research literature, 3) Conduct original research, and, 4) generate communication materials for professionals and lay audiences. Students will be able to articulate the biological, cultural, economic and environmental implications of changes in water quality and availability. Contemporary research literature will be chosen to provide students with an in-depth examination of these topics: WEH – Disease and Molecular Dysfunction Mechanisms, WEH – Wastewater and Drinking Water Management and Disease, WEH - Crises and Diseases (war, migration) through history. Prerequisites: Completion of 4 cr of 300-level BIOL, AND 4 cr of BIOL 300-level OR ESCI 310.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Biology (BIOL)
CRN: 41159
Blended Online & In-Person | Lab
St Paul: Owens Science Hall 379
Online
Requirements Met:
Biology Lab Elective
School of Ed Transfer Course
There is an increasing public interest and concern over the connections between ecological integrity, water accessibility, and human health (WEH). This course will allow students to use empirical strategies to explore the intersections between water, environment, and health (WEH). Through this course, students will 1) become proficient with a variety WEH research methodologies (e.g., systematic review, causal inference analysis, environmental risk assessment), 2) apply their knowledge of biology and environmental science and global health to critically evaluate primary WEH research literature, 3) Conduct original research, and, 4) generate communication materials for professionals and lay audiences. Students will be able to articulate the biological, cultural, economic and environmental implications of changes in water quality and availability. Contemporary research literature will be chosen to provide students with an in-depth examination of these topics: WEH – Disease and Molecular Dysfunction Mechanisms, WEH – Wastewater and Drinking Water Management and Disease, WEH - Crises and Diseases (war, migration) through history. Prerequisites: Completion of 4 cr of 300-level BIOL, AND 4 cr of BIOL 300-level OR ESCI 310.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Chemistry (CHEM)
CRN: 41173
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Sustainability (SUST)
Principles of chemistry and the properties of matter explained in terms of modern chemical theory with emphasis on topics of general interest to the engineer. Topics include atomic structure, chemical bonding, solids, liquids, gases, acids and bases, thermodynamics, kinetics, polymer chemistry and materials science. This is an accelerated course requiring excellent preparation in math and science and is a terminal course intended only for those engineering students who do not plan to take additional courses in chemistry. Prerequisites: ENGR 100 and MATH 109 or higher (or concurrent enrollment in MATH 109). NOTE: Students who receive credit for CHEM 109 may not receive credit for CHEM 100, 101, 111 or 115. This course is not equivalent to CHEM 111, CHEM 112 or CHEM 115 and will not substitute for them.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41174
In Person | Lab
St Paul: Schoenecker Center 407
Core Requirements Met:
[Core] Natural Science
Principles of chemistry and the properties of matter explained in terms of modern chemical theory with emphasis on topics of general interest to the engineer. Topics include atomic structure, chemical bonding, solids, liquids, gases, acids and bases, thermodynamics, kinetics, polymer chemistry and materials science. This is an accelerated course requiring excellent preparation in math and science and is a terminal course intended only for those engineering students who do not plan to take additional courses in chemistry. Prerequisites: ENGR 100 and MATH 109 or higher (or concurrent enrollment in MATH 109). NOTE: Students who receive credit for CHEM 109 may not receive credit for CHEM 100, 101, 111 or 115. This course is not equivalent to CHEM 111, CHEM 112 or CHEM 115 and will not substitute for them.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41175
In Person | Lab
St Paul: Schoenecker Center 407
Core Requirements Met:
[Core] Natural Science
Principles of chemistry and the properties of matter explained in terms of modern chemical theory with emphasis on topics of general interest to the engineer. Topics include atomic structure, chemical bonding, solids, liquids, gases, acids and bases, thermodynamics, kinetics, polymer chemistry and materials science. This is an accelerated course requiring excellent preparation in math and science and is a terminal course intended only for those engineering students who do not plan to take additional courses in chemistry. Prerequisites: ENGR 100 and MATH 109 or higher (or concurrent enrollment in MATH 109). NOTE: Students who receive credit for CHEM 109 may not receive credit for CHEM 100, 101, 111 or 115. This course is not equivalent to CHEM 111, CHEM 112 or CHEM 115 and will not substitute for them.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 42869
In Person | Lab
St Paul: Schoenecker Center 407
Core Requirements Met:
[Core] Natural Science
Principles of chemistry and the properties of matter explained in terms of modern chemical theory with emphasis on topics of general interest to the engineer. Topics include atomic structure, chemical bonding, solids, liquids, gases, acids and bases, thermodynamics, kinetics, polymer chemistry and materials science. This is an accelerated course requiring excellent preparation in math and science and is a terminal course intended only for those engineering students who do not plan to take additional courses in chemistry. Prerequisites: ENGR 100 and MATH 109 or higher (or concurrent enrollment in MATH 109). NOTE: Students who receive credit for CHEM 109 may not receive credit for CHEM 100, 101, 111 or 115. This course is not equivalent to CHEM 111, CHEM 112 or CHEM 115 and will not substitute for them.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Chemistry (CHEM)
CRN: 41176
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
Sustainability (SUST)
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Chemistry (CHEM)
CRN: 41177
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
Sustainability (SUST)
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Chemistry (CHEM)
CRN: 41178
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
Sustainability (SUST)
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Chemistry (CHEM)
CRN: 41179
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
Sustainability (SUST)
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41180
In Person | Lab
St Paul: Owens Science Hall 478
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41181
In Person | Lab
St Paul: Owens Science Hall 478
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41182
In Person | Lab
St Paul: Owens Science Hall 479
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41183
In Person | Lab
St Paul: Owens Science Hall 479
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41184
In Person | Lab
St Paul: Owens Science Hall 479
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41186
In Person | Lab
St Paul: Owens Science Hall 478
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41187
In Person | Lab
St Paul: Owens Science Hall 478
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41188
In Person | Lab
St Paul: Owens Science Hall 479
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41189
In Person | Lab
St Paul: Owens Science Hall 479
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41190
In Person | Lab
St Paul: Owens Science Hall 478
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41191
In Person | Lab
St Paul: Owens Science Hall 478
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
This course, together with CHEM 112, provides a two- semester introduction to chemistry. Topics include atomic structure, molecular structure, chemical bonding, the periodic table, states of matter, reaction types, stoichiometry, thermochemistry, intermolecular forces, and properties of the common elements and their ions in aqueous solution. Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: Completion of CHEM 110 or placement at or above CHEM 111 NOTE: Students who receive credit for CHEM 111 may not receive credit for CHEM 100, 101, 109 or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Chemistry (CHEM)
CRN: 41192
In Person | Lecture
St Paul: Owens Science Hall 257
Requirements Met:
Environmental Sci. Major Appr
This course continues the study of chemistry begun in 111. Topics include thermodynamics, kinetics, equilibrium, acid- base chemistry, electrochemistry, and nuclear chemistry. Lecture plus four laboratory hours per week. Offered spring semester and summer (when enrollment allows). Prerequisite: A minimum grade of C- in CHEM 111 and Math placement at 108 or higher. NOTE: Students who receive credit for CHEM 112 may not receive credit for CHEM 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41193
In Person | Lab
St Paul: Schoenecker Center 405
Requirements Met:
Environmental Sci. Major Appr
This course continues the study of chemistry begun in 111. Topics include thermodynamics, kinetics, equilibrium, acid- base chemistry, electrochemistry, and nuclear chemistry. Lecture plus four laboratory hours per week. Offered spring semester and summer (when enrollment allows). Prerequisite: A minimum grade of C- in CHEM 111 and Math placement at 108 or higher. NOTE: Students who receive credit for CHEM 112 may not receive credit for CHEM 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41194
In Person | Lab
St Paul: Schoenecker Center 405
Requirements Met:
Environmental Sci. Major Appr
This course continues the study of chemistry begun in 111. Topics include thermodynamics, kinetics, equilibrium, acid- base chemistry, electrochemistry, and nuclear chemistry. Lecture plus four laboratory hours per week. Offered spring semester and summer (when enrollment allows). Prerequisite: A minimum grade of C- in CHEM 111 and Math placement at 108 or higher. NOTE: Students who receive credit for CHEM 112 may not receive credit for CHEM 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Chemistry (CHEM)
CRN: 41195
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
Honors Course
A one semester general chemistry class that blends significant topics from CHEM 111 and 112 for very strong students interested in majoring in science or engineering. Approximately one-third of the course content is drawn from CHEM 111 with the balance coming from CHEM 112. Topics include atomic theory, stoichiometry, gas laws, phases of matter, atomic and molecular structure, bonding, kinetics, thermodynamics, equilibrium, electrochemistry, nuclear chemistry, and descriptive chemistry. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: Math placement at the 113 level, high school chemistry, and satisfactory performance on the chemistry placement examination. NOTE: Students who receive credit for CHEM 115 may not receive credit for CHEM 100, 101, 109, 111, or 112.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41196
In Person | Lab
St Paul: Owens Science Hall 477
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Honors Course
A one semester general chemistry class that blends significant topics from CHEM 111 and 112 for very strong students interested in majoring in science or engineering. Approximately one-third of the course content is drawn from CHEM 111 with the balance coming from CHEM 112. Topics include atomic theory, stoichiometry, gas laws, phases of matter, atomic and molecular structure, bonding, kinetics, thermodynamics, equilibrium, electrochemistry, nuclear chemistry, and descriptive chemistry. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: Math placement at the 113 level, high school chemistry, and satisfactory performance on the chemistry placement examination. NOTE: Students who receive credit for CHEM 115 may not receive credit for CHEM 100, 101, 109, 111, or 112.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Chemistry (CHEM)
CRN: 41197
In Person | Lecture
St Paul: Owens Science Hall 250
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Chemistry (CHEM)
CRN: 41198
In Person | Lecture
St Paul: Owens Science Hall 250
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Chemistry (CHEM)
CRN: 41199
In Person | Lecture
St Paul: Owens Science Hall 250
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41200
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41201
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41202
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41203
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
7:30 am |
||||||
Subject: Chemistry (CHEM)
CRN: 41204
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41205
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41206
In Person | Lab
St Paul: Owens Science Hall 476
Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Chemistry (CHEM)
CRN: 41209
In Person | Lecture
St Paul: Owens Science Hall 250
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41211
In Person | Lab
St Paul: Owens Science Hall 477
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Chemistry (CHEM)
CRN: 41212
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
An introduction to quantitative chemical analysis. Topics include sample treatment, the statistical handling of data, equilibria governing acid/base chemistry and complex formation, and fundamentals underlying measurements using the following techniques: titrimetry (using acid/base, complexation and redox reactions), spectrophotometry (atomic absorption and emission spectroscopy and molecular absorption spectroscopy), and analytical separations (GC, HPLC, and capillary electrophoresis). Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: A minimum grade of C- in CHEM 112 or 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41213
In Person | Lab
St Paul: Owens Science Hall 474
An introduction to quantitative chemical analysis. Topics include sample treatment, the statistical handling of data, equilibria governing acid/base chemistry and complex formation, and fundamentals underlying measurements using the following techniques: titrimetry (using acid/base, complexation and redox reactions), spectrophotometry (atomic absorption and emission spectroscopy and molecular absorption spectroscopy), and analytical separations (GC, HPLC, and capillary electrophoresis). Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: A minimum grade of C- in CHEM 112 or 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Chemistry (CHEM)
CRN: 41214
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Physical chemical introduction to the fundamentals of kinetic-molecular theory, statistical thermodynamics, classical thermodynamics, and chemical reaction dynamics. Emphasis on the in-depth study of chemical reaction equilibria, phase equilibria, and chemical reaction kinetics in gaseous, liquid and solid systems. Laboratory work involves modern computational methods in physical chemistry, as well as physicochemical measurements related to thermodynamics and reaction dynamics. Lecture plus six laboratory hours per week. Offered fall semester. Prerequisites: CHEM 202, MATH 114 and PHYS 111 or 211
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Chemistry (CHEM)
CRN: 41215
In Person | Lab
St Paul: Owens Science Hall 469
Physical chemical introduction to the fundamentals of kinetic-molecular theory, statistical thermodynamics, classical thermodynamics, and chemical reaction dynamics. Emphasis on the in-depth study of chemical reaction equilibria, phase equilibria, and chemical reaction kinetics in gaseous, liquid and solid systems. Laboratory work involves modern computational methods in physical chemistry, as well as physicochemical measurements related to thermodynamics and reaction dynamics. Lecture plus six laboratory hours per week. Offered fall semester. Prerequisites: CHEM 202, MATH 114 and PHYS 111 or 211
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
|||||
Subject: Chemistry (CHEM)
CRN: 41216
In Person | Online: Synchronous
St Paul: Owens Science Hall 469
Requirements Met:
School of Ed Transfer Course
A study of the preparation, structure, bonding and reactions of inorganic compounds. Selected topics include group theory, bonding theories, reactions and mechanisms of transition metals, and advanced topics in inorganic chemistry such as organometallic chemistry and catalysis, parallels between main group and organometallic chemistry, bioinorganic chemistry, etc. Prerequisites: C- or better in CHEM 202 and 220, or permission of the instructor
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Chemistry (CHEM)
CRN: 41217
In Person | Lecture
St Paul: Owens Science Hall 275
The first course in a two-semester sequence examining the chemistry underlying biological processes. The topics addressed include a review of the properties of aqueous solutions and buffers; the structure and function of proteins with an introduction to the properties, reaction kinetics and catalytic mechanism of enzymes; qualitative and quantitative models of bioenergetics; and an introduction to primary metabolic pathways of carbon through oxidative phosphorylation and photosynthesis. Lecture plus four laboratory hours per week. Offered fall and spring semester. Prerequisite: A minimum grade of C- in CHEM 202
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41218
In Person | Lab
St Paul: Owens Science Hall 373
The first course in a two-semester sequence examining the chemistry underlying biological processes. The topics addressed include a review of the properties of aqueous solutions and buffers; the structure and function of proteins with an introduction to the properties, reaction kinetics and catalytic mechanism of enzymes; qualitative and quantitative models of bioenergetics; and an introduction to primary metabolic pathways of carbon through oxidative phosphorylation and photosynthesis. Lecture plus four laboratory hours per week. Offered fall and spring semester. Prerequisite: A minimum grade of C- in CHEM 202
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41219
In Person | Lab
St Paul: Owens Science Hall 373
The first course in a two-semester sequence examining the chemistry underlying biological processes. The topics addressed include a review of the properties of aqueous solutions and buffers; the structure and function of proteins with an introduction to the properties, reaction kinetics and catalytic mechanism of enzymes; qualitative and quantitative models of bioenergetics; and an introduction to primary metabolic pathways of carbon through oxidative phosphorylation and photosynthesis. Lecture plus four laboratory hours per week. Offered fall and spring semester. Prerequisite: A minimum grade of C- in CHEM 202
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41220
In Person | Lab
St Paul: Owens Science Hall 373
The first course in a two-semester sequence examining the chemistry underlying biological processes. The topics addressed include a review of the properties of aqueous solutions and buffers; the structure and function of proteins with an introduction to the properties, reaction kinetics and catalytic mechanism of enzymes; qualitative and quantitative models of bioenergetics; and an introduction to primary metabolic pathways of carbon through oxidative phosphorylation and photosynthesis. Lecture plus four laboratory hours per week. Offered fall and spring semester. Prerequisite: A minimum grade of C- in CHEM 202
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41221
In Person | Lecture
St Paul: Owens Science Hall 250
This sequence of courses begins in the fall semester of the junior year and progresses for a total of four semesters. The first (CHEM 481) and last (CHEM 484) courses are each one credit and are graded on the usual letter grade scale. The interior two courses (CHEM 482, 483) are zero credit and are graded on a pass-fail basis (S/R). Seminars are presented by guest speakers, St. Thomas faculty, and St. Thomas students throughout all four courses. In CHEM 481, juniors are introduced to the chemical literature, literature search techniques including use of computer databases, and write a short paper based on literature research. In CHEM 483 seniors meet in small groups with faculty and discuss articles from the current literature. In CHEM 484, seniors research a topic from the chemical literature and present it in both written and oral formats. Information about career opportunities for students holding a chemistry degree is presented throughout the seminar sequence. Required of all chemistry majors. Offered fall semester.
1 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
||||||
Subject: Chemistry (CHEM)
CRN: 41222
In Person | Lecture
St Paul: Owens Science Hall 250
This sequence of courses begins in the fall semester of the junior year and progresses for a total of four semesters. The first (CHEM 481) and last (CHEM 484) courses are each one credit and are graded on the usual letter grade scale. The interior two courses (CHEM 482, 483) are zero credit and are graded on a pass-fail basis (S/R). Seminars are presented by guest speakers, St. Thomas faculty, and St. Thomas students throughout all four courses. In CHEM 481, juniors are introduced to the chemical literature, literature search techniques including use of computer databases, and write a short paper based on literature research. In CHEM 483 seniors meet in small groups with faculty and discuss articles from the current literature. In CHEM 484, seniors research a topic from the chemical literature and present it in both written and oral formats. Information about career opportunities for students holding a chemistry degree is presented throughout the seminar sequence. Required of all chemistry majors. Offered fall semester.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:00 am |
8:15 am |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41225
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 428
Requirements Met:
Liberal Arts Bus Minor Appr
Introduction to problem solving with computers, using programming languages common to science and engineering disciplines; logical thinking, design and implementation of algorithms; and basic programming structures. Introduction to hardware and software: how computers acquire, store, process, and output information; how computer systems are designed, programmed, and tested. Students will use both a scientific programming language and an application package designed to implement programming features at a level more accessible to non-programmers. This course is designed for students majoring in Engineering or the sciences. Majors in the Department of Computer and Information Sciences should take CISC 131. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 130 may not receive credit for CISC 131. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007, 108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
8:00 am |
9:35 am |
9:35 am |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41226
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 428
Requirements Met:
Liberal Arts Bus Minor Appr
Writing to learn
Introduction to problem solving with computers, using programming languages common to science and engineering disciplines; logical thinking, design and implementation of algorithms; and basic programming structures. Introduction to hardware and software: how computers acquire, store, process, and output information; how computer systems are designed, programmed, and tested. Students will use both a scientific programming language and an application package designed to implement programming features at a level more accessible to non-programmers. This course is designed for students majoring in Engineering or the sciences. Majors in the Department of Computer and Information Sciences should take CISC 131. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 130 may not receive credit for CISC 131. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007, 108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
9:55 am |
12:15 pm |
12:15 pm |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41228
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 432
Requirements Met:
Liberal Arts Bus Minor Appr
Introduction to problem solving with computers, using programming languages common to science and engineering disciplines; logical thinking, design and implementation of algorithms; and basic programming structures. Introduction to hardware and software: how computers acquire, store, process, and output information; how computer systems are designed, programmed, and tested. Students will use both a scientific programming language and an application package designed to implement programming features at a level more accessible to non-programmers. This course is designed for students majoring in Engineering or the sciences. Majors in the Department of Computer and Information Sciences should take CISC 131. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 130 may not receive credit for CISC 131. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007, 108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41229
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 429
Requirements Met:
Liberal Arts Bus Minor Appr
Introduction to problem solving with computers, using programming languages common to science and engineering disciplines; logical thinking, design and implementation of algorithms; and basic programming structures. Introduction to hardware and software: how computers acquire, store, process, and output information; how computer systems are designed, programmed, and tested. Students will use both a scientific programming language and an application package designed to implement programming features at a level more accessible to non-programmers. This course is designed for students majoring in Engineering or the sciences. Majors in the Department of Computer and Information Sciences should take CISC 131. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 130 may not receive credit for CISC 131. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007, 108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:00 am |
8:15 am |
8:15 am |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41230
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 429
This course is designed for students with majors in the Department of Computer and Information Sciences and focuses on logical thinking, the design and implementation of algorithms in a procedural language, testing, correctness, and the use of common programming structures such as arrays. In addition, basic machine concepts are covered including hardware organization and representation of information in the machine. The typical student will be adept at using the computer but will have no prior programming experience. Engineering and science majors should take CISC 130. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 131 may not receive credit for CISC 130. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007,108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
1:30 pm |
9:35 am |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41231
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 429
This course is designed for students with majors in the Department of Computer and Information Sciences and focuses on logical thinking, the design and implementation of algorithms in a procedural language, testing, correctness, and the use of common programming structures such as arrays. In addition, basic machine concepts are covered including hardware organization and representation of information in the machine. The typical student will be adept at using the computer but will have no prior programming experience. Engineering and science majors should take CISC 130. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 131 may not receive credit for CISC 130. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007,108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
9:55 am |
10:55 am |
10:55 am |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41232
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 429
This course is designed for students with majors in the Department of Computer and Information Sciences and focuses on logical thinking, the design and implementation of algorithms in a procedural language, testing, correctness, and the use of common programming structures such as arrays. In addition, basic machine concepts are covered including hardware organization and representation of information in the machine. The typical student will be adept at using the computer but will have no prior programming experience. Engineering and science majors should take CISC 130. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 131 may not receive credit for CISC 130. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007,108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
1:30 pm |
12:15 pm |
12:15 pm |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41233
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 429
This course is designed for students with majors in the Department of Computer and Information Sciences and focuses on logical thinking, the design and implementation of algorithms in a procedural language, testing, correctness, and the use of common programming structures such as arrays. In addition, basic machine concepts are covered including hardware organization and representation of information in the machine. The typical student will be adept at using the computer but will have no prior programming experience. Engineering and science majors should take CISC 130. Please see your academic advisor to ensure you select the appropriate class. Lab included. NOTE: Students who receive credit for CISC 131 may not receive credit for CISC 130. Prerequisite: Placement into MATH 108 or higher or completion of DASC 120 or DASC 112 with a C- or better, or completion of one of: MATH 006, 007,108, 109, 113, 114, or 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41234
Online: Asynchronous | Lecture
Online
Requirements Met:
Liberal Arts Bus Minor Appr
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41235
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 434
Requirements Met:
Liberal Arts Bus Minor Appr
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41236
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 434
Requirements Met:
Liberal Arts Bus Minor Appr
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41237
In Person | Lecture
St Paul: John Roach Center 426
Requirements Met:
Liberal Arts Bus Minor Appr
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41238
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 431
Requirements Met:
Liberal Arts Bus Minor Appr
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41239
In Person | Lecture
St Paul: John Roach Center 426
Requirements Met:
Liberal Arts Bus Minor Appr
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41240
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 431
Requirements Met:
Liberal Arts Bus Minor Appr
Writing to learn
This course will prepare students to use computers in a business environment and in daily life. It will provide an introduction to programming and problem solving for non-majors. Spreadsheet and database software will be used to solve problems related to business. The course includes an overview of hardware and software, how computers acquire and process information, and related topics. NOTE: Students who receive credit for CISC 200 may not receive credit for CISC 110 or 216.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
9:55 am |
10:55 am |
|||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41241
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 432
Programming and problem solving using an object-oriented approach. Builds on the procedural language foundation developed in CISC 130 or 131. Topics include: how procedural design differs from object-oriented design, algorithms, modeling, design requirements and representation, Uniform Modeling Language specification, implementation of object-oriented models, testing, and verification, and elementary design patterns. Lab included Prerequisites: A minimum grade of C- in CISC 130 or 131
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
3:25 pm |
1:30 pm |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41242
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 428
Programming and problem solving using an object-oriented approach. Builds on the procedural language foundation developed in CISC 130 or 131. Topics include: how procedural design differs from object-oriented design, algorithms, modeling, design requirements and representation, Uniform Modeling Language specification, implementation of object-oriented models, testing, and verification, and elementary design patterns. Lab included Prerequisites: A minimum grade of C- in CISC 130 or 131
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41243
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 428
Presents the fundamental suite of data structures and the algorithms used to implement them. Topics include: abstract data types, algorithm development and representation, searching, sorting, stacks, queues, lists, trees, measuring algorithm complexity, object-oriented design and implementation of moderately large and complex systems. Course assumes the student has proficiency in object-oriented specification, design, and implementation. Prerequisites: A minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41244
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 428
Presents the fundamental suite of data structures and the algorithms used to implement them. Topics include: abstract data types, algorithm development and representation, searching, sorting, stacks, queues, lists, trees, measuring algorithm complexity, object-oriented design and implementation of moderately large and complex systems. Course assumes the student has proficiency in object-oriented specification, design, and implementation. Prerequisites: A minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
1:30 pm |
3:25 pm |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41245
In Person | Lecture/Lab
St Paul: John Roach Center 426
This course examines the application of new and emerging technologies in creative and interactive media production and development. Modern audiovisual, music, and interactive projects benefit from the expressive use of coding, visual programming environments, microcontrollers, sensors, data visualization, data sonification, automated fabrication, and open-source platforms. As technologies advance, these tools have become more common, less expensive, and easier to use. Students will put several of these recent technologies into practice through several assignments including a final project publicly exhibited or performed at the end of the class. Prerequisites: A minimum grade of C- in CISC 130 or CISC 131
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41246
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 428
Introduction to the design and organization of computer systems. Topics covered in this course include digital logic, machine data and instruction representations, computer arithmetic, instruction sets and assembly language, ALU and CPU design, pipelining, cache systems, memory, performance metrics, and parallelism. Prerequisites: a minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41247
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 428
Introduction to the design and organization of computer systems. Topics covered in this course include digital logic, machine data and instruction representations, computer arithmetic, instruction sets and assembly language, ALU and CPU design, pipelining, cache systems, memory, performance metrics, and parallelism. Prerequisites: a minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41248
In Person | Lecture
St Paul: John Roach Center 426
(Formerly CISC 210) An introductory course in computer security. Topics include operating system security, cryptography, user authentication, application security, secure programming, web security and privacy issues, and ethical issues in the field of computer security. Emphasis is on understanding the technical aspects of how adversaries exploit systems and the techniques for defending against these attacks. Prerequisites: MATH 128 (may be taken concurrently), and a minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41249
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 431
(Formerly CISC 270) This course examines the theory and practice of developing applications for the World Wide Web. Students will learn practical technique for designing and implementing Web applications, with a particular emphasis on server-side processing and data-driven Web sites. Prerequisite: A minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41250
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 431
(Formerly CISC 270) This course examines the theory and practice of developing applications for the World Wide Web. Students will learn practical technique for designing and implementing Web applications, with a particular emphasis on server-side processing and data-driven Web sites. Prerequisite: A minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41251
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 434
Introduction to the design and analysis of algorithms. Course topics include the following algorithm design paradigms: divide and conquer, graph algorithms, dynamic programming, and greedy algorithms. The course will also give an introduction to computational complexity, including NP-completeness and the P versus NP problem. Prerequisites: A minimum grade of C- or better in: MATH 113 (or MATH 109 or MATH 112), MATH 128, CISC 230, and CISC 231
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41252
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 434
Introduction to the design and analysis of algorithms. Course topics include the following algorithm design paradigms: divide and conquer, graph algorithms, dynamic programming, and greedy algorithms. The course will also give an introduction to computational complexity, including NP-completeness and the P versus NP problem. Prerequisites: A minimum grade of C- or better in: MATH 113 (or MATH 109 or MATH 112), MATH 128, CISC 230, and CISC 231
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41253
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 432
This course introduces the fundamental concepts of database management, including aspects of data models, database languages, database design, indexing, and other topics in the field. Emphasis on general purpose relational database management systems using Relational Algebra and SQL. Prerequisites: A minimum grade of C- in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41254
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 431
Requirements Met:
CommGood/Community-Engaged
[Core] Signature Work
Writing in the Discipline
The senior capstone course provides computer science majors the opportunity to integrate the knowledge that they have gained from across the curriculum. Students will work in groups to design, document, and implement a large-sized software project. During this process, students will be exposed to programming team organization, software development practices, as well as tools that facilitate the development of software systems. Prerequisites: Senior standing and a minimum grade of C- or better in: CISC 350, CISC 340, and CISC 380 (which 380 may be taken concurrently)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 43062
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 429
Requirements Met:
[Core] Signature Work
Writing in the Discipline
The senior capstone course provides computer science majors the opportunity to integrate the knowledge that they have gained from across the curriculum. Students will work in groups to design, document, and implement a large-sized software project. During this process, students will be exposed to programming team organization, software development practices, as well as tools that facilitate the development of software systems. Prerequisites: Senior standing and a minimum grade of C- or better in: CISC 350, CISC 340, and CISC 380 (which 380 may be taken concurrently)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41255
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 428
Requirements Met:
CommGood/Community-Engaged
This course is designed to apply computer science skills, enabling students to design, build, and evaluate computer-based systems. Students will delve into user-centered research methods, empowering them to use technology to address real societal issues. The course is structured into three comprehensive components: 1) the study of fundamental concepts regarding human-computer interaction and human-centered design, 2) the design and prototype of software artifacts to serve personal and community needs, and 3) the study of research papers on human-computer interaction which will focus on research methods and different problem domains. The course requires a substantial programming background as a prerequisite. Prerequisites: Undergraduate level: CISC 230, Minimum Grade of C-
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Computer & Info Sci (UG) (CISC)
CRN: 41256
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 432
This course prepares students to apply problem-solving skills and data analysis techniques to manipulate large data sets with business intelligence platforms. To develop these skills and techniques, students will use Microsoft’s Power BI and DAX programming to conduct analyses traditionally associated with spreadsheet applications and database management systems. To extend these platforms, students will also apply Python programming as well as newer analyses based on artificial intelligence and machine learning. Students will use pre-trained machine learning models and train their own models for advanced data analysis. The instructor and students will also use artificial intelligence to enhance our work. For example, students will be encouraged to use ChatGPT to enhance their programming skills and use ChatGPT to generate the required documentation for their projects – resulting in more functionality in their projects and better documentation. The course counts as a CS Major elective. Prerequisite: C- or better in CISC 230
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
1:30 pm |
3:25 pm |
||||
Subject: Digital Media Arts (DIMA)
CRN: 41327
In Person | Lecture/Lab
St Paul: John Roach Center 426
This course examines the application of new and emerging technologies in creative and interactive media production and development. Modern audiovisual, music, and interactive projects benefit from the expressive use of coding, visual programming environments, microcontrollers, sensors, data visualization, data sonification, automated fabrication, and open-source platforms. As technologies advance, these tools have become more common, less expensive, and easier to use. Students will put several of these recent technologies into practice through several assignments including a final project publicly exhibited or performed at the end of the class.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41332
In Person | Lecture
St Paul: O'Shaughnessy Education Center 308
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41333
In Person | Lecture
St Paul: O'Shaughnessy Education Center 308
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41334
In Person | Lecture
St Paul: O'Shaughnessy Education Center 307
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41335
In Person | Lecture
St Paul: O'Shaughnessy Education Center 307
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41336
In Person | Lecture
St Paul: O'Shaughnessy Education Center 452
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Economics (UG) (ECON)
CRN: 41337
In Person | Lecture
St Paul: O'Shaughnessy Education Center 308
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Economics (UG) (ECON)
CRN: 41338
In Person | Lecture
St Paul: O'Shaughnessy Education Center 452
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41340
In Person | Lecture
St Paul: O'Shaughnessy Education Center 307
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41342
In Person | Lecture
St Paul: O'Shaughnessy Education Center 307
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 42870
In Person | Lecture
St Paul: O'Shaughnessy Education Center 309
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41343
In Person | Lecture
St Paul: O'Shaughnessy Education Center 209
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41344
In Person | Lecture
St Paul: O'Shaughnessy Education Center 309
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41345
In Person | Lecture
St Paul: O'Shaughnessy Education Center 209
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41346
In Person | Lecture
St Paul: O'Shaughnessy Education Center 317
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
An introduction to macroeconomics: national income analysis, unemployment, price stability, and growth; monetary and fiscal policies; international trade and finance; application of economic theory to current problems. Students who enroll in this course are expected to be able to use high-school algebra.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41348
In Person | Lecture
St Paul: O'Shaughnessy Education Center 303
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41349
In Person | Lecture
St Paul: O'Shaughnessy Education Center 306
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41351
In Person | Lecture
St Paul: O'Shaughnessy Education Center 306
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41352
In Person | Lecture
St Paul: O'Shaughnessy Education Center 454
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Economics (UG) (ECON)
CRN: 41353
In Person | Lecture
St Paul: O'Shaughnessy Education Center 454
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41356
In Person | Lecture
St Paul: O'Shaughnessy Education Center 204
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41358
In Person | Lecture
St Paul: O'Shaughnessy Education Center 452
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41359
In Person | Lecture
St Paul: O'Shaughnessy Education Center 454
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41360
In Person | Lecture
St Paul: O'Shaughnessy Education Center 452
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41361
In Person | Lecture
St Paul: O'Shaughnessy Education Center 307
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41362
In Person | Lecture
St Paul: O'Shaughnessy Education Center 452
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41363
In Person | Lecture
St Paul: O'Shaughnessy Education Center 307
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
FYE CommGood/Learning Comm
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:15 pm |
5:15 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 43143
In Person | Lecture
St Paul: O'Shaughnessy Education Center 452
Core Requirements Met:
[Core] Soc Sci Analysis
Other Requirements Met:
Liberal Arts Bus Minor Appr
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41364
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
School of Ed Transfer Course
An introduction to techniques used in forecasting with emphasis on analyzing economic and business data. The emphasis is on timeseries data, although cross-sectional analysis is also covered. Techniques presented include variants of moving averages, variants of exponential smoothing, regression and ARIMA processes. Prerequisites: ECON 251 and 252 and a grade of C- or higher in DASC 120, STAT 220, DASC 112, STAT 201, MATH 303, STAT 303, or STAT 314. This section uses the R software package.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Economics (UG) (ECON)
CRN: 41365
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
School of Ed Transfer Course
An introduction to techniques used in forecasting with emphasis on analyzing economic and business data. The emphasis is on timeseries data, although cross-sectional analysis is also covered. Techniques presented include variants of moving averages, variants of exponential smoothing, regression and ARIMA processes. Prerequisites: ECON 251 and 252 and a grade of C- or higher in DASC 120, STAT 220, DASC 112, STAT 201, MATH 303, STAT 303, or STAT 314. This section uses the R software package.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 42824
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
School of Ed Transfer Course
Writing to learn
An introduction to techniques used in forecasting with emphasis on analyzing economic and business data. The emphasis is on timeseries data, although cross-sectional analysis is also covered. Techniques presented include variants of moving averages, variants of exponential smoothing, regression and ARIMA processes. Prerequisites: ECON 251 and 252 and a grade of C- or higher in DASC 120, STAT 220, DASC 112, STAT 201, MATH 303, STAT 303, or STAT 314. This section uses the STATA software package.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41367
In Person | Lecture
St Paul: O'Shaughnessy Education Center 312
Requirements Met:
School of Ed Transfer Course
Writing to learn
An introduction to techniques used in forecasting with emphasis on analyzing economic and business data. The emphasis is on timeseries data, although cross-sectional analysis is also covered. Techniques presented include variants of moving averages, variants of exponential smoothing, regression and ARIMA processes. Prerequisites: ECON 251 and 252 and a grade of C- or higher in DASC 120, STAT 220, DASC 112, STAT 201, MATH 303, STAT 303, or STAT 314. This section uses the R software package. This section is not held in a computer lab and requires students to bring their own computer to each class.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41368
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
School of Ed Transfer Course
Writing to learn
An introduction to techniques used in forecasting with emphasis on analyzing economic and business data. The emphasis is on timeseries data, although cross-sectional analysis is also covered. Techniques presented include variants of moving averages, variants of exponential smoothing, regression and ARIMA processes. Prerequisites: ECON 251 and 252 and a grade of C- or higher in DASC 120, STAT 220, DASC 112, STAT 201, MATH 303, STAT 303, or STAT 314.This section uses the STATA software package.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
6:30 pm |
6:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41369
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
School of Ed Transfer Course
An introduction to techniques used in forecasting with emphasis on analyzing economic and business data. The emphasis is on timeseries data, although cross-sectional analysis is also covered. Techniques presented include variants of moving averages, variants of exponential smoothing, regression and ARIMA processes. Prerequisites: ECON 251 and 252 and a grade of C- or higher in DASC 120, STAT 220, DASC 112, STAT 201, MATH 303, STAT 303, or STAT 314. This section uses the R software package.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Economics (UG) (ECON)
CRN: 41370
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
Writing in the Discipline
An introduction to the application of statistical models and methods to economic problems; simple and multiple linear regression models; generalized least-squares; model building and related topics. Emphasis is on use of econometric software to analyze data and to test hypotheses. Prerequisites: Eight credits of ECON at the 300- or 400-level, and MATH 109, 111, or 113, and a grade of C- or higher in one of the following: DASC 120, DASC 112, STAT 303, or STAT 314.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41371
In Person | Lecture
St Paul: O'Shaughnessy Education Center 449
Requirements Met:
Writing in the Discipline
An introduction to the application of statistical models and methods to economic problems; simple and multiple linear regression models; generalized least-squares; model building and related topics. Emphasis is on use of econometric software to analyze data and to test hypotheses. Prerequisites: Eight credits of ECON at the 300- or 400-level, and MATH 109, 111, or 113, and a grade of C- or higher in one of the following: DASC 120, DASC 112, STAT 303, or STAT 314.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41372
In Person | Lecture
St Paul: O'Shaughnessy Education Center 204
Requirements Met:
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 42826
In Person | Lecture
St Paul: Murray-Herrick Campus Center 202
Requirements Met:
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41374
In Person | Lecture
St Paul: O'Shaughnessy Education Center 208
Core Requirements Met:
[Core] Global Perspective
Other Requirements Met:
LatAm/Caribb Minor
School of Ed Transfer Course
Sustainability (SUST)
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Economics (UG) (ECON)
CRN: 41375
In Person | Lecture
St Paul: Susan S. Morrison Hall 140
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41376
In Person | Lecture
St Paul: O'Shaughnessy Education Center 207
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Economics (UG) (ECON)
CRN: 41377
In Person | Lecture
St Paul: O'Shaughnessy Education Center 209
Analysis of consumer behavior and demand theory; theory of production and costs; analysis of the firm and industry under various market structures; factor pricing; general equilibrium. Selected additional topics such as market failure, economics of information, welfare economics, income distribution. Prerequisites: ECON 251, 252 and MATH 109 or 111 or 113 or equivalent.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Economics (UG) (ECON)
CRN: 41378
In Person | Lecture
St Paul: O'Shaughnessy Education Center 204
Requirements Met:
School of Ed Transfer Course
Game theory seeks to explain how rational people make decisions when outcomes are mutually interdependent. This course introduces the methods of game theory from a historical perspective with primary emphasis on applications to economics. Applications to the other social sciences, business and biology are also considered. Topics covered include: normal and extensive forms of games, strict and weak dominance, sub-game perfections, pure and mixed strategies, Nash equilibrium, bargaining, oligopoly, New Keynesian and Classical Economics, trade policy, environmental economics and conflict resolution. Prerequisites: ECON 251 and 252, plus completion of the core curriculum mathematics requirement.
4 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Engineering Educ (Grad) (EGED)
CRN: 40420
Online: Asynchronous | Lecture
Online
Through a combination of lectures, hands-on computer lab time, and design projects, students will learn to read, and create, engineering drawings and use computer-aided-design (CAD) terminiology and technology. Topics covered will include the engineering design process, rapid prototyping, principles of projection, and introductory methods of representation and constructive geometry. This class is designed for K-12 educators. We will teach a variety of software packages, including at least one commercial package typically used in industry and at least one package that is freely available. Strategies for incorporating engineering design projects into the K-12 classroom will be discussed.
3 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40498
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall LL15
Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
CommGood/Community-Engaged
This course introduces students to the engineering disciplines and the design process through a semester-long design challenge. Students will gain improved self-awareness, empathy, and critical thinking skills; this will help them work as a team in a collaborative and inclusive environment to identify a need, interview clients, plan tasks and propose engineering solutions with consideration for the common good.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40019
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall LL15
Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
CommGood/Community-Engaged
This course introduces students to the engineering disciplines and the design process through a semester-long design challenge. Students will gain improved self-awareness, empathy, and critical thinking skills; this will help them work as a team in a collaborative and inclusive environment to identify a need, interview clients, plan tasks and propose engineering solutions with consideration for the common good.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40668
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall LL15
Requirements Met:
Sustainability (SUST)
CommGood/Community-Engaged
This course introduces students to the engineering disciplines and the design process through a semester-long design challenge. Students will gain improved self-awareness, empathy, and critical thinking skills; this will help them work as a team in a collaborative and inclusive environment to identify a need, interview clients, plan tasks and propose engineering solutions with consideration for the common good.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40907
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall LL15
Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
CommGood/Community-Engaged
This course introduces students to the engineering disciplines and the design process through a semester-long design challenge. Students will gain improved self-awareness, empathy, and critical thinking skills; this will help them work as a team in a collaborative and inclusive environment to identify a need, interview clients, plan tasks and propose engineering solutions with consideration for the common good.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40255
In Person | Lecture/Lab
St Paul: O'Shaughnessy Science Hall 328
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Engineering (UG) (ENGR)
CRN: 40414
Online: Asynchronous | Lecture
Online
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Engineering (UG) (ENGR)
CRN: 42315
Online: Asynchronous | Lecture
Online
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40021
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
Through a combination of lectures, hands-on computer time, and design projects, students will learn to read, and create, engineering drawings and use computer-aided-design (CAD) terminology and technology. Topics covered will include the engineering design process, rapid prototyping, principles of projection, and introductory methods of representation and constructive geometry.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40022
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
Through a combination of lectures, hands-on computer time, and design projects, students will learn to read, and create, engineering drawings and use computer-aided-design (CAD) terminology and technology. Topics covered will include the engineering design process, rapid prototyping, principles of projection, and introductory methods of representation and constructive geometry.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40023
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
Through a combination of lectures, hands-on computer time, and design projects, students will learn to read, and create, engineering drawings and use computer-aided-design (CAD) terminology and technology. Topics covered will include the engineering design process, rapid prototyping, principles of projection, and introductory methods of representation and constructive geometry.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40024
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
Through a combination of lectures, hands-on computer time, and design projects, students will learn to read, and create, engineering drawings and use computer-aided-design (CAD) terminology and technology. Topics covered will include the engineering design process, rapid prototyping, principles of projection, and introductory methods of representation and constructive geometry.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 43127
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 328
Through a combination of lectures, hands-on computer time, and design projects, students will learn to read, and create, engineering drawings and use computer-aided-design (CAD) terminology and technology. Topics covered will include the engineering design process, rapid prototyping, principles of projection, and introductory methods of representation and constructive geometry.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40834
In Person | Lecture/Lab
St Paul: Schoenecker Center 308
A hands-on introduction to a variety of basic concepts in Electrical and Computer Engineering. The course includes lessons, labs, and projects that explore analog and digital electronics in both theory and practice. Students will develop proficiency in the basic tools and skills required for electrical and computer engineering projects and coursework, and gain insight into them as a potential major, minor, and/or career.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 41022
In Person | Lecture/Lab
St Paul: Schoenecker Center 308
A hands-on introduction to a variety of basic concepts in Electrical and Computer Engineering. The course includes lessons, labs, and projects that explore analog and digital electronics in both theory and practice. Students will develop proficiency in the basic tools and skills required for electrical and computer engineering projects and coursework, and gain insight into them as a potential major, minor, and/or career.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40064
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 327
Principles of statics including such topics as rigid bodies, equilibrium, equivalent systems of forces, 2D structures, distributed forces, centroids and centers of gravity, moments of inertia, friction, forces in beams & cables, and the principle of virtual work. Emphasis on applications with integrated labs/hands-on projects. Prerequisites: A minimum grade of C- in PHYS 211 and a processed Engineering (Electrical, Computer, Civil, Mechanical) or Physics major or minor declaration.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40065
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Principles of statics including such topics as rigid bodies, equilibrium, equivalent systems of forces, 2D structures, distributed forces, centroids and centers of gravity, moments of inertia, friction, forces in beams & cables, and the principle of virtual work. Emphasis on applications with integrated labs/hands-on projects. Prerequisites: A minimum grade of C- in PHYS 211 and a processed Engineering (Electrical, Computer, Civil, Mechanical) or Physics major or minor declaration.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40139
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Principles of statics including such topics as rigid bodies, equilibrium, equivalent systems of forces, 2D structures, distributed forces, centroids and centers of gravity, moments of inertia, friction, forces in beams & cables, and the principle of virtual work. Emphasis on applications with integrated labs/hands-on projects. Prerequisites: A minimum grade of C- in PHYS 211 and a processed Engineering (Electrical, Computer, Civil, Mechanical) or Physics major or minor declaration.
4 Credits
| M | T | W | Th | F | Sa | Su |
09/03 - 10/21: 10/22 - 12/19: |
Subject: Engineering (UG) (ENGR)
CRN: 40121
In Person | Lab
St Paul: O'Shaughnessy Science Hall 328
St Paul: Schoenecker Center 401
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40098
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
| M | T | W | Th | F | Sa | Su |
09/03 - 10/21: 10/22 - 12/19: |
Subject: Engineering (UG) (ENGR)
CRN: 40122
In Person | Lab
St Paul: O'Shaughnessy Science Hall 328
St Paul: Schoenecker Center 401
| M | T | W | Th | F | Sa | Su |
09/03 - 10/21: 10/22 - 12/19: |
Subject: Engineering (UG) (ENGR)
CRN: 40166
In Person | Lab
St Paul: O'Shaughnessy Science Hall 328
St Paul: Schoenecker Center 401
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40066
In Person | Lecture
St Paul: Schoenecker Center 314
Introduction to the design of digital logic. Topics include Boolean logic, design and optimization of combinational and sequential logic, Hardware Description Language (HDL), the use of field-programmable devices (FPGAs), logic hazards, electronic implementation of logic gates. Students will be expected to specify, design, simulate, construct, and test digital circuits and document all phases of the process.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40067
In Person | Lab
St Paul: Schoenecker Center 309
Introduction to the design of digital logic. Topics include Boolean logic, design and optimization of combinational and sequential logic, Hardware Description Language (HDL), the use of field-programmable devices (FPGAs), logic hazards, electronic implementation of logic gates. Students will be expected to specify, design, simulate, construct, and test digital circuits and document all phases of the process.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40068
In Person | Lab
St Paul: Schoenecker Center 309
Introduction to the design of digital logic. Topics include Boolean logic, design and optimization of combinational and sequential logic, Hardware Description Language (HDL), the use of field-programmable devices (FPGAs), logic hazards, electronic implementation of logic gates. Students will be expected to specify, design, simulate, construct, and test digital circuits and document all phases of the process.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40138
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Introduction to analog electrical circuits in the time and frequency domains. Circuit analysis techniques including nodal analysis and equivalence theorems will be covered and used to assess a variety of circuits in the time and frequency domains. Students will develop analysis and laboratory skills to analyze and test the operation of circuits composed of resistors, capacitors, inductors, and operational amplifiers. Prerequisites: Concurrent registration with or prior completion of PHYS 212 and a processed Engineering (Electrical, Computer, Civil, Mechanical) or Physics major or minor declaration. NOTE: Students who receive credit for ENGR 350 may not receive credit for ENGR 240.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40142
In Person | Lab
St Paul: Schoenecker Center 308
Introduction to analog electrical circuits in the time and frequency domains. Circuit analysis techniques including nodal analysis and equivalence theorems will be covered and used to assess a variety of circuits in the time and frequency domains. Students will develop analysis and laboratory skills to analyze and test the operation of circuits composed of resistors, capacitors, inductors, and operational amplifiers. Prerequisites: Concurrent registration with or prior completion of PHYS 212 and a processed Engineering (Electrical, Computer, Civil, Mechanical) or Physics major or minor declaration. NOTE: Students who receive credit for ENGR 350 may not receive credit for ENGR 240.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40228
In Person | Lab
St Paul: Schoenecker Center 308
Introduction to analog electrical circuits in the time and frequency domains. Circuit analysis techniques including nodal analysis and equivalence theorems will be covered and used to assess a variety of circuits in the time and frequency domains. Students will develop analysis and laboratory skills to analyze and test the operation of circuits composed of resistors, capacitors, inductors, and operational amplifiers. Prerequisites: Concurrent registration with or prior completion of PHYS 212 and a processed Engineering (Electrical, Computer, Civil, Mechanical) or Physics major or minor declaration. NOTE: Students who receive credit for ENGR 350 may not receive credit for ENGR 240.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40290
In Person | Lab
St Paul: Facilities & Design Center 135
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40291
In Person | Lab
St Paul: Facilities & Design Center 135
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40416
In Person | Lab
St Paul: Facilities & Design Center 135
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40417
In Person | Lab
St Paul: Facilities & Design Center 135
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
Subject: Engineering (UG) (ENGR)
CRN: 40440
Online: Asynchronous | Directed Study
Online
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Engineering (UG) (ENGR)
CRN: 40574
Online: Asynchronous | Lecture
Online
This is an introductory course in the use of materials in the body, with some background in the science of the materials that are used as appropriate to the applications being discussed. This course will develop the necessary background to understand the properties of biomaterials, their applications and selection process for design and development of medical devices. The course will cover a variety of biomaterials, with an emphasis on structure-property relationships that enable their applications as medical devices. Biomaterial and body Interactions, biomaterial degradation, and their manufacturing and testing will also be discussed. This course will use a combination of lectures, case-studies, guest lectures, student presentations, and tours. Prerequisite: C- or better in ENGR 221
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40575
In Person | Lab
St Paul: Schoenecker Center LL13
This is an introductory course in the use of materials in the body, with some background in the science of the materials that are used as appropriate to the applications being discussed. This course will develop the necessary background to understand the properties of biomaterials, their applications and selection process for design and development of medical devices. The course will cover a variety of biomaterials, with an emphasis on structure-property relationships that enable their applications as medical devices. Biomaterial and body Interactions, biomaterial degradation, and their manufacturing and testing will also be discussed. This course will use a combination of lectures, case-studies, guest lectures, student presentations, and tours. Prerequisite: C- or better in ENGR 221
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40069
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Focus is on advanced mechanics topics, failure theories (static and dynamic), and on an understanding of basic machine components. This course will develop the student's creative skills in conceptualizing machines to meet performance criteria by means of a design project. Machine designs will require the understanding and use of machine components such as springs, screws, bearings, basic 4-bar linkages, cams, and gears. Finally, a number of mini labs/workshops on topics that support the design project such as dynamic analysis software, machine component design, and design for manufacture are given. Prerequisite: A minimum grade of C- in (ENGR 170 or ENGR 171), ENGR 220 and ENGR 221, and satisfactory completion of ENGR 255 (or concurrent registration)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40181
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Focus is on advanced mechanics topics, failure theories (static and dynamic), and on an understanding of basic machine components. This course will develop the student's creative skills in conceptualizing machines to meet performance criteria by means of a design project. Machine designs will require the understanding and use of machine components such as springs, screws, bearings, basic 4-bar linkages, cams, and gears. Finally, a number of mini labs/workshops on topics that support the design project such as dynamic analysis software, machine component design, and design for manufacture are given. Prerequisite: A minimum grade of C- in (ENGR 170 or ENGR 171), ENGR 220 and ENGR 221, and satisfactory completion of ENGR 255 (or concurrent registration)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40070
In Person | Lab
St Paul: Facilities & Design Center 317
Focus is on advanced mechanics topics, failure theories (static and dynamic), and on an understanding of basic machine components. This course will develop the student's creative skills in conceptualizing machines to meet performance criteria by means of a design project. Machine designs will require the understanding and use of machine components such as springs, screws, bearings, basic 4-bar linkages, cams, and gears. Finally, a number of mini labs/workshops on topics that support the design project such as dynamic analysis software, machine component design, and design for manufacture are given. Prerequisite: A minimum grade of C- in (ENGR 170 or ENGR 171), ENGR 220 and ENGR 221, and satisfactory completion of ENGR 255 (or concurrent registration)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40071
In Person | Lab
St Paul: Facilities & Design Center 317
Focus is on advanced mechanics topics, failure theories (static and dynamic), and on an understanding of basic machine components. This course will develop the student's creative skills in conceptualizing machines to meet performance criteria by means of a design project. Machine designs will require the understanding and use of machine components such as springs, screws, bearings, basic 4-bar linkages, cams, and gears. Finally, a number of mini labs/workshops on topics that support the design project such as dynamic analysis software, machine component design, and design for manufacture are given. Prerequisite: A minimum grade of C- in (ENGR 170 or ENGR 171), ENGR 220 and ENGR 221, and satisfactory completion of ENGR 255 (or concurrent registration)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40435
In Person | Lab
St Paul: Facilities & Design Center 317
Focus is on advanced mechanics topics, failure theories (static and dynamic), and on an understanding of basic machine components. This course will develop the student's creative skills in conceptualizing machines to meet performance criteria by means of a design project. Machine designs will require the understanding and use of machine components such as springs, screws, bearings, basic 4-bar linkages, cams, and gears. Finally, a number of mini labs/workshops on topics that support the design project such as dynamic analysis software, machine component design, and design for manufacture are given. Prerequisite: A minimum grade of C- in (ENGR 170 or ENGR 171), ENGR 220 and ENGR 221, and satisfactory completion of ENGR 255 (or concurrent registration)
0 Credits
| M | T | W | Th | F | Sa | Su |
09/03 - 10/21: 10/22 - 12/19: |
Subject: Engineering (UG) (ENGR)
CRN: 40183
In Person | Lab
St Paul: O'Shaughnessy Science Hall 328
St Paul: Schoenecker Center 401
Principles of dynamics including such topics as kinematics of particles, Newton's Second Law, energy and momentum methods, plane motion of rigid bodies, and forces and acceleration. Applied mathematics is used to solve resulting ordinary differential equations numerically with MATLAB. Emphasis on applications with integrated labs/projects. Prerequisites: Minimum of C- in CISC 130, ENGR 220, MATH 200, and MATH 210
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40182
In Person | Lecture
St Paul: Schoenecker Center 408
Principles of dynamics including such topics as kinematics of particles, Newton's Second Law, energy and momentum methods, plane motion of rigid bodies, and forces and acceleration. Applied mathematics is used to solve resulting ordinary differential equations numerically with MATLAB. Emphasis on applications with integrated labs/projects. Prerequisites: Minimum of C- in CISC 130, ENGR 220, MATH 200, and MATH 210
4 Credits
| M | T | W | Th | F | Sa | Su |
09/03 - 10/21: 10/22 - 12/19: |
Subject: Engineering (UG) (ENGR)
CRN: 40143
In Person | Lab
St Paul: O'Shaughnessy Science Hall 328
St Paul: Schoenecker Center 401
Principles of dynamics including such topics as kinematics of particles, Newton's Second Law, energy and momentum methods, plane motion of rigid bodies, and forces and acceleration. Applied mathematics is used to solve resulting ordinary differential equations numerically with MATLAB. Emphasis on applications with integrated labs/projects. Prerequisites: Minimum of C- in CISC 130, ENGR 220, MATH 200, and MATH 210
0 Credits
| M | T | W | Th | F | Sa | Su |
09/03 - 10/21: 10/22 - 12/19: |
Subject: Engineering (UG) (ENGR)
CRN: 40144
In Person | Lab
St Paul: O'Shaughnessy Science Hall 328
St Paul: Schoenecker Center 401
Principles of dynamics including such topics as kinematics of particles, Newton's Second Law, energy and momentum methods, plane motion of rigid bodies, and forces and acceleration. Applied mathematics is used to solve resulting ordinary differential equations numerically with MATLAB. Emphasis on applications with integrated labs/projects. Prerequisites: Minimum of C- in CISC 130, ENGR 220, MATH 200, and MATH 210
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40091
In Person | Lecture
St Paul: Schoenecker Center 310
Requirements Met:
Writing to learn
Introduction to computer architecture and implementation of architectural features in terms of digital logic. Hardware components and relationships between hardware and software are covered. Tradeoffs between architectures and design approaches are be discussed. Prerequisite: A minimum grade of C- in both ENGR 230 and (CISC 130 or 131).
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40184
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
Topics include memory mapped I/O, timer applications (input capture, PWM), analog-to-digital, digital-to-analog conversion, interrupts, communication and bus protocols, clocking, low-power design and interface with sensors, actuators and other common microcontroller peripherals. This course has a major design project. Prerequisite: A minimum grade of C- in both ENGR 230 and (CISC 130 or 131).
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40666
In Person | Lab
St Paul: Schoenecker Center 309
Topics include memory mapped I/O, timer applications (input capture, PWM), analog-to-digital, digital-to-analog conversion, interrupts, communication and bus protocols, clocking, low-power design and interface with sensors, actuators and other common microcontroller peripherals. This course has a major design project. Prerequisite: A minimum grade of C- in both ENGR 230 and (CISC 130 or 131).
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40191
In Person | Lab
St Paul: Schoenecker Center 309
Topics include memory mapped I/O, timer applications (input capture, PWM), analog-to-digital, digital-to-analog conversion, interrupts, communication and bus protocols, clocking, low-power design and interface with sensors, actuators and other common microcontroller peripherals. This course has a major design project. Prerequisite: A minimum grade of C- in both ENGR 230 and (CISC 130 or 131).
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40072
In Person | Lecture
St Paul: Schoenecker Center 408
Analysis of continuous and discrete time systems using Fourier series, Fourier transform, and Z transforms. Frequency domain characteristics, filtering, modulation, effects of sampling and introduction to Artificial Intelligence are considered. Prerequisites: A minimum grade of C- in ENGR 240 and MATH 210
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40073
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Analysis of electronic devices and circuits. Topics include Op Amps, Op Amp feedback, and OA applications, linear and non-linear transistor circuit models, single transistor amplifiers, and circuit design techniques. Applications include power electronics, amplifiers, active filters, and integrated frequency analysis/design. Prerequisites: A minimum grade of C- in ENGR 240 or 350
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40074
In Person | Lab
St Paul: Schoenecker Center 308
Analysis of electronic devices and circuits. Topics include Op Amps, Op Amp feedback, and OA applications, linear and non-linear transistor circuit models, single transistor amplifiers, and circuit design techniques. Applications include power electronics, amplifiers, active filters, and integrated frequency analysis/design. Prerequisites: A minimum grade of C- in ENGR 240 or 350
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40085
In Person | Lab
St Paul: Schoenecker Center 308
Analysis of electronic devices and circuits. Topics include Op Amps, Op Amp feedback, and OA applications, linear and non-linear transistor circuit models, single transistor amplifiers, and circuit design techniques. Applications include power electronics, amplifiers, active filters, and integrated frequency analysis/design. Prerequisites: A minimum grade of C- in ENGR 240 or 350
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40075
In Person | Lecture
St Paul: Schoenecker Center 314
This course provides scientists and engineers with a background in electrical circuits, electronics and electric machines. Topics include DC, AC and transient circuit analysis, AC 3-phase and power, frequency response and filters, operational amplifiers and active filter, and electric machines; magnetism, magnetic materials, magnetic circuits, DC and AC motors and generators. The course consists of lectures, demonstrations, discussions and an associated hands-on laboratory. Prerequisite: A minimum grade of C- in PHYS 112 or 212
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40076
In Person | Lab
St Paul: Schoenecker Center 308
This course provides scientists and engineers with a background in electrical circuits, electronics and electric machines. Topics include DC, AC and transient circuit analysis, AC 3-phase and power, frequency response and filters, operational amplifiers and active filter, and electric machines; magnetism, magnetic materials, magnetic circuits, DC and AC motors and generators. The course consists of lectures, demonstrations, discussions and an associated hands-on laboratory. Prerequisite: A minimum grade of C- in PHYS 112 or 212
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40099
In Person | Lab
St Paul: Schoenecker Center 308
This course provides scientists and engineers with a background in electrical circuits, electronics and electric machines. Topics include DC, AC and transient circuit analysis, AC 3-phase and power, frequency response and filters, operational amplifiers and active filter, and electric machines; magnetism, magnetic materials, magnetic circuits, DC and AC motors and generators. The course consists of lectures, demonstrations, discussions and an associated hands-on laboratory. Prerequisite: A minimum grade of C- in PHYS 112 or 212
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40077
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 325
An introduction to materials and their properties. This course introduces students to the fundamentals of materials theory, properties and applications. Topics include properties and applications of metals, polymers, ceramics and composite materials. The course emphasizes characteristics of materials in manufacturing operations and service, including open-ended design issues. Offered in fall semester. Prerequisites: A minimum grade of C- in CHEM 109 (preferred), or CHEM 111 or CHEM 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40185
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 325
An introduction to materials and their properties. This course introduces students to the fundamentals of materials theory, properties and applications. Topics include properties and applications of metals, polymers, ceramics and composite materials. The course emphasizes characteristics of materials in manufacturing operations and service, including open-ended design issues. Offered in fall semester. Prerequisites: A minimum grade of C- in CHEM 109 (preferred), or CHEM 111 or CHEM 115
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40078
In Person | Lab
St Paul: Schoenecker Center LL13
An introduction to materials and their properties. This course introduces students to the fundamentals of materials theory, properties and applications. Topics include properties and applications of metals, polymers, ceramics and composite materials. The course emphasizes characteristics of materials in manufacturing operations and service, including open-ended design issues. Offered in fall semester. Prerequisites: A minimum grade of C- in CHEM 109 (preferred), or CHEM 111 or CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40186
In Person | Lab
St Paul: Schoenecker Center LL13
An introduction to materials and their properties. This course introduces students to the fundamentals of materials theory, properties and applications. Topics include properties and applications of metals, polymers, ceramics and composite materials. The course emphasizes characteristics of materials in manufacturing operations and service, including open-ended design issues. Offered in fall semester. Prerequisites: A minimum grade of C- in CHEM 109 (preferred), or CHEM 111 or CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40162
In Person | Lab
St Paul: Schoenecker Center LL13
An introduction to materials and their properties. This course introduces students to the fundamentals of materials theory, properties and applications. Topics include properties and applications of metals, polymers, ceramics and composite materials. The course emphasizes characteristics of materials in manufacturing operations and service, including open-ended design issues. Offered in fall semester. Prerequisites: A minimum grade of C- in CHEM 109 (preferred), or CHEM 111 or CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40164
In Person | Lab
St Paul: Schoenecker Center LL13
An introduction to materials and their properties. This course introduces students to the fundamentals of materials theory, properties and applications. Topics include properties and applications of metals, polymers, ceramics and composite materials. The course emphasizes characteristics of materials in manufacturing operations and service, including open-ended design issues. Offered in fall semester. Prerequisites: A minimum grade of C- in CHEM 109 (preferred), or CHEM 111 or CHEM 115
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40227
In Person | Lab
St Paul: O'Shaughnessy Science Hall 326
Introduction to construction processes including construction planning, equipment, delivery methods, contract documents, procurement, construction methods, scheduling, critical path method, project management, estimating and safety. Construction of buildings, and transportation infrastructure including bridges, roads, rail and highways. Principles of engineering economy including cash flow analysis, cost, analysis and uncertainty. Prerequisites: MATH 113. ECON 251 recommended.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40226
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 327
Introduction to construction processes including construction planning, equipment, delivery methods, contract documents, procurement, construction methods, scheduling, critical path method, project management, estimating and safety. Construction of buildings, and transportation infrastructure including bridges, roads, rail and highways. Principles of engineering economy including cash flow analysis, cost, analysis and uncertainty. Prerequisites: MATH 113. ECON 251 recommended.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 42313
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Introduction to construction materials commonly used in civil engineering projects, including aggregates, asphalt, concrete, fiber reinforced polymers, masonry, metals, and wood. For each material, topics will include material properties, specifications, laboratory procedures, and test equipment, with an emphasis on ASTM standards. Introduction to asphalt and concrete mix design. Prerequisites: A grade of C- or better in ENGR 221, DASC120, and either CHEM 109 or CHEM 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 42314
In Person | Lab
St Paul: Schoenecker Center 121
Introduction to construction materials commonly used in civil engineering projects, including aggregates, asphalt, concrete, fiber reinforced polymers, masonry, metals, and wood. For each material, topics will include material properties, specifications, laboratory procedures, and test equipment, with an emphasis on ASTM standards. Introduction to asphalt and concrete mix design. Prerequisites: A grade of C- or better in ENGR 221, DASC120, and either CHEM 109 or CHEM 111.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40234
In Person | Lecture
St Paul: Schoenecker Center 331
Identification of loads and load paths through a structure. Analysis of internal loading, stress and deflection in trusses, beams and frames. Topics include shear and moment diagrams, influence lines, and determination of deflection through energy methods. Prerequisite: ENGR 221 and MATH 210 with C- or better.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 42334
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 230
Principles of soil mechanics and geotechnical engineering. Physical and mechanical properties of soils including, shear strength of soil, slope stability, soil stabilization, compaction, consolidation and stress analysis. Role of water in soils including permeability, drainage, and Atterberg limits. Theories related to and design of retaining structures. Design of retaining walls, footings, mat foundations and pile foundations. Engineering design will adhere to professional practice, current codes/standards, considerations for economics and safety. Prerequisites: A grade of C- or better in ENGR 221.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 42335
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL13
Principles of soil mechanics and geotechnical engineering. Physical and mechanical properties of soils including, shear strength of soil, slope stability, soil stabilization, compaction, consolidation and stress analysis. Role of water in soils including permeability, drainage, and Atterberg limits. Theories related to and design of retaining structures. Design of retaining walls, footings, mat foundations and pile foundations. Engineering design will adhere to professional practice, current codes/standards, considerations for economics and safety. Prerequisites: A grade of C- or better in ENGR 221.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40253
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Introduction to the fundamentals of fluid mechanics in the context of civil engineering applications. Topics covered include hydrostatics and pressure variations in non-moving fluids, forces on submerged surfaces, conservation laws of flowing fluids (mass, momentum, and energy), potential flow and viscous flow, boundary layer theory, internal flow, external flow, open channel flow, drag and experimental uncertainty analysis. Hands-on engagement of lecture topics, practical hands-on skills, experimental design and measurement uncertainty analysis is integrated into course laboratory. Prerequisite: A grade of C- of better in MATH 210 and either CHEM 109 or CHEM 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40269
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL17
Introduction to the fundamentals of fluid mechanics in the context of civil engineering applications. Topics covered include hydrostatics and pressure variations in non-moving fluids, forces on submerged surfaces, conservation laws of flowing fluids (mass, momentum, and energy), potential flow and viscous flow, boundary layer theory, internal flow, external flow, open channel flow, drag and experimental uncertainty analysis. Hands-on engagement of lecture topics, practical hands-on skills, experimental design and measurement uncertainty analysis is integrated into course laboratory. Prerequisite: A grade of C- of better in MATH 210 and either CHEM 109 or CHEM 111.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40092
In Person | Lecture
St Paul: Schoenecker Center 314
This course covers such basic principles as metal forming, metal cutting, plastic molding, and continuous processes. Students will learn statistical evaluation tools such as the meaning of population distributions, means, medians, regression analysis, and standard deviations. Statistical process control and acceptance testing in the context of modern manufacturing processes will be covered. Prerequisite: A minimum grade of C- in MATH 114 and ENGR 221 (or concurrent registration)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40123
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 333
This course covers such basic principles as metal forming, metal cutting, plastic molding, and continuous processes. Students will learn statistical evaluation tools such as the meaning of population distributions, means, medians, regression analysis, and standard deviations. Statistical process control and acceptance testing in the context of modern manufacturing processes will be covered. Prerequisite: A minimum grade of C- in MATH 114 and ENGR 221 (or concurrent registration)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40100
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL14
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40165
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL14
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40084
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL14
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40080
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL14
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40079
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 327
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40120
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 327
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:00 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40088
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL14
A study of thermal and mechanical energy and their applications to technology. First law of thermodynamics (energy conservation); second law of thermodynamics (restrictions on energy transformations). Major topics include the analysis of closed and open (steady state and transient) systems, power cycles, thermophysical properties of substances humidity, dew point and other characteristics of non-reacting mixtures. Prerequisites: A minimum grade of C- in CHEM 115 or 109
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40224
In Person | Lecture
St Paul: Schoenecker Center 408
Introduction to the fundamentals of fluid mechanics in the context of engineering applications. Topics covered include fluid properties, hydrostatics and pressure variations in non‐moving fluids, buoyancy, conservation laws of flowing fluids (mass, momentum, and energy), dimensional analysis, boundary layers, internal flow, external flow, drag and lift. Experimental uncertainty analysis is integrated into the course lecture and lab. Also, the evaluation of turbomachinery and use of pump/blower curves is addressed. Prerequisite: Grade of C- or higher in ENGR 381 and MATH 200.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40424
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL17
Introduction to the fundamentals of fluid mechanics in the context of engineering applications. Topics covered include fluid properties, hydrostatics and pressure variations in non‐moving fluids, buoyancy, conservation laws of flowing fluids (mass, momentum, and energy), dimensional analysis, boundary layers, internal flow, external flow, drag and lift. Experimental uncertainty analysis is integrated into the course lecture and lab. Also, the evaluation of turbomachinery and use of pump/blower curves is addressed. Prerequisite: Grade of C- or higher in ENGR 381 and MATH 200.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40103
In Person | Lab
St Paul: O'Shaughnessy Science Hall LL17
Introduction to the fundamentals of fluid mechanics in the context of engineering applications. Topics covered include fluid properties, hydrostatics and pressure variations in non‐moving fluids, buoyancy, conservation laws of flowing fluids (mass, momentum, and energy), dimensional analysis, boundary layers, internal flow, external flow, drag and lift. Experimental uncertainty analysis is integrated into the course lecture and lab. Also, the evaluation of turbomachinery and use of pump/blower curves is addressed. Prerequisite: Grade of C- or higher in ENGR 381 and MATH 200.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40268
In Person | Lab
St Paul: Schoenecker Center 331
Introduction to the fundamentals of heat transfer in the context of engineering applications. The major topics to be covered include conduction, convection, and radiation. Students will solve steady and unsteady conduction heat transfer problems in both one-dimensional and multi-dimensional coordinate systems. Internal and external convection will be covered as well as heat exchangers and natural convection. Prerequisite: Grades of C- or higher in ENGR 381, ENGR 383 and MATH 210.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40267
In Person | Lecture
St Paul: Murray-Herrick Campus Center 203
Introduction to the fundamentals of heat transfer in the context of engineering applications. The major topics to be covered include conduction, convection, and radiation. Students will solve steady and unsteady conduction heat transfer problems in both one-dimensional and multi-dimensional coordinate systems. Internal and external convection will be covered as well as heat exchangers and natural convection. Prerequisite: Grades of C- or higher in ENGR 381, ENGR 383 and MATH 210.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40029
In Person | Lab
St Paul: Schoenecker Center 331
Introduction to the fundamentals of heat transfer in the context of engineering applications. The major topics to be covered include conduction, convection, and radiation. Students will solve steady and unsteady conduction heat transfer problems in both one-dimensional and multi-dimensional coordinate systems. Internal and external convection will be covered as well as heat exchangers and natural convection. Prerequisite: Grades of C- or higher in ENGR 381, ENGR 383 and MATH 210.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40097
In Person | Lecture
St Paul: Schoenecker Center 314
An introduction to automation and single-input-single-output (SISO) control systems. Emphasis is placed on continuous-time control loop theory and the use of Laplace transforms to design and analyze control systems. Topics include system modeling, block diagram representation, stability, error analysis, and proportional-integral-derivative (PID) controller synthesis. Prerequisites: A minimum grade of C- in ENGR 240 or 350, MATH 210, CISC 130 or 131.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Engineering (UG) (ENGR)
CRN: 40124
In Person | Lecture
St Paul: Schoenecker Center 314
An introduction to automation and single-input-single-output (SISO) control systems. Emphasis is placed on continuous-time control loop theory and the use of Laplace transforms to design and analyze control systems. Topics include system modeling, block diagram representation, stability, error analysis, and proportional-integral-derivative (PID) controller synthesis. Prerequisites: A minimum grade of C- in ENGR 240 or 350, MATH 210, CISC 130 or 131.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40125
In Person | Lab
St Paul: Schoenecker Center 310
An introduction to automation and single-input-single-output (SISO) control systems. Emphasis is placed on continuous-time control loop theory and the use of Laplace transforms to design and analyze control systems. Topics include system modeling, block diagram representation, stability, error analysis, and proportional-integral-derivative (PID) controller synthesis. Prerequisites: A minimum grade of C- in ENGR 240 or 350, MATH 210, CISC 130 or 131.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40126
In Person | Lab
St Paul: Schoenecker Center 310
An introduction to automation and single-input-single-output (SISO) control systems. Emphasis is placed on continuous-time control loop theory and the use of Laplace transforms to design and analyze control systems. Topics include system modeling, block diagram representation, stability, error analysis, and proportional-integral-derivative (PID) controller synthesis. Prerequisites: A minimum grade of C- in ENGR 240 or 350, MATH 210, CISC 130 or 131.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40187
In Person | Lab
St Paul: Schoenecker Center 310
An introduction to automation and single-input-single-output (SISO) control systems. Emphasis is placed on continuous-time control loop theory and the use of Laplace transforms to design and analyze control systems. Topics include system modeling, block diagram representation, stability, error analysis, and proportional-integral-derivative (PID) controller synthesis. Prerequisites: A minimum grade of C- in ENGR 240 or 350, MATH 210, CISC 130 or 131.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40188
In Person | Lab
St Paul: Schoenecker Center 310
An introduction to automation and single-input-single-output (SISO) control systems. Emphasis is placed on continuous-time control loop theory and the use of Laplace transforms to design and analyze control systems. Topics include system modeling, block diagram representation, stability, error analysis, and proportional-integral-derivative (PID) controller synthesis. Prerequisites: A minimum grade of C- in ENGR 240 or 350, MATH 210, CISC 130 or 131.
0 Credits
| 09/03 - 10/21 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 42785
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
This course is a practical introduction of composites, which are materials consisting of a mixture of different classes of materials such as polymers, metals, and ceramics where one component (the discontinuous phase) typically is embedded in the other (the matrix phase). Composites are literally everywhere; for example, fiber reinforced composites are used in a variety of applications including sports equipment, medical devices, and automotive and aerospace components. This course will investigate polymer-, ceramic-, and metal-matrix composites in order to dive into topics such as material selection, manufacturing processes, material property analysis, and design. While our focus will be on mechanical property improvements from composites, other properties such as electrical and thermal will be considered. Prerequisite: ENGR 361 (or concurrent registration).
2 Credits
| 10/23 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 42807
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
This course introduces the theory and application of smart (aka intelligent or stimuli-responsive) materials. In particular, students will explore the energy conversions inherent to these special materials. With this lens, the properties, uses, and limitations of these materials are explored. Particular emphasis is placed on how smart material application performance and properties are intimately linked to material structure and processing. Both smart materials selection and design of new smart materials is explored. New developments are highlighted throughout to ensure an understanding of the expanding materials landscape. Prerequisite: ENGR 361 as pre or co-req (can be taken either before or concurrently)
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:30 am |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40081
In Person | Lecture/Lab
St Paul: Schoenecker Center 314
An introduction to the hardware and software co-design of complex embedded systems. Topics include software profiling, implementation of coprocessors for hardware acceleration, advanced HDL, high-level synthesis, software drivers, communication protocols, and real-time digital signal processing. Prerequisite: A minimum grade of C- in ENGR 331
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40655
In Person | Lecture
St Paul: Schoenecker Center 238
Requirements Met:
Sustainability (SUST)
Writing to learn
Introduction to environmental engineering including assessment of the sources, measuring techniques, and treatment methods for pollution caused by human influence. Design of water and wastewater systems, air pollution mitigation and prevention, pollutant transportation. Prerequisite: CHEM 109 with C- or better.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40676
In Person | Lab
St Paul: Schoenecker Center LL01
Introduction to environmental engineering including assessment of the sources, measuring techniques, and treatment methods for pollution caused by human influence. Design of water and wastewater systems, air pollution mitigation and prevention, pollutant transportation. Prerequisite: CHEM 109 with C- or better.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 42312
In Person | Lab
St Paul: Schoenecker Center LL01
Introduction to environmental engineering including assessment of the sources, measuring techniques, and treatment methods for pollution caused by human influence. Design of water and wastewater systems, air pollution mitigation and prevention, pollutant transportation. Prerequisite: CHEM 109 with C- or better.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Engineering (UG) (ENGR)
CRN: 42337
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 326
Advanced topics in the design of steel structures; behavior of members subject to combined forces, composite members, built up members, advanced connection design, and stability. Theoretical, experimental, and practical bases for proportioning members and their connections. Prerequisite: A minimum grade of C- in ENGR 464 or ENGR 365.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Engineering (UG) (ENGR)
CRN: 40082
In Person | Lecture
St Paul: Owens Science Hall 150
Requirements Met:
[Core] Signature Work
Tiffany Ling, Heather Orser, Jose Capa Salinas
Serves as the first capstone course. Student design teams, under the direction of a faculty coordinator, will develop engineering solutions to practical, open-ended design projects conceived to demonstrate the value of prior basic science and engineering courses. Ethical, social, economic and safety issues in engineering practice will be considered as well. Prerequisites: A minimum grade of C- in either (ENGR 320, 350, 371, and 381) or (ENGR 331, 346, and 410) or (CISC 231, ENGR 345, and concurrent-registration in-or prior completion of either ENGR 431 or ENGR 432) or (ENGR 362, and two of: ENGR 464, ENGR 466, ENGR 467, ENGR 468)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40242
In Person | Lab
St Paul: Facilities & Design Center 202
Requirements Met:
[Core] Signature Work
Michael O'Connor, Paul Mazanec, Rita Lederle, Mingu Kang, JiYong Lee, Andrew Barrett-Bettcher, Ray Haremza, Matt Metzger, Lauren Patrin Deonauth, Heather Orser, Andrew Tubesing, Steve Albers, Brittany Nelson-Cheeseman, Mohamed Moustafa, Lucas Koerner, Will Besser, Michael Hennessey, Justin Gese, Chong Xu, Chris Haas, Rachel Detwiler, Jason Petaja, Troy Fox, Brodan Richter, Greg Mowry, Paul Chevalier, Farshad Esnaashari
Serves as the first capstone course. Student design teams, under the direction of a faculty coordinator, will develop engineering solutions to practical, open-ended design projects conceived to demonstrate the value of prior basic science and engineering courses. Ethical, social, economic and safety issues in engineering practice will be considered as well. Prerequisites: A minimum grade of C- in either (ENGR 320, 350, 371, and 381) or (ENGR 331, 346, and 410) or (CISC 231, ENGR 345, and concurrent-registration in-or prior completion of either ENGR 431 or ENGR 432) or (ENGR 362, and two of: ENGR 464, ENGR 466, ENGR 467, ENGR 468)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40101
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Requirements Met:
Sustainability (SUST)
Writing in the Discipline
A continuation of ENGR 480 involving the application of engineering principles to the solution of real problems in an actual industrial setting. Student design teams will work under the direction of faculty advisers and industry liaisons. Opportunity will be provided for objective formulation, analysis, synthesis and evaluation of alternative solutions. Prerequisite: ENGR 480
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Engineering (UG) (ENGR)
CRN: 40243
In Person | Lab
St Paul: Facilities & Design Center 202
Michael O'Connor, Rachel Detwiler, Chris Haas, Bob Mahmoodi, Brad Reinboldt, Keith Berrier, Jose Capa Salinas
A continuation of ENGR 480 involving the application of engineering principles to the solution of real problems in an actual industrial setting. Student design teams will work under the direction of faculty advisers and industry liaisons. Opportunity will be provided for objective formulation, analysis, synthesis and evaluation of alternative solutions. Prerequisite: ENGR 480
0 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40169
In Person | Lecture
St Paul: Schoenecker Center 224
An overview of manufacturing processes with the objective of establishing the processes most appropriate to the characteristics and production requirements of the product. Metallurgy is briefly reviewed as a basis for material processing. Many conventional methods of fabrication are covered. Design for manufacturing and assembly techniques will be studied along with assembly methods and flow. Clean rooms and electronic assembly are also covered. Students unfamiliar with manufacturing processes will need to do independent study to determine all of the processes available.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40550
In Person | Lecture
St Paul: Owens Science Hall LL54
The course provides an overview of engineering solid mechanics. An effort will be made to apply theory to practice relating to typical industrial problems faced by today’s engineering companies. A complete understanding of these topics is required for the application of engineering knowledge in the solid mechanics. This course provides the foundation for many of the courses which follow.
3 Credits
| M | T | W | Th | F | Sa | Su |
09/08: 09/15: 09/22: 09/29: 10/06: 10/20: 10/27: 11/03: 11/10: 11/17: 11/24: 12/01: 12/08: 12/15: |
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 42317
Blended Online & In-Person | Lecture
St Paul: Owens Science Hall 257
Online
An advanced course in concepts essential to achieving excellence in operations. The course covers the development and implementation of a coherent manufacturing strategy consistent with business and corporate strategies; importance of global competitiveness; and structuring of the production process based on the manufacturing mission. The human interaction involved in current quality issues, Just-in-time (JIT), Total Productive Maintenance (TPM), setup time reduction, simultaneous engineering, lean manufacturing and contemporary logistics systems, employee involvement and teamwork are key concepts of this course.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40170
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
An introduction to the basic philosophy of the statistical tools used to assure manufacturing quality. Tools to include: hypothesis testing, regression analysis, analysis of variance, process capability, control charts (SPC) and six sigma. Students will conduct and report an industrial based statistical application project.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
9:00 am |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40171
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
This course considers the engineering of both natural and human-made systems as well as the analysis of those systems. The course will convey to the students the essential elements of systems engineering; including systems thinking, systems analysis, system architecture, the decomposition and re-composition of systems design, risk management, reliability, maintainability and availability, and the coherent structure of a systems view.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40172
Online: Sync Distributed | Lecture
Online
This course considers two closely related but distinct concepts in systems engineering, verification and validation. Verification is “The process of evaluating a system or component to determine whether the products of a given development phase satisfy the conditions imposed at the start of that phase.” (IEEE Standard Glossary of Software Engineering Terminology, Standard 610.12-1990.) Validation is the act of assessing the requirements, design, and development of a product to ensure that it will meet the user’s requirements, operational needs, and expectations at the time of delivery. Systems engineering verification and validation practices will be studied and applied in appropriate situations. Prerequisite: ETLS 508 - Systems Design
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40660
Online: Asynchronous | Directed Study
Online
Introduction to linear circuit analysis and basic electronic instrumentation. Students will learn linear models of passive components and sources as well as how real components depart from those models. Circuit analysis techniques including nodal and mesh analysis, equivalence theorems and computer simulation will be covered. Laplace transform techniques will be used to examine sinusoidal steady state and transient circuit behavior. Prerequisite: A minimum grade of C- in PHYS 112 or 212, and concurrent registration with or prior completion of MATH 114. NOTE: Students who receive credit for ENGR 240 or ENGR 350 may not receive credit for this class.
3 Credits
| M | T | W | Th | F | Sa | Su |
09/03: 09/10: 09/17: 09/24: 10/01: 10/15: 10/22: 10/29: 11/05: 11/12: 11/19: 11/26: 12/03: 12/10: |
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40783
Blended Online & In-Person | Lecture
St Paul: O'Shaughnessy Science Hall 230
Online
The purpose of this course is to introduce engineers to some of the financial and economic principles and concepts they will face in the workplace. A successful engineer not only has full mastery of engineering subject matter but also mastery of fundamental business practices and principles around cost management in the New Product Introduction process, product revisions and addressable market expansion. Topics will include cashflow analysis, simple and compound interest, minimum attractive rate of return, present and future value of cashflows, internal and external rate of return, Cost/Benefit analysis, Cost of Capital, repair/replace decisions, breakeven and payback analysis and other topics.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40178
In Person | Lecture
St Paul: Owens Science Hall LL54
Organizational Performance Excellence is presented as a Driver --> System --> Results model. The DSR model provides a framework for better understanding your business and when and where to take action to improve results. The DSR model is a tool that links company mission, vision, strategic plans, competitive positioning, and customer focus as the Driver. The System consists of the workforce and operational processes that design, produces, and delivers products and services. Results measure the performance of an organization in leadership, financial, customer, employee, and process areas. The DSR model is underpinned with the information and knowledge necessary to make fact-based decisions. The course connects the DSR model to the Baldrige Excellence Framework and continuous improvement tools such as Plan-Do-Check-Act and A3 problem solving methodologies.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40179
In Person | Lecture
St Paul: Owens Science Hall 257
This application-oriented course will provide insight into supply chain management and forecasting with current management focus and thinking in lean manufacturing, six sigma, and continuous improvement. A system-thinking approach will be reviewed with mapping logistics, forecasting, warehousing, transportation, and information systems, combined with discussion of the customer and vendor relationships. The course includes reviews and discussions about supply chain challenges and effectively sourcing products and components globally and locally, especially with the recent obstacles introduced by the COVID disruptions. Students will consider changes in the supply chain that are a significant factor in decisions and a driver of price fluctuations. Supply Chain stability topics will include the overall shipping volume, speed to destination, cost of transportation, and variability of these factors. By considering these factors, stresses, and where they originate, students will understand forecasting supply chain fragility with the goal of creating a more resilient supply chain.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40830
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Detailed discussion of product design and development for engineers. This lecture-based course focuses on medical device product design, yet it draws many examples from other industries. Students will learn the product development cycle beginning with initial market analysis and proceeding through manufacturing. The course introduces many statistical analysis tools and procedures as the basis for rigorous decision making in product design. General design topics include voice-of-customer research; technical product requirements; project planning and schedules; measurement system analysis; comparative testing; design of experiments; robust design; manufacturing process control; and product reliability.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40180
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Focusing on the applications of project management, students gain insight and understanding of the day-to-day activities of project management (including cost analysis and scheduling techniques) and exposure to software options. A significant portion of the course focuses on conflict resolution, time management, leadership, and other personnel-related topics with the goal that engineers might effectively carry out the requirements of their companies without paying a penalty in lost good will or personnel.
3 Credits
| M | T | W | Th | F | Sa | Su |
09/08: 12/08: |
||||||
| + asynchronous coursework: 09/03 - 12/15 | ||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40605
Online: Asynchronous | Lecture
Online
This course provides an overview of the key natural, social, economic and governance systems, principles and perspectives impacting a sustainable future. Using Electric Vehicles as a springboard, we will address the complex natural systems (water, land, climate) and social systems (economics, government, business) involved in improving human and environmental health and successfully transitioning to sustainable technology. Through case studies and practical exercises, students will develop a deep understanding of the interdependent systems impacted when developing and implementing sustainable and regenerative practices in a range of industries and sectors.
3 Credits
| M | T | W | Th | F | Sa | Su |
09/04: 09/11: 09/18: 09/25: 10/02: 10/09: 10/16 - 10/23: 10/30: 11/06: 11/13: 11/20: 12/04: 12/11: |
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40677
Blended Online & In-Person | Lecture
St Paul: Owens Science Hall 251
Online
Requirements Met:
Sustainability (SUST)
Lean Six Sigma is a course designed to equip students with practical problem-solving skills and hands-on experience in Lean Six Sigma methodology, to better prepare and be more competitive for jobs. Instead of focusing on theoretical knowledges, the course is structured in a workshop style setting that the class will break into multiple teams, each working on a capstone style project from real-life (from class) throughout the course. This setting will allow students to systematically apply the newly learned Lean Six Sigma methodology and tools in a just-in-time fashion that leads to the final project report, to effectively tell the story and journey of what have been done and achieved - a much needed capability at work. This course, while devoting 1 session to review relevant statistical analytics, will focus on non-statistical tools and can be used to prepare for Lean or Six Sigma certification. The 1st 2 sessions are laying out the foundation for the course and projects, thus are more critical and can't be missed.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40678
In Person | Lecture
St Paul: Owens Science Hall 257
Three observations inform this course: - Engineers at every level of an organization can exhibit leadership, amplifying their contribution and effectiveness. - Many engineers who are asked to assume leadership roles do so without the benefit of leadership education or a ‘roadmap’ for their role. - The core capabilities, competencies, principles and practices of highly effective leaders are relatively consistent and can be developed. The course addresses three basic questions: 1. What makes for a highly effective leader? 2. Who am I as a leader and how do I exhibit my leadership? 3. How do I develop my leadership? It is designed to develop engineering students’ leadership capabilities by building their own “roadmap” for their leadership; increasing clarity about one’s self-as-leader; strengthening their awareness for interpersonal and leadership effectiveness within organizations; and sharpening their capability for managing their leadership development throughout their career and life. Designed in seminar format, the course provides students with multiple readings, personal reflection, assessments, exercises and case studies and large and small group dialogue. Students are encouraged to consider a vision of their career within a global mindset and grounded in the Engineering Code of Ethics. Assignments are intended to facilitate career management and presenting oneself as a professional and as a leader.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 42319
In Person | Lecture
St Paul: Schoenecker Center 314
This course discusses topics on the fundamentals of continuous and discrete-time signals, sampling, time-frequency analysis, filters, Machine Learning and Neural Network. Applications include speech, audio, image, video and biomedical signal processing, signal compression, and multi-dimensional sensor data analysis. Prior experience with MATLAB/Python is highly recommended.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40675
In Person | Lecture
St Paul: Schoenecker Center 314
Introduction to wearable sensor systems, applications, data analysis and IoT.Through this course, you will learn how to develop wearable platform for various different applications. Applications include, but not limited to, personal health monitoring, fitness, communication and assistive systems. Information collected from the wearable systems can be analyzed and expanded to an Internet of Things (IoT) applications to better implement health and wellness management systems. Through the course, we will also extend wearable applications and IoT technology to discuss smart homes and smart cities. Topics include: wearable sensors and systems, wearables applications, networking and communication, and data analysis via mobile (cloud) computing.
3 Credits
| M | T | W | Th | F | Sa | Su |
09/05: 09/12 - 09/26: 10/03: 10/10 - 10/24: 10/31: 11/07 - 11/21: 12/05 - 12/12: |
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40832
Blended Online & In-Person | Lecture
St Paul: Schoenecker Center 314
Online
This course discusses the application of intelligent robots, such as navigation and control, using machine vision-based artificial intelligence, which is essential for the decision-making of intelligent autonomous robots required in Industry 5.0 and various next-generation industries. Learn the functions of vision and lidar sensors for robots to obtain information from the environment, navigation, control, and convergence technology of computer vision. In detail, ROS (Robotics Operating System), image analysis in which the characteristics of a single image, a moving sequence of images, and a moving camera, including the use of traditional computer vision algorithms, are discussed. Acquisition of image information from vision sensors, theories and programming practice of object recognition technology, and application skills through robot control are acquired. The course also discusses the diverse robot applications expected to be seen in Industry 5.0 coupled with artificial intelligence/deep learning. *Registration requires the consent of the instructor.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 42320
In Person | Lecture
St Paul: Schoenecker Center 314
This Master’s level course walks students through the design of an active implantable medical device (AIMD) with discussion of the components common to all AIMDs including power management, communication, data management, and sensing with the addition of stimulation circuitry for a pacemaker. Emphasis for the class is placed on evaluating electronics under the conditions they are exposed to during the lifetime of the device. Upon completion of the course students will have an understanding of design considerations and common techniques used to support operation and functionality in implantable medical devices. Prerequisites: Electronics I (ENGR 345) or equivalent. Electronics II (ENGR 346) is preferred.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 42458
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 326
Online
(Cross listed) In this course, we will focus on foundational Smart Manufacturing (SM) and AI concepts necessary to build any SM system. We will journey through the history of SM and its applications and how modern ML and IoT systems can be adapted for SM applications. Students will also learn about basic data handling and simulation techniques used in the manufacturing industry. By leveraging real-world data from our industry partners, we will walk the tightrope between theory and application toward the realization of feasible SM systems.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40035
In Person | Lecture
St Paul: Schoenecker Center 309
This course provides the student with a set of skills to improve products and processes already in manufacturing as well as to develop products and processes in the development stages of a project. The definition of DOE promoted is " a tool to assist in the process of understanding the system". There will be discussion of how DOE fits into the overall product lifecycle and where it applies and does not apply to the area of testing. Tools covered include full and fractional factorials, central composite, Box-Behnken, Taguchi, Evolutionary Operation and the method of steepest ascent. Theoretical statistics understanding is assumed coming into the course. A standard, simple process will be presented which allows for improved communication and user confidence in using the tool set. The primary objective is to assist the student in implementing the skills learned as a part of the course. This is an applications - oriented course that includes case studies, team projects, student presentations and reports, guest lecturers and use of computational software. A quick statistical overview will be provided in the class as a refresher, but is not intended to cover the subjects in depth to students new to the subject. It would still be beneficial to review all of the topics prior to starting the class. The underlying statistics covered in ETLS 506 are a critical foundation for the material presented in the DOE class. The minimum background needs to include an understanding of: statistical symbology; normal distribution; ANOVA; and z, t, and F tests. General understanding of alpha and beta errors flow charts, Pareto charts, cause and effect diagrams and SPC is nice but not required. If you have equivalent background, the instructor will grant a written waiver.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40657
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Candice Burns, Timothy Philips
This course teaches the student about submissions for regulatory approval of medical devices. Topics include: medical device law, custom and research devices, significant and non-significant risk devices, FDA investigational device exemption, 510(k) substantial equivalence determination, pre-market approval, PMA supplements, third party review, combination devices, European economic area CE mark, international harmonization, MDR, device tracking, post market surveillance, and annual post approval reporting. Depending upon the degree of class interest medical device submissions in Canada, Australia and Japan may be covered.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40658
Online: Sync Distributed | Online: Synchronous
Online
This class will focus on medical device quality system requirements for medical device manufacturers. The majority of class time will be spent reviewing the U.S. FDA Quality System Regulation with additional focus on the European Quality Standard for Medical Devices, ISO 13485, and the European Medical Device Regulation. The course includes a short overview on the history of FDA regulation, sources of U.S. law and regulated activities. Additional class topics include an introduction to the U.S. regulatory submission process, complaint handling, medical device event reporting, risk management, and corrections & removals. Several classes will include lecture and classroom discussion on how to handle FDA inspections, and the ramification of non-compliance discovered during inspections. Classroom methodology will be lectures with substantial student interaction encouraged. Coursework includes small group presentation and paper development as well as presentations of that work to the broader class.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40499
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Georgiann Keyport, Nancy Cameron, Aline Lindbeck
This course gives an introduction to the submission approval process, validation, manufacturing and quality requirements for combination products, drugs and biologics. Course topics will include a historic overview, the process to determine which FDA Center controls the regulatory process, applicable regulations and post-market approval practices for these products. Students will learn how the regulations and practices at CDER and CBER differ from CDRH. They will also learn how the FDA designated controlling center will shape the submission clearance/approval process, manufacturing control, and post-market requirements for a combination product.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40173
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 230
| M | T | W | Th | F | Sa | Su |
09/04: 09/11 - 09/25: 10/02: 10/09: 10/16: 10/23: 10/30: 11/06: 11/13 - 12/04: 12/11: |
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40174
Blended Online & In-Person | Lecture
St Paul: Owens Science Hall LL54
Online
Energy is one of the most important issues of the century. This course will provide a basic understanding of various renewable and classical electric energy generation techniques. It will cover, among others, thermal, hydro, nuclear, solar, and wind-based power generation. We'll also review certain basic aspects of power storage and delivery. This course will help students in the evaluation and analysis of various energy systems in the context of technology, economics, and sustainability. Prerequisite: Successful completion of ENGR 240, or ENGR 350 or ETLS 511 equivalent.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40014
Online: Sync Distributed | Lecture
Online
This course covers the fundamentals of and the application of relays for power system protection. Topics in the course include: Power System Philosophies, Types of Power System Protection, Faults, Symmetrical Components and Neutral Grounding , Fuses,Instrument Transformers,Relays – Types and Operating Principles, Circuit Breakers as well as Transmission Line Protection, Busbar Protection, Transformer Protection, Circuit Breaker Protection, Shunt Capacitor Protection, Shunt Reactor Protection, Generator Protection, Motor Protection, System Protection. Prerequisite: ETLS 744.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40850
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
This course is designed to instill a strategic mindset that will enable students to successfully exploit external opportunities while addressing challenges and threats from a manager or executive perspective. Questions include: What are the strategies of the organization? Competitive advantages? Core competencies? How do we pursue these? Does the engineering organization have a technology roadmap to success? Do the current investments align? Closely related topics include risk management, the impact of global megatrends, M & A, due diligence, joint ventures, and intellectual property protection. In short how to think like a successful executive. You are now in charge of your company’s engineering organization. They are going to invest 3% in anything you decide. Output would include a “mini-business case” for engineering organization. Networking is key, they need to be working cross-organizationally (Personal Branding—how do I shape this), Make vs buy.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 42838
In Person | Lecture
St Paul: Schoenecker Center 314
Power Electronics (PE) systems (PES) efficiently transform input electrical power in one form to an electrical output in another form; e.g. DC in, AC out. A complete PES is comprised of several subsystems. For example, a PES typically includes the PE conversion electronics, the controls subsystem, the PCB which effectively integrates all PES subsystems, and finally, the thermal management and safety/fault protection subsystem. The common PE topologies associated with the input-output transformation of electrical power are covered in ETLS-746 Power Electronics. This course is a follow-on to ETLS-746 Power Electronics as an exciting transformation is currently underway with regard to how PES are controlled. Traditionally, PES were controlled using classical analog methods. Over the past decade, state-of-art DSPs, FPGAs, and microcontrollers have become sufficiently capable to enable the discrete control of modern PES. In this PE controls class the foundations of state-space methods of discrete control of PES will be introduced and covered along with particular attention given to model predictive control (MPC) methods as applicable to PES. Prerequisites: ENGR 410 AND ETLS 746 (or their respective equivalents), or (2) Instructor permission.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm 5:45 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40175
Blended Online & In-Person | Lecture
St Paul: O'Shaughnessy Science Hall 329
Online
This course introduces the student to theory and application of engineering materials. While particular emphasis is placed on traditional structural materials, emerging materials technology is also discussed. Topics explore the physical and mechanical properties of metals, polymers, ceramics, and composite materials. Useful applications and limitations of those materials presented and means of modifying their properties are discussed at length. Guest speakers and industrial tours supplement traditional learning by exposing the student to particular materials application, processing and evaluation.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40176
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 326
This course offers an introduction to finite element analysis (FEA) in theory and practice. Students will learn the mathematical and physical foundation of the method, and will also be exposed to implementation via a commercial FEA program. Solutions to real problems and projects will be integral parts of the course content and grade. Emphasis will be placed on the use of FEA for solid/structural mechanics and thermal problems.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40445
Online: Asynchronous | Lecture
Online
This course offers an introduction to finite element analysis (FEA) in theory and practice as applied in the manufacturing arena. Students will gain a foundation of the method and will be exposed to multiple FEA programs. An integral part of the course content will include solutions to real problems that are encountered by local manufacturing companies. Some topics which will be covered include structural mechanics, machining, thermal analysis, and fluid dynamics. A strong background in mechanics of materials, physics, and manufacturing is necessary.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:45 pm |
||||||
Subject: Engr Tech Leadrshp (Grad) (ETLS)
CRN: 40177
Online: Sync Distributed | Lecture
Online
Many engineering systems are inherently dynamic in nature. Characterizing and designing such systems requires mathematical modeling, simulation, and visualization using modern software such as MATLAB, SIMULINK, and SolidWorks, possibly with add-on modules. Lectures focus on the detailed applied mathematical modeling of a variety of systems from different energy domains with a bias towards mechanical systems such as mechanical translational, mechanical rotational, hydraulic, thermal, among others. The laboratory has 3 components to it: (1) software training(as necessary) , (2) developing dynamic models using MATLAB and SIMULINK, (3) creating CAD models of systems, and (4) integrating the dynamics models with the visualization to create computer animations of the resulting motions of the mechanical systems. Students also work on a team-based dynamic simulation and visualization of mechanical systems project.
3 Credits
| 10/23 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40146
In Person | Lecture
St Paul: Schoenecker Center 224
Requirements Met:
Sports Management Minor
Sports Studies Minor
This is the introductory course in the Exercise Science major and provides and overview of the field of applied exercise science. The student will gain exposure to various career options and possible settings for professional practice of exercise science, and will be introduced to the foundations of Biomechanics, Exercise Physiology, Exercise Psychology and Sociology. (Formerly PHED 130)
2 Credits
| 10/23 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40890
In Person | Lecture
St Paul: Schoenecker Center 224
Requirements Met:
Sports Management Minor
Sports Studies Minor
This is the introductory course in the Exercise Science major and provides and overview of the field of applied exercise science. The student will gain exposure to various career options and possible settings for professional practice of exercise science, and will be introduced to the foundations of Biomechanics, Exercise Physiology, Exercise Psychology and Sociology. (Formerly PHED 130)
2 Credits
| 09/03 - 10/22 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40408
In Person | Lecture
St Paul: Anderson Ath and Rec Center 205
Requirements Met:
Writing in the Discipline
This course allows students the opportunity to be engaged in hands-on research methodology focused on exercise science. This includes instruction regarding obtaining and reading research, the IRB process, the use of equipment in the exercise science labs, working with human participants, and the process of manuscript preparation.
2 Credits
| 09/03 - 10/22 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Exercise Science (EXSC)
CRN: 40653
In Person | Lecture
St Paul: Anderson Ath and Rec Center 205
Requirements Met:
Writing in the Discipline
This course allows students the opportunity to be engaged in hands-on research methodology focused on exercise science. This includes instruction regarding obtaining and reading research, the IRB process, the use of equipment in the exercise science labs, working with human participants, and the process of manuscript preparation.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Exercise Science (EXSC)
CRN: 40148
In Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40149
Blended Online & In-Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40554
Blended Online & In-Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40555
Blended Online & In-Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
2:55 pm |
||||
Subject: Exercise Science (EXSC)
CRN: 40603
In Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:30 pm |
3:30 pm |
|||||
Subject: Exercise Science (EXSC)
CRN: 40787
Blended Online & In-Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:25 pm |
5:25 pm |
|||||
Subject: Exercise Science (EXSC)
CRN: 40788
Blended Online & In-Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 204
This course is a study of human anatomical structure using a body systems approach from the microscopic to gross levels of organization. Of particular emphasis are unifying themes including the complementarity of human anatomy form and function, interrelationships between organ systems and the application of knowledge to homeostatic disruptions observed in human disease and other clinical conditions. This workshop-style course combines the lecture and laboratory components (three laboratory hours per week) to provide students with hands-on experiences learning anatomical concepts, developing critical thinking, understanding scientific methodology and the application of scientific principles. Prerequisite: Sophomore standing
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Exercise Science (EXSC)
CRN: 40150
In Person | Lecture
St Paul: Anderson Ath and Rec Center 205
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Exercise Science (EXSC)
CRN: 40151
In Person | Lecture
St Paul: Susan S. Morrison Hall 140
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40556
In Person | Lecture
St Paul: Anderson Ath and Rec Center 205
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Exercise Science (EXSC)
CRN: 40557
In Person | Lecture
St Paul: Anderson Ath and Rec Center 205
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Exercise Science (EXSC)
CRN: 40652
In Person | Lecture
St Paul: Anderson Ath and Rec Center 204
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Exercise Science (EXSC)
CRN: 40785
In Person | Lecture
St Paul: Susan S. Morrison Hall 140
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
||||||
Subject: Exercise Science (EXSC)
CRN: 40152
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
||||||
Subject: Exercise Science (EXSC)
CRN: 40446
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40551
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40552
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40561
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:40 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40562
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Exercise Science (EXSC)
CRN: 40563
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Exercise Science (EXSC)
CRN: 40564
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:40 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40604
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:40 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40606
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40789
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:40 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40790
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This is a course designed to provide students with an understanding of the regulation and function of the human body and physiological integration for the maintenance of homeostasis. Areas of study include muscular, neural, cardiovascular, respiratory, renal, endocrine and reproductive systems. This course is a three-hour lecture course with a two-hour lab section. Two laboratory hours per week. (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Exercise Science (EXSC)
CRN: 40147
Online: Asynchronous | Online: Asynchronous
Online
This course is intended to introduce students to technical terminology used in the health profession. Emphasis will be placed on nomenclature, medical vocabulary, pronunciation, spelling, and accurate definition. The Greek and Latin root words that form the basis of the technical terminology used in the health profession will be studied, thus providing students with an understanding of the fundamental building blocks of this terminology. (Formerly PHED 240)
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Exercise Science (EXSC)
CRN: 43126
Online: Asynchronous | Online: Asynchronous
Online
This course is intended to introduce students to technical terminology used in the health profession. Emphasis will be placed on nomenclature, medical vocabulary, pronunciation, spelling, and accurate definition. The Greek and Latin root words that form the basis of the technical terminology used in the health profession will be studied, thus providing students with an understanding of the fundamental building blocks of this terminology. (Formerly PHED 240)
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Exercise Science (EXSC)
CRN: 40153
In Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 205
Structure and function of the human skeletal and muscular systems with respect to movement will be examined. Neuromuscular aspects of movement, forces, torque, balance and stability are studied with applications to sport, physical activity and activities of daily living. Observing and analyzing skill performance are experienced. Laboratory experiences will be done within the scheduled class time. Prerequisite: EXSC 213
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40145
In Person | Lecture
St Paul: McNeely Hall 106
This course is designed to provide an introduction to physiological responses experienced when training for, and participating in, sport and physical activity. Basic exercise physiology topics will be covered including the principles of exercise as well as adaptations to exercise for the purpose of cardiovascular fitness, muscular strength and/or endurance. Training for sport, detraining and ergogenic aids, cardiovascular disease, and obesity will also be studied. Laboratory experiences will be done within the scheduled class time. (Formerly PHED 332) Prerequisite: PHED 208 or EXSC 214 (Formerly PHED 214)
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40411
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This course is designed to provide an introduction to physiological responses experienced when training for, and participating in, sport and physical activity. Basic exercise physiology topics will be covered including the principles of exercise as well as adaptations to exercise for the purpose of cardiovascular fitness, muscular strength and/or endurance. Training for sport, detraining and ergogenic aids, cardiovascular disease, and obesity will also be studied. Laboratory experiences will be done within the scheduled class time. (Formerly PHED 332) Prerequisite: PHED 208 or EXSC 214 (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40412
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This course is designed to provide an introduction to physiological responses experienced when training for, and participating in, sport and physical activity. Basic exercise physiology topics will be covered including the principles of exercise as well as adaptations to exercise for the purpose of cardiovascular fitness, muscular strength and/or endurance. Training for sport, detraining and ergogenic aids, cardiovascular disease, and obesity will also be studied. Laboratory experiences will be done within the scheduled class time. (Formerly PHED 332) Prerequisite: PHED 208 or EXSC 214 (Formerly PHED 214)
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Exercise Science (EXSC)
CRN: 40056
In Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 205
Requirements Met:
Writing in the Discipline
Exercise Testing and Prescription follows the current recommended guidelines set forth by the American College of Sports Medicine (ACSM) and introduces undergraduate students to the scientifically-based standards related to human physiology assessment, health screening, health-related physical fitness testing and interpretation, prescription/program design, and exercise program adherence commonly used in healthcare and clinical settings, progressive health club, and elite athletics environments. Prerequisite: EXSC 332
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Exercise Science (EXSC)
CRN: 40154
In Person | Lecture
St Paul: Anderson Ath and Rec Center 205
This course is designed to build on the basic understanding of the skeletal and muscular systems as they relate to human movement and examine the mechanics of movement in exercise and sport. Techniques for observing movement, data collection and analyzing sport performance and movement will be emphasized. Research techniques will be introduced and students will participate in designing and conducting a Biomechanics research project. Two hour laboratory per week. Prerequisite: Minimum grade of C- in EXSC 326
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40156
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This course is designed to build on the basic understanding of the skeletal and muscular systems as they relate to human movement and examine the mechanics of movement in exercise and sport. Techniques for observing movement, data collection and analyzing sport performance and movement will be emphasized. Research techniques will be introduced and students will participate in designing and conducting a Biomechanics research project. Two hour laboratory per week. Prerequisite: Minimum grade of C- in EXSC 326
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40155
In Person | Lab
St Paul: Anderson Ath and Rec Center 202
This course is designed to build on the basic understanding of the skeletal and muscular systems as they relate to human movement and examine the mechanics of movement in exercise and sport. Techniques for observing movement, data collection and analyzing sport performance and movement will be emphasized. Research techniques will be introduced and students will participate in designing and conducting a Biomechanics research project. Two hour laboratory per week. Prerequisite: Minimum grade of C- in EXSC 326
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Exercise Science (EXSC)
CRN: 40781
In Person | Lecture
St Paul: McNeely Hall 106
Application of the principles of anatomy and physiology to the study of metabolic, respiratory, cardiovascular, musculoskeletal, and nervous system changes during exercise and physical activity. The student will gain an understanding of the acute and chronic adaptations of these systems and how to impose these adaptations. In addition, students will gain hands-on experience in the testing and measurement of individuals in an exercise physiology laboratory. This course is a three-hour lecture course with a two-hour lab section. (Formerly PHED 432) Prerequisite: PHED 208 or EXSC 214 (formerly PHED 214); EXSC 332 (formerly PHED 332) or PHED 304
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Exercise Science (EXSC)
CRN: 40654
In Person | Lecture/Lab
St Paul: Anderson Ath and Rec Center 205
Requirements Met:
[Core] Signature Work
Writing in the Discipline
This course is designed to teach research methodology specific to the field of Exercise Science. Students are required to engage in hands-on research focused on an area of interest in the field of Exercise Science. Students will learn research skills, through locating primary literature sources, formulating a research question, conducting an original research study, and presenting it in several formats. Prerequisite: EXSC 211, 326, 332
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
Subject: Exercise Science (EXSC)
CRN: 40229
Directed Study
St Paul: In Person
This course meets the internship requirement for majors in the Exercise Science and Health Promotion programs. The required 100 observational hours fulfills a requirement for application to graduate clinical programs (e.g. physical therapy, chiropractic school, physician assistant school). S-R grading option only. Prerequisite: EXSC 326 and EXSC 332 must be successfully completed prior to (not at the same time as) enrolling in EXSC 450.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Finance (FINC)
CRN: 42851
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Writing in the Discipline
This course introduces students to the subjects of insurance--theory and practice--and corporate risk management. In addressing these subjects, students will receive exposure to risk theory, insurance pricing, contract analysis, insurance company operations, reinsurance, regulation and the concepts and principles of business risk management. Offered fall semester. Prerequisite: Sophomore standing. [This course is NOT eligible to apply as finance major elective credits but can apply as business elective credits for all Opus majors.]
4 Credits
| 10/23 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
| + asynchronous coursework | ||||||
Subject: Finance (FINC)
CRN: 42626
In Person | Online: Asynchronous Blended
St Paul: O'Shaughnessy Science Hall 227
This course serves as, partly, a Capstone course for one of the tracks in the Risk Management & Insurance Certificate, but also presents some flexibility for focusing on timely and relevant topics in the field. As such, there is an expectation that some topics will change over time to reflect current issues of importance. Nevertheless, the general thematic structure of this course is to examine risk management and insurance ‘in action.’ On the risk management side of the course this will mean examining risk management program operations and will entail some case study activity. Such topics could include problems in managing work-related injury; managing risks in global firms; and alternative risk financing. On the insurance side of the course, the intention is to consider insurance industry challenges and problems. Such topics could include the effects of climate change on the insurance contract; insuring driverless vehicles; and an examination of the reinsurance sector. 2 credits. Prerequisites: ACSC 220, FINC 301, FINC 302, and FINC 303 [This course is NOT eligible to apply as finance major elective credits but can apply as business elective credits for all Opus majors.]
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Geology (GEOL)
CRN: 41608
In Person | Lecture
St Paul: Owens Science Hall 150
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. Students registering for GEOL 111-01 must also register for ONE lab section GEOL 111-51, -52, -53 OR-54. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Geology (GEOL)
CRN: 41609
Online: Asynchronous | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. Students registering for GEOL 111-02 must also register for ONE lab section GEOL 111-61 OR-62. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Geology (GEOL)
CRN: 41610
Online: Asynchronous | Lecture
Online
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. Students registering for GEOL 111-03 must also register for ONE lab section GEOL 111-63 OR-64. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:30 pm |
||||||
Subject: Geology (GEOL)
CRN: 41611
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:00 am |
||||||
Subject: Geology (GEOL)
CRN: 41612
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Geology (GEOL)
CRN: 41613
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
4:00 pm |
||||||
Subject: Geology (GEOL)
CRN: 41614
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:00 pm |
||||||
Subject: Geology (GEOL)
CRN: 41615
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:00 am |
||||||
Subject: Geology (GEOL)
CRN: 41616
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Geology (GEOL)
CRN: 41617
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
4:00 pm |
||||||
Subject: Geology (GEOL)
CRN: 41618
In Person | Lab
St Paul: O'Shaughnessy Science Hall 124
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
A study of the Earth's properties; the formation and classification of minerals, rocks, ore deposits, and fuels; and the nature and origin of the Earth's surface and interior. Emphasis will be placed upon a changing Earth, and the geologic processes operating at the surface and in the interior. Lecture and two laboratory hours per week. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Geology (GEOL)
CRN: 41619
In Person | Lecture
St Paul: Owens Science Hall 275
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
This course emphasizes the interactions between humans and their environment, focusing on those processes and issues that are fundamentally geological in nature. Early in the course, students will be introduced to basic geoscience concepts and principals, the scientific method, plate tectonics, and earth materials (rocks and minerals). The remainder of the course will focus on specific topics at the interface between humans and their environment, including volcanic and earthquake hazards, human impacts on the hydrological cycle, surface and groundwater contamination, climate and the carbon cycle, nuclear waste storage, soil erosion, non-renewable resources, and slope stability. NOTE: Students who receive credit for GEOL 115 may not receive credit for GEOL 102, 110, 111, or 114.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:00 am |
||||||
Subject: Geology (GEOL)
CRN: 41620
In Person | Lab
St Paul: O'Shaughnessy Science Hall 123
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
This course emphasizes the interactions between humans and their environment, focusing on those processes and issues that are fundamentally geological in nature. Early in the course, students will be introduced to basic geoscience concepts and principals, the scientific method, plate tectonics, and earth materials (rocks and minerals). The remainder of the course will focus on specific topics at the interface between humans and their environment, including volcanic and earthquake hazards, human impacts on the hydrological cycle, surface and groundwater contamination, climate and the carbon cycle, nuclear waste storage, soil erosion, non-renewable resources, and slope stability. NOTE: Students who receive credit for GEOL 115 may not receive credit for GEOL 102, 110, 111, or 114.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:30 pm |
||||||
Subject: Geology (GEOL)
CRN: 41621
In Person | Lab
St Paul: O'Shaughnessy Science Hall 123
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
Sustainability (SUST)
This course emphasizes the interactions between humans and their environment, focusing on those processes and issues that are fundamentally geological in nature. Early in the course, students will be introduced to basic geoscience concepts and principals, the scientific method, plate tectonics, and earth materials (rocks and minerals). The remainder of the course will focus on specific topics at the interface between humans and their environment, including volcanic and earthquake hazards, human impacts on the hydrological cycle, surface and groundwater contamination, climate and the carbon cycle, nuclear waste storage, soil erosion, non-renewable resources, and slope stability. NOTE: Students who receive credit for GEOL 115 may not receive credit for GEOL 102, 110, 111, or 114.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Geology (GEOL)
CRN: 41622
In Person | Lecture
St Paul: Owens Science Hall 250
Core Requirements Met:
[Core] Natural Science
This course examines geologic systems that occur at or near the Earth’s surface with a focus on processes that interact directly with human infrastructure. Effective and safe civil engineering requires an understanding of the materials upon which infrastructure is built and this course aims to provide an introduction to materials at the Earth’s surface and their response to construction and human alteration. Topics to be covered include an introduction to geologic materials (rocks, minerals, and soils), basic principles of hydrology including groundwater flow, river flow (open-channel flow), and water quality and treatment, slope stability and erosion, and surveying. The course includes weekly lab meetings to allow students to explore the topics in greater depth and apply their knowledge to real-world problems. This course is required for ENGR Civil Engineering majors, can serve as an introductory geology course for Geology and Environmental Science majors, and will satisfy the lab-science requirement for non-majors.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:00 am |
||||||
Subject: Geology (GEOL)
CRN: 41623
In Person | Lab
St Paul: Schoenecker Center LL03
Core Requirements Met:
[Core] Natural Science
This course examines geologic systems that occur at or near the Earth’s surface with a focus on processes that interact directly with human infrastructure. Effective and safe civil engineering requires an understanding of the materials upon which infrastructure is built and this course aims to provide an introduction to materials at the Earth’s surface and their response to construction and human alteration. Topics to be covered include an introduction to geologic materials (rocks, minerals, and soils), basic principles of hydrology including groundwater flow, river flow (open-channel flow), and water quality and treatment, slope stability and erosion, and surveying. The course includes weekly lab meetings to allow students to explore the topics in greater depth and apply their knowledge to real-world problems. This course is required for ENGR Civil Engineering majors, can serve as an introductory geology course for Geology and Environmental Science majors, and will satisfy the lab-science requirement for non-majors.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:00 pm |
||||||
Subject: Geology (GEOL)
CRN: 41624
In Person | Lab
St Paul: Schoenecker Center LL03
Core Requirements Met:
[Core] Natural Science
This course examines geologic systems that occur at or near the Earth’s surface with a focus on processes that interact directly with human infrastructure. Effective and safe civil engineering requires an understanding of the materials upon which infrastructure is built and this course aims to provide an introduction to materials at the Earth’s surface and their response to construction and human alteration. Topics to be covered include an introduction to geologic materials (rocks, minerals, and soils), basic principles of hydrology including groundwater flow, river flow (open-channel flow), and water quality and treatment, slope stability and erosion, and surveying. The course includes weekly lab meetings to allow students to explore the topics in greater depth and apply their knowledge to real-world problems. This course is required for ENGR Civil Engineering majors, can serve as an introductory geology course for Geology and Environmental Science majors, and will satisfy the lab-science requirement for non-majors.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:30 pm |
||||||
Subject: Geology (GEOL)
CRN: 43182
In Person | Lab
St Paul: Schoenecker Center LL03
Core Requirements Met:
[Core] Natural Science
This course examines geologic systems that occur at or near the Earth’s surface with a focus on processes that interact directly with human infrastructure. Effective and safe civil engineering requires an understanding of the materials upon which infrastructure is built and this course aims to provide an introduction to materials at the Earth’s surface and their response to construction and human alteration. Topics to be covered include an introduction to geologic materials (rocks, minerals, and soils), basic principles of hydrology including groundwater flow, river flow (open-channel flow), and water quality and treatment, slope stability and erosion, and surveying. The course includes weekly lab meetings to allow students to explore the topics in greater depth and apply their knowledge to real-world problems. This course is required for ENGR Civil Engineering majors, can serve as an introductory geology course for Geology and Environmental Science majors, and will satisfy the lab-science requirement for non-majors.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Geology (GEOL)
CRN: 42854
Online: Asynchronous | Lecture
Online
Many natural science and civil engineering graduates have careers related to environmental policy or risk mitigation due to the complex Federal, State and Local rules and regulations that determine how humans interact with the natural world by ensuring short- and long-term protection of human health and the environment. This course will introduce students to the main policy framework(s) by developing a key knowledge base of the rules and regulations that drive environmental compliance. Students will develop a high level understanding of the numerous environmental risks and how these risks are mitigated through due diligence actions, and will introduce students to the different professional certifications and skills needed in these fields. Prerequisites: One of: GEOL 111, 115, 130, 162, or 163, -or- ESCI 132 or 310, -or- EES Chair approval.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Geology (GEOL)
CRN: 41625
In Person | Lecture
St Paul: Schoenecker Center LL03
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
School of Ed Transfer Course
This course emphasizes the physical processes that are responsible for shaping the Earth's surface. The qualitative description of landforms is pursued, in light of student's newly-gained analytical and quantitative understanding of processes. The labs focus on techniques used by geomorphologists to characterize landforms, soils, and the processes that shape them, including: air photo interpretation, analysis of digital topographic data, experimental simulation of landforms evolution, and field techniques in geomorphology. Prerequisite: one of GEOL 102, 110, 111, 113, 114, 115, 161, 162, or 163 or permission of instructor
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:30 pm |
||||||
Subject: Geology (GEOL)
CRN: 41626
In Person | Lab
St Paul: O'Shaughnessy Science Hall 120
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
Environmental Sci. Major Appr
School of Ed Transfer Course
This course emphasizes the physical processes that are responsible for shaping the Earth's surface. The qualitative description of landforms is pursued, in light of student's newly-gained analytical and quantitative understanding of processes. The labs focus on techniques used by geomorphologists to characterize landforms, soils, and the processes that shape them, including: air photo interpretation, analysis of digital topographic data, experimental simulation of landforms evolution, and field techniques in geomorphology. Prerequisite: one of GEOL 102, 110, 111, 113, 114, 115, 161, 162, or 163 or permission of instructor
0 Credits
| 09/03 - 10/22 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Geology (GEOL)
CRN: 41627
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 123
Requirements Met:
School of Ed Transfer Course
The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule
2 Credits
| 09/03 - 10/22 | ||||||
| M | T | W | Th | F | Sa | Su |
9:00 am |
||||||
Subject: Geology (GEOL)
CRN: 41628
In Person | Lab
St Paul: O'Shaughnessy Science Hall 123
Requirements Met:
School of Ed Transfer Course
The subject matter of these courses will vary from year to year, but will not duplicate existing courses. Descriptions of these courses are available in the Searchable Class Schedule on Murphy Online, View Searchable Class Schedule
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Geology (GEOL)
CRN: 41629
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 123
Requirements Met:
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
||||||
Subject: Geology (GEOL)
CRN: 41630
In Person | Lab
St Paul: O'Shaughnessy Science Hall 123
Requirements Met:
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Health (HLTH)
CRN: 40119
Online: Asynchronous | Online: Asynchronous
Online
Requirements Met:
FYE CommGood/Learning Comm
This course will entail an examination of the components of a healthful lifestyle. The interrelationship of physical, intellectual, spiritual and emotional health will be the focal point. Specific areas such as mental health, stress and coping, human sexuality, resiliency enhancement, disease prevention, aging, grief and loss will be addressed.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Health (HLTH)
CRN: 40835
Online: Asynchronous | Online: Asynchronous
Online
Requirements Met:
FYE CommGood/Learning Comm
This course will entail an examination of the components of a healthful lifestyle. The interrelationship of physical, intellectual, spiritual and emotional health will be the focal point. Specific areas such as mental health, stress and coping, human sexuality, resiliency enhancement, disease prevention, aging, grief and loss will be addressed.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 41766
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Core Requirements Met:
[Core] Quant Analysis
This survey of basic mathematical concepts includes both modern and historical perspectives. Emphasis is on the development and appreciation of mathematical ideas and their relationship to other disciplines. Topics include, among others: mathematical problem-solving, set theory, graph theory, an introduction to randomness, counting and probability, statistics and data exploration, measurement and symmetry, and recursion.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 41767
In Person | Lecture
St Paul: Owens Science Hall LL54
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41768
In Person | Lecture
St Paul: Owens Science Hall LL54
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41769
In Person | Lecture
St Paul: McNeely Hall 233
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 41770
In Person | Lecture
St Paul: McNeely Hall 233
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Mathematics (MATH)
CRN: 41771
In Person | Lecture
St Paul: Owens Science Hall LL54
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41772
In Person | Lecture
St Paul: Brady Educational Center LL03
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41773
In Person | Lecture
St Paul: Brady Educational Center 105
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41774
In Person | Lecture
St Paul: Brady Educational Center LL07
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41775
In Person | Lecture
St Paul: Owens Science Hall 275
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41776
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41777
In Person | Lecture
St Paul: Owens Science Hall 275
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
3:25 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41778
In Person | Lecture
St Paul: Owens Science Hall 251
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
5:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41779
In Person | Lecture
St Paul: Brady Educational Center LL19
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41780
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 42862
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
This course is designed to help students refresh and strengthen mathematical concepts and problem-solving skills for use within the context of calculus. Within a comprehensive conceptual framework, this course refreshes students on fundamental arithmetic and algebraic skills, and introduces several precalculus concepts, such as function notation, domain and range, average rate of change, and the relationship between rate of change and slope. Gaining knowledge of these concepts will lead to increased preparedness for Calculus with Review. Emphasis will also be placed on developing growth mindsets and study skills necessary to succeed in mathematics. Successful completion of MATH 107 with a C- or above allows students to take MATH 108. Offered fall and spring semesters.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 42863
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
This course is designed to help students refresh and strengthen mathematical concepts and problem-solving skills for use within the context of calculus. Within a comprehensive conceptual framework, this course refreshes students on fundamental arithmetic and algebraic skills, and introduces several precalculus concepts, such as function notation, domain and range, average rate of change, and the relationship between rate of change and slope. Gaining knowledge of these concepts will lead to increased preparedness for Calculus with Review. Emphasis will also be placed on developing growth mindsets and study skills necessary to succeed in mathematics. Successful completion of MATH 107 with a C- or above allows students to take MATH 108. Offered fall and spring semesters.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 42864
In Person | Lecture
St Paul: Brady Educational Center 111
This course is designed to help students refresh and strengthen mathematical concepts and problem-solving skills for use within the context of calculus. Within a comprehensive conceptual framework, this course refreshes students on fundamental arithmetic and algebraic skills, and introduces several precalculus concepts, such as function notation, domain and range, average rate of change, and the relationship between rate of change and slope. Gaining knowledge of these concepts will lead to increased preparedness for Calculus with Review. Emphasis will also be placed on developing growth mindsets and study skills necessary to succeed in mathematics. Successful completion of MATH 107 with a C- or above allows students to take MATH 108. Offered fall and spring semesters.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 43171
In Person | Lecture
St Paul: Owens Science Hall 275
This course is designed to help students refresh and strengthen mathematical concepts and problem-solving skills for use within the context of calculus. Within a comprehensive conceptual framework, this course refreshes students on fundamental arithmetic and algebraic skills, and introduces several precalculus concepts, such as function notation, domain and range, average rate of change, and the relationship between rate of change and slope. Gaining knowledge of these concepts will lead to increased preparedness for Calculus with Review. Emphasis will also be placed on developing growth mindsets and study skills necessary to succeed in mathematics. Successful completion of MATH 107 with a C- or above allows students to take MATH 108. Offered fall and spring semesters.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 43172
In Person | Lecture
St Paul: Brady Educational Center 111
This course is designed to help students refresh and strengthen mathematical concepts and problem-solving skills for use within the context of calculus. Within a comprehensive conceptual framework, this course refreshes students on fundamental arithmetic and algebraic skills, and introduces several precalculus concepts, such as function notation, domain and range, average rate of change, and the relationship between rate of change and slope. Gaining knowledge of these concepts will lead to increased preparedness for Calculus with Review. Emphasis will also be placed on developing growth mindsets and study skills necessary to succeed in mathematics. Successful completion of MATH 107 with a C- or above allows students to take MATH 108. Offered fall and spring semesters.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 43173
In Person | Lecture
St Paul: McNeely Hall 231
This course is designed to help students refresh and strengthen mathematical concepts and problem-solving skills for use within the context of calculus. Within a comprehensive conceptual framework, this course refreshes students on fundamental arithmetic and algebraic skills, and introduces several precalculus concepts, such as function notation, domain and range, average rate of change, and the relationship between rate of change and slope. Gaining knowledge of these concepts will lead to increased preparedness for Calculus with Review. Emphasis will also be placed on developing growth mindsets and study skills necessary to succeed in mathematics. Successful completion of MATH 107 with a C- or above allows students to take MATH 108. Offered fall and spring semesters.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 41781
In Person | Lecture
St Paul: Owens Science Hall 257
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41782
In Person | Lecture
St Paul: Brady Educational Center 110
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41783
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 41784
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Mathematics (MATH)
CRN: 41785
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41786
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41787
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41788
In Person | Lecture
St Paul: Brady Educational Center LL03
Requirements Met:
Environmental Sci. Major Appr
The first course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: number systems, basic algebra, functions, the Cartesian coordinate system and graphing. Calculus topics include limits, continuity, derivatives for algebraic functions, applications of derivatives and more graphing. This course is intended only for students planning to take MATH 109 and does not satisfy the mathematics requirement in the core curriculum. Offered Fall, Spring and Summer. Prerequisite: Placement at MATH 108 or above, or successful completion of MATH 006. NOTE: Students who receive credit for MATH 108 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 41790
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
The second course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: exponential and logarithmic functions, trigonometric functions and their inverses and associated graphs. Calculus topics include: derivatives of the transcendental functions, applications of those derivatives and an introduction to integration. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or better in MATH 108 NOTE: Students who receive credit for MATH 109 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41791
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
The second course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: exponential and logarithmic functions, trigonometric functions and their inverses and associated graphs. Calculus topics include: derivatives of the transcendental functions, applications of those derivatives and an introduction to integration. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or better in MATH 108 NOTE: Students who receive credit for MATH 109 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41792
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
The second course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: exponential and logarithmic functions, trigonometric functions and their inverses and associated graphs. Calculus topics include: derivatives of the transcendental functions, applications of those derivatives and an introduction to integration. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or better in MATH 108 NOTE: Students who receive credit for MATH 109 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41793
In Person | Lecture
St Paul: Brady Educational Center LL07
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
The second course of a two-course sequence designed to integrate introductory calculus material with the algebraic and trigonometric topics necessary to support that study. Review topics include: exponential and logarithmic functions, trigonometric functions and their inverses and associated graphs. Calculus topics include: derivatives of the transcendental functions, applications of those derivatives and an introduction to integration. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or better in MATH 108 NOTE: Students who receive credit for MATH 109 may not receive credit for MATH 105, 111, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41794
In Person | Lecture
St Paul: McNeely Hall 238
Core Requirements Met:
[Core] Quant Analysis
An introductory course in calculus with motivation and examples drawn from business and the social sciences whenever possible. Does not include the calculus of trigonometric functions. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 103 or MATH 105 or placement at MATH 111 or above. Four years of high school mathematics, including college algebra, are also recommended as background for this course. Students who are considering taking MATH 114 should take MATH 113 instead of MATH 111. NOTE: Students who receive credit for MATH 111 may not receive credit for MATH 108, 109, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 41795
In Person | Lecture
St Paul: Brady Educational Center LL07
Core Requirements Met:
[Core] Quant Analysis
An introductory course in calculus with motivation and examples drawn from business and the social sciences whenever possible. Does not include the calculus of trigonometric functions. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 103 or MATH 105 or placement at MATH 111 or above. Four years of high school mathematics, including college algebra, are also recommended as background for this course. Students who are considering taking MATH 114 should take MATH 113 instead of MATH 111. NOTE: Students who receive credit for MATH 111 may not receive credit for MATH 108, 109, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41796
In Person | Lecture
St Paul: Owens Science Hall 275
Core Requirements Met:
[Core] Quant Analysis
An introductory course in calculus with motivation and examples drawn from business and the social sciences whenever possible. Does not include the calculus of trigonometric functions. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 103 or MATH 105 or placement at MATH 111 or above. Four years of high school mathematics, including college algebra, are also recommended as background for this course. Students who are considering taking MATH 114 should take MATH 113 instead of MATH 111. NOTE: Students who receive credit for MATH 111 may not receive credit for MATH 108, 109, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41797
In Person | Lecture
St Paul: Brady Educational Center LL19
Core Requirements Met:
[Core] Quant Analysis
An introductory course in calculus with motivation and examples drawn from business and the social sciences whenever possible. Does not include the calculus of trigonometric functions. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 103 or MATH 105 or placement at MATH 111 or above. Four years of high school mathematics, including college algebra, are also recommended as background for this course. Students who are considering taking MATH 114 should take MATH 113 instead of MATH 111. NOTE: Students who receive credit for MATH 111 may not receive credit for MATH 108, 109, or 113.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 41798
In Person | Lecture
St Paul: Brady Educational Center LL03
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
An introductory course in calculus: limits; derivatives and integrals of algebraic, exponential, logarithmic and trigonometric functions of one real variable; applications of the derivative in engineering and the natural sciences. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or above in MATH 104 or 105 or placement at MATH 113 or above. Four years of high school mathematics, including college algebra and trigonometry, also are recommended as background for this course. NOTE: Students who receive credit for MATH 113 may not receive credit for MATH 108, 109, or 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41799
In Person | Lecture
St Paul: McNeely Hall 233
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
An introductory course in calculus: limits; derivatives and integrals of algebraic, exponential, logarithmic and trigonometric functions of one real variable; applications of the derivative in engineering and the natural sciences. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or above in MATH 104 or 105 or placement at MATH 113 or above. Four years of high school mathematics, including college algebra and trigonometry, also are recommended as background for this course. NOTE: Students who receive credit for MATH 113 may not receive credit for MATH 108, 109, or 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41800
In Person | Lecture
St Paul: Brady Educational Center LL03
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
An introductory course in calculus: limits; derivatives and integrals of algebraic, exponential, logarithmic and trigonometric functions of one real variable; applications of the derivative in engineering and the natural sciences. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or above in MATH 104 or 105 or placement at MATH 113 or above. Four years of high school mathematics, including college algebra and trigonometry, also are recommended as background for this course. NOTE: Students who receive credit for MATH 113 may not receive credit for MATH 108, 109, or 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 41801
In Person | Lecture
St Paul: McNeely Hall 234
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
An introductory course in calculus: limits; derivatives and integrals of algebraic, exponential, logarithmic and trigonometric functions of one real variable; applications of the derivative in engineering and the natural sciences. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or above in MATH 104 or 105 or placement at MATH 113 or above. Four years of high school mathematics, including college algebra and trigonometry, also are recommended as background for this course. NOTE: Students who receive credit for MATH 113 may not receive credit for MATH 108, 109, or 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41802
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
An introductory course in calculus: limits; derivatives and integrals of algebraic, exponential, logarithmic and trigonometric functions of one real variable; applications of the derivative in engineering and the natural sciences. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or above in MATH 104 or 105 or placement at MATH 113 or above. Four years of high school mathematics, including college algebra and trigonometry, also are recommended as background for this course. NOTE: Students who receive credit for MATH 113 may not receive credit for MATH 108, 109, or 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41803
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Core Requirements Met:
[Core] Quant Analysis
Other Requirements Met:
Environmental Sci. Major Appr
An introductory course in calculus: limits; derivatives and integrals of algebraic, exponential, logarithmic and trigonometric functions of one real variable; applications of the derivative in engineering and the natural sciences. Offered Fall, Spring and Summer. Prerequisite: a grade of C- or above in MATH 104 or 105 or placement at MATH 113 or above. Four years of high school mathematics, including college algebra and trigonometry, also are recommended as background for this course. NOTE: Students who receive credit for MATH 113 may not receive credit for MATH 108, 109, or 111.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41804
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41805
In Person | Lecture
St Paul: McNeely Hall 235
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 41806
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41807
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41808
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 226
Core Requirements Met:
[Core] Quant Analysis
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41809
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 127
Core Requirements Met:
[Core] Quant Analysis
An examination of the mathematical underpinnings of the K-8 school curriculum with an emphasis on the conceptual understanding of mathematics. Concepts of shape and space will be covered, which will include geometry, measurement, area, volume, surface area, symmetry, the geometry of motion and change, and problem solving. This course is recommended as the second in a three-course sequence in mathematics for prospective elementary teachers. Offered Fall and Spring. Prerequisite: A C‐ or above in MATH 121 or permission of instructor
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41810
In Person | Lecture
St Paul: Owens Science Hall 257
Core Requirements Met:
[Core] Quant Analysis
A survey of basic discrete mathematical concepts. Topics include: Boolean algebra, logic, analysis of algorithms, mathematical induction and matrices. Focus on applications to computer science. Offered Fall and Spring.Prerequisite: A C‐ or better in either Math 109, Math 111, or Math 113 and a C‐ or better in either CISC 130 or CISC 131, or instructor permission
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41811
In Person | Lecture
St Paul: Owens Science Hall 257
Core Requirements Met:
[Core] Quant Analysis
A survey of basic discrete mathematical concepts. Topics include: Boolean algebra, logic, analysis of algorithms, mathematical induction and matrices. Focus on applications to computer science. Offered Fall and Spring.Prerequisite: A C‐ or better in either Math 109, Math 111, or Math 113 and a C‐ or better in either CISC 130 or CISC 131, or instructor permission
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Mathematics (MATH)
CRN: 41812
In Person | Lecture
St Paul: Brady Educational Center LL07
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41813
In Person | Lecture
St Paul: Brady Educational Center LL07
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41814
In Person | Lecture
St Paul: Brady Educational Center LL03
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41815
In Person | Lecture
St Paul: Owens Science Hall 250
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Mathematics (MATH)
CRN: 41816
In Person | Lecture
St Paul: Brady Educational Center LL07
An introduction to ordinary differential equations (ODEs), with an emphasis on linear differential equations and linear systems, including applications. Topics covered include first-order equations, ODE models in the physical and biological sciences and engineering, numerical methods of solution, higher order linear equations, matrix tools, the role of eigenvalues and eigenvectors, and LaPlace transforms. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 114
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41817
In Person | Lecture
St Paul: John Roach Center 247
An introduction to ordinary differential equations (ODEs), with an emphasis on linear differential equations and linear systems, including applications. Topics covered include first-order equations, ODE models in the physical and biological sciences and engineering, numerical methods of solution, higher order linear equations, matrix tools, the role of eigenvalues and eigenvectors, and LaPlace transforms. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 114
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41818
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
An introduction to ordinary differential equations (ODEs), with an emphasis on linear differential equations and linear systems, including applications. Topics covered include first-order equations, ODE models in the physical and biological sciences and engineering, numerical methods of solution, higher order linear equations, matrix tools, the role of eigenvalues and eigenvectors, and LaPlace transforms. Offered Fall and Spring. Prerequisite: a grade of C- or above in MATH 114
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Mathematics (MATH)
CRN: 41819
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 227
Introduction to foundational topics, methods, and algorithms in applied mathematics, with emphasis on computation. This course serves as a transition from mathematics as seen in the calculus sequence to applications of mathematics as seen in industry, applied mathematics, physics, computer science, engineering, and other disciplines. Topics include Taylor series, optimization, solving systems of equations, differential equations, and combinatorics. Prerequisite: A C- or higher in Math 114 or permission of the instructor. This course can be substituted for Math 210 in the mathematics major after discussion with the department.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Mathematics (MATH)
CRN: 41820
In Person | Lecture
St Paul: Brady Educational Center LL03
An introductory course in linear algebra, beginning with linear equations and matrix algebra. Subsequent topics include study of vector spaces, orthogonality, eigenvectors and inner products. The course combines theoretical and applied perspectives, including concepts of rigorous proof. Offered Fall and Spring. Prerequisite: A grade of C- or above in MATH 200, concurrent enrollment allowed.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Mathematics (MATH)
CRN: 41821
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 214
An introductory course in linear algebra, beginning with linear equations and matrix algebra. Subsequent topics include study of vector spaces, orthogonality, eigenvectors and inner products. The course combines theoretical and applied perspectives, including concepts of rigorous proof. Offered Fall and Spring. Prerequisite: A grade of C- or above in MATH 200, concurrent enrollment allowed.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:55 am |
9:55 am |
|||||
Subject: Mathematics (MATH)
CRN: 41822
In Person | Lecture
St Paul: Brady Educational Center LL03
Requirements Met:
School of Ed Transfer Course
Writing in the Discipline
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Mathematics (MATH)
CRN: 41823
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Requirements Met:
School of Ed Transfer Course
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
||||||
Subject: Physical Education (PHED)
CRN: 40118
In Person | Topics Lecture 4
St Paul: Anderson Ath and Rec Center 112
A physical activity course that will cover planned, structured and repetitive instruction to improve or maintain one or more components of physical fitness. These activity courses are also designed to improve proficiency in a selected physical activity. Students will learn basic skills, strategy and rules of the activity. Students will also learn how physical fitness can contribute to personal lifelong health and wellness through assessment, monitoring and discipline. There will be a written test(s) along with proficiency test(s) depending on the type of physical activity. Credits may be earned twice (for a maximum of 4 credits) under this number for different activities. For further descriptions, please see the Online Printable Schedule.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Physical Education (PHED)
CRN: 40051
Online: Asynchronous | Topics Lecture 4
Online
A physical activity course that will cover planned, structured and repetitive instruction to improve or maintain one or more components of physical fitness. These activity courses are also designed to improve proficiency in a selected physical activity. Students will learn basic skills, strategy and rules of the activity. Students will also learn how physical fitness can contribute to personal lifelong health and wellness through assessment, monitoring and discipline. There will be a written test(s) along with proficiency test(s) depending on the type of physical activity. Credits may be earned twice (for a maximum of 4 credits) under this number for different activities. For further descriptions, please see the Online Printable Schedule.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Physics (PHYS)
CRN: 42099
In Person | Lecture/Lab
St Paul: Schoenecker Center 403
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Writing to learn
Intended for non-science majors; treats fundamental principles of physics and their application to familiar phenomena, stressing qualitative understanding. The course will survey topics from mechanics, fluids, temperature and heat, oscillations, waves and sound, light and optics, and properties of matter. The course consists of lecture, discussion and laboratory. This course is designed especially for elementary education majors. It is not intended for students who have had high school physics. Prerequisite: Three years of high school mathematics NOTE: Students who receive credit for PHYS 101 may not receive credit for PHYS 109 or 211.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
|||||
Subject: Physics (PHYS)
CRN: 42100
In Person | Lecture
St Paul: O'Shaughnessy Science Hall LL18
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
School of Ed Transfer Course
Sustainability (SUST)
Introduction to physical principles and their application to astronomy for non-science majors. Emphasis is on comprehension of ideas and principles. Topics include the motions of the sun, moon, stars and planets; properties of the solar system; the stars including giants, dwarfs, pulsars and black holes; nebulae, galaxies and quasars; cosmology and life. The course consists of lecture, discussion and laboratory. Prerequisite: MATH placement at or above 099, concurrent enrollment in either MATH 100 or MATH 101, or a grade of C- or better in MATH 007 or above.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Physics (PHYS)
CRN: 42101
In Person | Lab
St Paul: Schoenecker Center 403
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
Introduction to physical principles and their application to astronomy for non-science majors. Emphasis is on comprehension of ideas and principles. Topics include the motions of the sun, moon, stars and planets; properties of the solar system; the stars including giants, dwarfs, pulsars and black holes; nebulae, galaxies and quasars; cosmology and life. The course consists of lecture, discussion and laboratory. Prerequisite: MATH placement at or above 099, concurrent enrollment in either MATH 100 or MATH 101, or a grade of C- or better in MATH 007 or above.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
3:25 pm |
||||||
Subject: Physics (PHYS)
CRN: 42102
In Person | Lab
St Paul: Schoenecker Center 403
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
Sustainability (SUST)
Introduction to physical principles and their application to astronomy for non-science majors. Emphasis is on comprehension of ideas and principles. Topics include the motions of the sun, moon, stars and planets; properties of the solar system; the stars including giants, dwarfs, pulsars and black holes; nebulae, galaxies and quasars; cosmology and life. The course consists of lecture, discussion and laboratory. Prerequisite: MATH placement at or above 099, concurrent enrollment in either MATH 100 or MATH 101, or a grade of C- or better in MATH 007 or above.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Physics (PHYS)
CRN: 42103
In Person | Lecture/Lab
St Paul: Schoenecker Center 403
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This algebra-based course and its continuation PHYS 110 serve as a two-semester introduction to classical and modern physics. Applications are chosen that focus on the life sciences. Topics include principles of classical mechanics: description of motion, force, torque and rotational motion, energy, momentum and their conservation, fluid mechanics; thermodynamics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in MATH 108, or Math placement at a level of MATH 111 or above. NOTE: Students who receive credit for PHYS 109 may not receive credit for PHYS 211.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Physics (PHYS)
CRN: 42104
In Person | Lecture/Lab
St Paul: Schoenecker Center 403
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This algebra-based course and its continuation PHYS 110 serve as a two-semester introduction to classical and modern physics. Applications are chosen that focus on the life sciences. Topics include principles of classical mechanics: description of motion, force, torque and rotational motion, energy, momentum and their conservation, fluid mechanics; thermodynamics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in MATH 108, or Math placement at a level of MATH 111 or above. NOTE: Students who receive credit for PHYS 109 may not receive credit for PHYS 211.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Physics (PHYS)
CRN: 42105
In Person | Lecture/Lab
St Paul: Schoenecker Center 403
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This algebra-based course is a continuation of PHYS 109. Topics include oscillations, waves and sound, electricity and magnetism; light and optics; atomic, quantum and nuclear physics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in PHYS 109, 111, or 211. NOTE: Students who receive credit for PHYS 110 may not receive credit for PHYS 212.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Physics (PHYS)
CRN: 42106
In Person | Lecture/Lab
St Paul: Owens Science Hall 168
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
School of Ed Transfer Course
Sustainability (SUST)
This calculus-based course and its continuation PHYS 212 serve as a two-semester introduction to classical physics. Applications are chosen that focus on engineering and the physical sciences. Topics include principles of classical mechanics: vectors, kinematics, particle and rigid body rotational dynamics and statics; conservation laws; and thermodynamics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in MATH 109 or MATH 113. NOTE: Students who receive credit for PHYS 211 may not receive credit for PHYS 109.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Physics (PHYS)
CRN: 42107
In Person | Lecture/Lab
St Paul: Owens Science Hall 168
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
School of Ed Transfer Course
Sustainability (SUST)
This calculus-based course and its continuation PHYS 212 serve as a two-semester introduction to classical physics. Applications are chosen that focus on engineering and the physical sciences. Topics include principles of classical mechanics: vectors, kinematics, particle and rigid body rotational dynamics and statics; conservation laws; and thermodynamics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in MATH 109 or MATH 113. NOTE: Students who receive credit for PHYS 211 may not receive credit for PHYS 109.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Physics (PHYS)
CRN: 42108
In Person | Lecture/Lab
St Paul: Owens Science Hall 169
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
School of Ed Transfer Course
Sustainability (SUST)
This calculus-based course and its continuation PHYS 212 serve as a two-semester introduction to classical physics. Applications are chosen that focus on engineering and the physical sciences. Topics include principles of classical mechanics: vectors, kinematics, particle and rigid body rotational dynamics and statics; conservation laws; and thermodynamics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in MATH 109 or MATH 113. NOTE: Students who receive credit for PHYS 211 may not receive credit for PHYS 109.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Physics (PHYS)
CRN: 42109
In Person | Lecture/Lab
St Paul: Owens Science Hall 169
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Environmental Sci. Major Appr
School of Ed Transfer Course
Sustainability (SUST)
This calculus-based course and its continuation PHYS 212 serve as a two-semester introduction to classical physics. Applications are chosen that focus on engineering and the physical sciences. Topics include principles of classical mechanics: vectors, kinematics, particle and rigid body rotational dynamics and statics; conservation laws; and thermodynamics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in MATH 109 or MATH 113. NOTE: Students who receive credit for PHYS 211 may not receive credit for PHYS 109.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Physics (PHYS)
CRN: 42110
In Person | Lecture/Lab
St Paul: Owens Science Hall 166
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This calculus-based course is a continuation of PHYS 211. Topics include waves and sound; electricity and magnetism; geometric and physical optics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisites: A minimum grade of C- in both PHYS 211 and MATH 114 or 200 NOTE: Students who receive credit for PHYS 212 may not receive credit for PHYS 110.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Physics (PHYS)
CRN: 42111
In Person | Lecture/Lab
St Paul: Owens Science Hall 166
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This calculus-based course is a continuation of PHYS 211. Topics include waves and sound; electricity and magnetism; geometric and physical optics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisites: A minimum grade of C- in both PHYS 211 and MATH 114 or 200 NOTE: Students who receive credit for PHYS 212 may not receive credit for PHYS 110.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Physics (PHYS)
CRN: 42112
In Person | Lecture/Lab
St Paul: Owens Science Hall 168
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This calculus-based course is a continuation of PHYS 211. Topics include waves and sound; electricity and magnetism; geometric and physical optics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisites: A minimum grade of C- in both PHYS 211 and MATH 114 or 200 NOTE: Students who receive credit for PHYS 212 may not receive credit for PHYS 110.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Physics (PHYS)
CRN: 42113
In Person | Lecture/Lab
St Paul: Owens Science Hall 166
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
School of Ed Transfer Course
This calculus-based course is a continuation of PHYS 211. Topics include waves and sound; electricity and magnetism; geometric and physical optics. The course meets three times a week for two consecutive periods consisting of integrated lecture, discussion and laboratory. Prerequisites: A minimum grade of C- in both PHYS 211 and MATH 114 or 200 NOTE: Students who receive credit for PHYS 212 may not receive credit for PHYS 110.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
||||
Subject: Physics (PHYS)
CRN: 42114
In Person | Lecture
St Paul: Susan S. Morrison Hall 140
Requirements Met:
School of Ed Transfer Course
Writing in the Discipline
This course connects the subatomic world of particle and nuclear physics to the evolution of the universe after the Big Bang through the study of relativity and the four fundamental forces of nature. The course consists of lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in either PHYS 110 or 212 and in MATH 114.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
||||||
Subject: Physics (PHYS)
CRN: 42115
In Person | Lab
St Paul: Owens Science Hall 155
Requirements Met:
School of Ed Transfer Course
Writing in the Discipline
This course connects the subatomic world of particle and nuclear physics to the evolution of the universe after the Big Bang through the study of relativity and the four fundamental forces of nature. The course consists of lecture, discussion and laboratory. Prerequisite: A minimum grade of C- in either PHYS 110 or 212 and in MATH 114.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:35 pm |
1:35 pm |
1:35 pm |
||||
Subject: Physics (PHYS)
CRN: 42116
In Person | Lecture
St Paul: Owens Science Hall 251
Requirements Met:
School of Ed Transfer Course
Electrostatic and magnetostatic fields in vacuum and material media; energy and force relations; methods for the solution of static problems; fields and currents in conducting media; Maxwell's equations and time-dependent fields. Lecture and discussion. Prerequisites: A minimum grade of C- in either PHYS 215 or 225 and in MATH 200 and either 210 or 230.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
||||
Subject: Physics (PHYS)
CRN: 42117
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Requirements Met:
School of Ed Transfer Course
This course will give you a mathematical and conceptual understanding of electromagnetic waves and their interactions with matter. You will also acquire practical laboratory skills using modern optical equipment. Typical lecture topics include general wave theory, Maxwell’s equations, dipole radiation, the Poynting vector, polarization, coherence theory, interference, diffraction, scattering from particles, and optical properties of dielectrics, metals, plasmas, and crystals. Laboratory experiments typically include laser alignment techniques, small-signal detection with lock-in amplifiers, characterization of common optical components, Schlieren imaging, spectroscopy, polarimetry, interferometry, and construction of an optical tweezers system from scratch. (Maximum enrollment is limited by lab space and equipment.) Prerequisites: A minimum grade of C- in PHYS 212, plus MATH 200 or 210 or 230, plus one of the following: PHYS 215 or PHYS 225 or junior standing.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Physics (PHYS)
CRN: 42118
In Person | Lab
St Paul: Owens Science Hall 154
Requirements Met:
School of Ed Transfer Course
This course will give you a mathematical and conceptual understanding of electromagnetic waves and their interactions with matter. You will also acquire practical laboratory skills using modern optical equipment. Typical lecture topics include general wave theory, Maxwell’s equations, dipole radiation, the Poynting vector, polarization, coherence theory, interference, diffraction, scattering from particles, and optical properties of dielectrics, metals, plasmas, and crystals. Laboratory experiments typically include laser alignment techniques, small-signal detection with lock-in amplifiers, characterization of common optical components, Schlieren imaging, spectroscopy, polarimetry, interferometry, and construction of an optical tweezers system from scratch. (Maximum enrollment is limited by lab space and equipment.) Prerequisites: A minimum grade of C- in PHYS 212, plus MATH 200 or 210 or 230, plus one of the following: PHYS 215 or PHYS 225 or junior standing.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
10:55 am |
10:55 am |
10:55 am |
||||
Subject: Physics (PHYS)
CRN: 42119
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 313
Introduction to advanced topics in astronomy. Course topics will include stellar formation, structure, and evolution; spectroscopy and the interaction of light with stellar atmospheres; stellar nucleosynthesis; interactions of stars and the interstellar medium; and the morphology and formation of galaxies. Prerequisites: A minimum grade of C- in PHYS 212 and either PHYS 215 or PHYS 225 or CHEM 332.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
2:55 pm |
2:55 pm |
|||||
Subject: Public Health (PUBH)
CRN: 40026
Blended Online & In-Person | Lecture
St Paul: Murray-Herrick Campus Center 305K
Core Requirements Met:
[Core] Natural Science
Other Requirements Met:
FYE CommGood/Learning Comm
Sustainability (SUST)
In recent decades, infectious diseases such as West Nile virus, Ebola, Zika, MERS, HIV, H5N1 and H1N1 influenza virus have jumped geographical boundaries and even species boundaries to emerge in new populations. This class offers an introduction to emerging and reemerging infectious disease and focuses on the underlying mechanisms of microbial emergence, epidemiology, and the strategies available to contain them. In this age of antibiotics and vaccines, why do millions die each year from infectious diseases worldwide? With new pathogens continuing to emerge, can we ever hope to win the battle? The emergence and re-emergence of infectious diseases involves many interrelated factors. Global interconnectedness continues to increase with international travel and trade; economic, political, and cultural interactions; and human-to-human and animal-to-human interactions. This course will address the biological mechanism of infectious disease and the socioeconomic and ecological factors that influence the outbreak of infectious diseases.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Public Health (PUBH)
CRN: 40308
Online: Asynchronous | Lab
Online
Core Requirements Met:
[Core] Natural Science
In recent decades, infectious diseases such as West Nile virus, Ebola, Zika, MERS, HIV, H5N1 and H1N1 influenza virus have jumped geographical boundaries and even species boundaries to emerge in new populations. This class offers an introduction to emerging and reemerging infectious disease and focuses on the underlying mechanisms of microbial emergence, epidemiology, and the strategies available to contain them. In this age of antibiotics and vaccines, why do millions die each year from infectious diseases worldwide? With new pathogens continuing to emerge, can we ever hope to win the battle? The emergence and re-emergence of infectious diseases involves many interrelated factors. Global interconnectedness continues to increase with international travel and trade; economic, political, and cultural interactions; and human-to-human and animal-to-human interactions. This course will address the biological mechanism of infectious disease and the socioeconomic and ecological factors that influence the outbreak of infectious diseases.
0 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Public Health (PUBH)
CRN: 40265
In Person | Lecture
St Paul: Murray-Herrick Campus Center 202
Requirements Met:
Sci, Med, Soc (SMDS) Minor
Public health impacts each of us on a daily basis, yet too few of us can explain exactly what it is ordescribe the numerous ways in which it “touches” our daily lives. For students interested in the healthsciences it is critical that you understand how public health has and continues to influence our collectivehealth. In this course you will acquire an understanding of the academic discipline of public health, majorpublic health problems, and public health systems intended to protect andmaintain the health of the public.The course will orient you to core principles of public health, including social justice, and provideopportunities for you to apply your knowledge of public health to address complex population healthproblems that affect the population. Course activities will challenge you to think critically about variouscomplex health problems while you compare, contrast and devise “solutions” or interventions to addressthem. This class will equip you with tools to begin to address the critical public health issues that face you,your community, and your world.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Public Health (PUBH)
CRN: 40027
Online: Asynchronous | Online: Asynchronous
Online
Requirements Met:
Sci, Med, Soc (SMDS) Minor
Course description: Some of the major global health challenges we will discuss include communicable and non-communicable diseases, as well as environmental, women’s, and refugee health issues. We will pay particular attention to health systems and the role these systems play in promoting health and development around the globe. The course is global in its scope, but the focus of many of our discussions will be on low- and middle-income countries, the health of the poor, and health inequity. The relationship between health and socio-economic development will be examined throughout the course. The course will expose students to concepts from social epidemiology, such as social determinants of health and the impact of various social, economic, political, and historical contexts on health.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
||||||
Subject: Public Health (PUBH)
CRN: 40784
In Person | Lecture
St Paul: Susan S. Morrison Hall 110
Requirements Met:
Writing to learn
This course provides students with a foundation of knowledge to develop communication and advocacy skills for the public health profession. Students will learn how to apply health communication strategies and recommended practices in developing, implementing, and evaluating a health communication campaign as well as engaging in advocacy-related communications. Students will apply and discuss health communication concepts, theories, and models in critiquing past communication campaigns. Emergency and risk communication, health literacy and patient-client education, communicating with stakeholders and decision/policy makers, and e-health technologies will also be explored.
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:15 am |
8:15 am |
8:15 am |
||||
Subject: Public Health (PUBH)
CRN: 40409
In Person | Lecture
St Paul: Susan S. Morrison Hall 140
This course will provide an introduction into the legal, ethical, social, economic, and regulatory dimensions of U.S. health care, through a public health and social justice lens. Students will analyze the U.S. health care system structure and functions. Systems of care (government, private, and non-profit) as well as types of care (medical care, behavioral health care, public health, etc.) will be explored. Coursework will require students to conduct a comparative analysis of health care delivery system in the U.S. and another country. The course will explore challenges within the U.S. health care delivery system and engage students to investigate proposed solutions to reduce health care costs, improve health care quality, and reduce health disparities. A culminating class project will provide opportunities for students to share what they have learned in the course with a larger audience.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
| + asynchronous coursework | ||||||
Subject: Public Health (PUBH)
CRN: 40266
Online: Asynchronous | Online: Asynchronous
Online
Course description: Epidemiology (“epi”) is the study of the distribution and determinants of health and disease patterns in human populations. As a scientific method, epidemiology can be used to investigate, analyze, and ultimately prevent or control health problems on the population level. In this course you will develop your understanding of the epidemiologic approach for addressing important population health problems. You will have the opportunity to examine various population health issues from an epidemiologic perspective. Initially, you will learn to speak the “epi” language such that you can describe data in epidemiologic terms and examine associations between exposures and health/disease outcomes. You will also develop skills to conduct basic data analysis, critically analyze epidemiologic study methods, and assess the validity of “epi” study results. You will leave this course with a better understanding of both the significant impact of epidemiology on human health as well as some of the limitations of the science. Prerequisites: PUBH 220 and DASC 120, or Junior Standing and DASC 120, or Permission of the instructor.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
8:00 am |
8:00 am |
|||||
Subject: Public Health (PUBH)
CRN: 40285
In Person | Lecture
St Paul: Murray-Herrick Campus Center 207
Requirements Met:
Writing in the Discipline
This course will cover effective approaches for planning, implementing, and evaluating public health education programs. Students will engage in quantitative and qualitative needs assessment procedures to guide program goal and objective setting. The course will emphasize theoretical and evidence-based interventions and tools to optimize program implementation. Fundamental concepts and methods of evaluation will be covered. This course covers important planning skill sets beneficial to other disciplines. Prerequisite: PUBH 220 and 225 or instructor approval
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
Subject: Public Health (PUBH)
CRN: 40286
In Person | Directed Study
St Paul: In Person
The Public Health undergraduate internship learning experience has a three central goals: 1) to broaden student exposure to public health professionals and agencies, 2) facilitate opportunities for students to integrate, synthesize, and apply knowledge gained from coursework , and 3) provide opportunities for students to observe public health leadership in action. This course requires students to complete 100 hours engaging in public health-related competencies. Prior to registering for this class, students must receive internship site approval by faculty or advisor and secure an agreement, in writing, with an internship site. Prerequisites: DASC 120, PUBH 300, and PUBH 340
2 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
Subject: Public Health (PUBH)
CRN: 40553
In Person | Directed Study
St Paul: In Person
The Public Health undergraduate internship learning experience has a three central goals: 1) to broaden student exposure to public health professionals and agencies, 2) facilitate opportunities for students to integrate, synthesize, and apply knowledge gained from coursework , and 3) provide opportunities for students to observe public health leadership in action. This course requires students to complete 100 hours engaging in public health-related competencies. Prior to registering for this class, students must receive internship site approval by faculty or advisor and secure an agreement, in writing, with an internship site. Prerequisites: DASC 120, PUBH 300, and PUBH 340
2 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40058
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 333
Online
This foundational software development course focuses on fundamental programming concepts implemented using the Java programming language. These concepts include general problem-solving and algorithm creation techniques, primitive and object data types, constants, variables, expressions, and control flow. We discuss object-oriented concepts, such as objects and classes, object instantiation and initialization, method implementation and invocation, interfaces, inheritance, and garbage collection. We will explore how AI assistance can enhance software development through code generation, debugging assistance, and test development. Students will apply these concepts by writing Java programs and unit tests. No prior programming experience is required.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40496
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 333
Online
This intermediate-level software development course builds upon foundational programming concepts, delving into advanced topics and practical application. We will thoroughly explore abstract data type concepts, providing a deep understanding of data structures and their associated algorithms for algorithm analysis. Canonical implementations and framework-supplied alternatives, such as the JDK and other relevant frameworks, will be examined and utilized. To apply these concepts, we will develop software using the Java programming language, leveraging industry-standard tools. We will also utilize tools for software build management, configuration, and version control (e.g., Git), as well as unit and integration testing (e.g., JUnit). Furthermore, we will discuss multi-threading, memory management, refactoring, and advanced debugging techniques, equipping students with the skills necessary for robust software development. Throughout the course, we will explore how AI assistance can enhance the software development lifecycle. This includes leveraging AI for tasks such as code generation for repetitive patterns, intelligent debugging assistance to identify and resolve complex issues, and automated test development to ensure code reliability. We will also examine how AI can be used to analyze code complexity and suggest refactoring improvements. This course assumes a solid foundation in fundamental software development concepts, including the ability to use and understand the Java programming language. Prerequisite: SEIS 601 or an equivalent understanding of foundational software development concepts is required.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40237
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 326
Online
This introductory software development course focuses on fundamental programming concepts. We will cover general problem-solving techniques, algorithm creation, data types, constants, variables, expressions, Boolean logic, control flow, and principles of object-oriented programming. Throughout the course, we will implement programs using the Python programming language, exploring its versatility as both an interpreted and a compiled language. Students will work with core data types such as numbers, strings, lists, dictionaries, and sets. They will learn how to use Python for data management, establishing a foundation for future endeavors in fields like data science and web development. Additionally, we will examine how AI-powered tools can enhance the learning and development of Python code. For instance, we will introduce AI-driven code completion and error detection tools to help students understand syntax and debug more effectively. We may also explore AI applications in data analysis and automation, demonstrating potential uses for Python skills. Finally, we will introduce PyTest for unit and integration testing. No prior programming experience in Python or any other programming language is required.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40238
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 327
Online
This introductory software development course focuses on fundamental programming concepts. We will cover general problem-solving techniques, algorithm creation, data types, constants, variables, expressions, Boolean logic, control flow, and principles of object-oriented programming. Throughout the course, we will implement programs using the Python programming language, exploring its versatility as both an interpreted and a compiled language. Students will work with core data types such as numbers, strings, lists, dictionaries, and sets. They will learn how to use Python for data management, establishing a foundation for future endeavors in fields like data science and web development. Additionally, we will examine how AI-powered tools can enhance the learning and development of Python code. For instance, we will introduce AI-driven code completion and error detection tools to help students understand syntax and debug more effectively. We may also explore AI applications in data analysis and automation, demonstrating potential uses for Python skills. Finally, we will introduce PyTest for unit and integration testing. No prior programming experience in Python or any other programming language is required.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40239
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 326
Online
This introductory software development course focuses on fundamental programming concepts. We will cover general problem-solving techniques, algorithm creation, data types, constants, variables, expressions, Boolean logic, control flow, and principles of object-oriented programming. Throughout the course, we will implement programs using the Python programming language, exploring its versatility as both an interpreted and a compiled language. Students will work with core data types such as numbers, strings, lists, dictionaries, and sets. They will learn how to use Python for data management, establishing a foundation for future endeavors in fields like data science and web development. Additionally, we will examine how AI-powered tools can enhance the learning and development of Python code. For instance, we will introduce AI-driven code completion and error detection tools to help students understand syntax and debug more effectively. We may also explore AI applications in data analysis and automation, demonstrating potential uses for Python skills. Finally, we will introduce PyTest for unit and integration testing. No prior programming experience in Python or any other programming language is required.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40057
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 333
Online
This introductory course covers software engineering concepts, techniques, and methodologies. The course introduces software engineering life-cycle models, such as Scrum and Kanban. Students learn the essential concepts of different lifecycle models and where their application is appropriate. The course continues by teaching concepts of requirements acquisition and various methods of requirements refinement. Also presented in this course are concepts of object-oriented and structured design. The course incorporates vital supporting topics such as software metrics, project planning, cost estimation, software maintenance, and an introduction to data structures and running time analysis. Prerequisite: SEIS 601 or SEIS 603. SEIS 610 can be taken concurrently with SEIS 601 or SEIS 603.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40011
CoFlex:In Person&Online Sync | Lecture
St Paul: Schoenecker Center 408
Online
This course covers the fundamentals of IT infrastructure in the cloud. It provides a detailed overview of cloud concepts, services, security, architecture, and economics. This course will examine the theory behind these modern practices and the real-world implementation challenges faced by IT organizations. Students will learn how to design and implement cloud-based solutions. While the lessons will cover a number of theoretical concepts, we will primarily learn by doing. Students will gain hands-on experience with several widely-adopted IT platforms including AWS and Docker.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40012
CoFlex:In Person&Online Sync | Lecture
St Paul: Schoenecker Center 331
Online
This course covers the fundamentals of IT infrastructure in the cloud. It provides a detailed overview of cloud concepts, services, security, architecture, and economics. This course will examine the theory behind these modern practices and the real-world implementation challenges faced by IT organizations. Students will learn how to design and implement cloud-based solutions. While the lessons will cover a number of theoretical concepts, we will primarily learn by doing. Students will gain hands-on experience with several widely-adopted IT platforms including AWS and Docker.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40679
CoFlex:In Person&Online Sync | Lecture
St Paul: Schoenecker Center 408
Online
This course covers the engineering and design of IT infrastructure, focusing on infrastructure as Code practices. IT infrastructure deployment practices are rapidly changing as organizations build infrastructure as code and adopt cloud computing platforms. We will examine the theory behind these modern practices and the real-world implementation challenges faced by IT organizations. The lessons will cover a number of tools, techniques, and patterns to implement infrastructure as code. Students will learn about platforms and tooling involved in creating and configuring infrastructure elements, patterns for using these tools, and practices for making infrastructure as code work in production. Prerequisites: SEIS 615
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40459
Online: Sync Distributed | Lecture
Online
This course will teach students the essentials of becoming a full stack web developer by creating dynamic, interactive websites, and is suitable for anyone with basic computer programming skills. The course initially focuses on HTML, CSS and JavaScript and later transactions into technologies like Angular framework, Node, and Serverless functions in a cloud environment. Students develop skills for designing, publishing, and maintaining websites for professional or personal use. No previous experience or knowledge of web development is needed. Prerequisites: SEIS 602 or SEIS 604
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40250
Online: Sync Distributed | Lecture
Online
This course will provide students with a comprehensive overview of the principles, processes, and practices of many available agile software product development techniques. Students will learn agile planning, development, and delivery techniques with Scrum, Kanban, Lean, Extreme, Crystal, Dynamic, and Feature Driven Development. Scaled agile framework (SAFe) for large enterprises in scaling lean and agile practices beyond a single team along with Large-scale Scrum (LeSS) and disciplined agile delivery (DAD) will also be explored. Students will be provided with the opportunity to apply the skills in creating and delivering new products in a team environment. Drivers behind agility in software development along with methods for project tracking, project communication, team collaboration, client relationship management, stakeholder management and quality of deliverables will be discussed at length.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40010
CoFlex:In Person&Online Sync | Lecture
St Paul: Schoenecker Center 331
Online
Requirements Met:
Software Data Mgmt Conc
Software Technical Elective
This course focuses on database management system concepts, database design, and implementation. Conceptual data modeling using Entity Relationships (ER) is used to capture the requirements of a database design. Relational model concepts are introduced and mapping from ER to relational model is discussed. Logical database design, normalization, and indexing strategies are also discussed to aid system performance. Structured Query Language (SQL) is used to work with a database using the Oracle platform. The course also covers query optimization and execution strategies, concurrency control, locking, deadlocks, security, and backup/recovery concepts. Non-relational databases are also briefly introduced. Students will use Oracle and/or SQL Server to design and create a database using SQL as their project.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40240
CoFlex:In Person&Online Sync | Lecture
St Paul: Schoenecker Center 331
Online
Requirements Met:
Software Data Mgmt Conc
Software Technical Elective
This course focuses on database management system concepts, database design, and implementation. Conceptual data modeling using Entity Relationships (ER) is used to capture the requirements of a database design. Relational model concepts are introduced and mapping from ER to relational model is discussed. Logical database design, normalization, and indexing strategies are also discussed to aid system performance. Structured Query Language (SQL) is used to work with a database using the Oracle platform. The course also covers query optimization and execution strategies, concurrency control, locking, deadlocks, security, and backup/recovery concepts. Non-relational databases are also briefly introduced. Students will use Oracle and/or SQL Server to design and create a database using SQL as their project.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40168
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 230
Online
This course provides a broad introduction to the subject of data analysis by introducing common techniques that are essential for analyzing and deriving meaningful information from datasets. In particular, the course will focus on relevant methods for performing data collection, representation, transformation, and data-driven decision making. The course will introduce students to Statistical Science including Probability Distribution, Sampling Distribution, Statistical Inference, and Significance Testing. Students will also develop proficiency in the widely used Python language which will be used throughout the course to reinforce the topics covered. Packages like NumPy and Pandas will be discussed at length for Data Cleaning, Data Wrangling: Joins, Combine, Data Reshape, Data Aggregation, Group Operation, and Time Series analysis. Prerequisite: SEIS 603
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40190
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 313
Online
This course provides a broad introduction to the subject of data analysis by introducing common techniques that are essential for analyzing and deriving meaningful information from datasets. In particular, the course will focus on relevant methods for performing data collection, representation, transformation, and data-driven decision making. The course will introduce students to Statistical Science including Probability Distribution, Sampling Distribution, Statistical Inference, and Significance Testing. Students will also develop proficiency in the widely used Python language which will be used throughout the course to reinforce the topics covered. Packages like NumPy and Pandas will be discussed at length for Data Cleaning, Data Wrangling: Joins, Combine, Data Reshape, Data Aggregation, Group Operation, and Time Series analysis. Prerequisite: SEIS 603
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40158
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 227
Online
Requirements Met:
LLM/MSL Elective
Even the most insightful data analysis has limited value if analysts cannot convey clear, actionable insights to non-technical audiences. This course develops the critical skills necessary to transform complex quantitative findings into compelling data stories and visualizations. Students will learn how to leverage visual design principles that speak directly to human cognitive abilities, guiding business stakeholders toward data-driven decisions. The curriculum covers creating meaningful graphs, reports, and dashboards that improve comprehension, catalyze communication, and enable fact-based choices. By mastering techniques for visualizing and explaining data, students will become adept at distilling analytical conclusions into incisive narratives readily grasped by diverse audiences. Upon completion, they will have obtained hands-on experience with state-of-the-art data visualization tools to generate impactful data-driven visual insights.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40167
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 313
Online
Requirements Met:
LLM/MSL Elective
Even the most insightful data analysis has limited value if analysts cannot convey clear, actionable insights to non-technical audiences. This course develops the critical skills necessary to transform complex quantitative findings into compelling data stories and visualizations. Students will learn how to leverage visual design principles that speak directly to human cognitive abilities, guiding business stakeholders toward data-driven decisions. The curriculum covers creating meaningful graphs, reports, and dashboards that improve comprehension, catalyze communication, and enable fact-based choices. By mastering techniques for visualizing and explaining data, students will become adept at distilling analytical conclusions into incisive narratives readily grasped by diverse audiences. Upon completion, they will have obtained hands-on experience with state-of-the-art data visualization tools to generate impactful data-driven visual insights.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40896
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 327
Online
Requirements Met:
LLM/MSL Elective
Even the most insightful data analysis has limited value if analysts cannot convey clear, actionable insights to non-technical audiences. This course develops the critical skills necessary to transform complex quantitative findings into compelling data stories and visualizations. Students will learn how to leverage visual design principles that speak directly to human cognitive abilities, guiding business stakeholders toward data-driven decisions. The curriculum covers creating meaningful graphs, reports, and dashboards that improve comprehension, catalyze communication, and enable fact-based choices. By mastering techniques for visualizing and explaining data, students will become adept at distilling analytical conclusions into incisive narratives readily grasped by diverse audiences. Upon completion, they will have obtained hands-on experience with state-of-the-art data visualization tools to generate impactful data-driven visual insights.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40798
Online: Sync Distributed | Lecture
Online
The purpose of this course is to guide students through the knowledge, skills, and opportunities needed to develop an ethical foundation on which they can build their careers as AI practitioners or as professionals in other fields that have been or will be impacted by AI. We will explore a variety of ethical issues related to the development and use of AI across multiple fields of study, with an emphasis on the human impact of AI. Course topics will cover a range of foundational AI concepts including data preparation, bias, neural networks, natural language processing, large language models, generative AI, model validation, and more, in the context of issues like discrimination, misinformation, intellectual property, regulation, jobs, and humanity at large. Class sessions are comprised of a weekly “hot topic” where we will explore the ethical implications of current events in AI, a lecture period, and lab where students have the opportunity to discuss and apply the course material to practical and theoretical exercises. This course is intended for both technical and non-technical audiences.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40899
Online: Sync Distributed | Lecture
Online
The purpose of this course is to guide students through the knowledge, skills, and opportunities needed to develop an ethical foundation on which they can build their careers as AI practitioners or as professionals in other fields that have been or will be impacted by AI. We will explore a variety of ethical issues related to the development and use of AI across multiple fields of study, with an emphasis on the human impact of AI. Course topics will cover a range of foundational AI concepts including data preparation, bias, neural networks, natural language processing, large language models, generative AI, model validation, and more, in the context of issues like discrimination, misinformation, intellectual property, regulation, jobs, and humanity at large. Class sessions are comprised of a weekly “hot topic” where we will explore the ethical implications of current events in AI, a lecture period, and lab where students have the opportunity to discuss and apply the course material to practical and theoretical exercises. This course is intended for both technical and non-technical audiences.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40157
CoFlex:In Person&Online Sync | Lecture
St Paul: Owens Science Hall 275
Online
This overview course will provide the foundation of information technology security, including authentication, authorization, access management, physical security, network security (firewalls, intrusion detection), application security (software and database), digital privacy, technology risk management, regulatory compliance, and security operations (e.g., incident response, monitoring, continuity). We will explore social engineering and other human factors and the impact to security.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40036
Online: Sync Distributed | Lecture
Online
This course provides students with a theoretical and practical understanding of Strategy and Enterprise Architecture (EA). It studies how EA enables organizations to effectively accomplish their business goals. Specifically, the course analyzes the relationships among business strategies, IT strategies, business, applications, information, and technology architectures. It also examines current industry trends such as: design thinking, digital transformation, cloud migration, and introduces students to EA implementation frameworks and tools.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40090
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 327
Online
Requirements Met:
Software Data Mgmt Conc
Software Technical Elective
In today’s data-driven world, Data Scientists and Data Engineers must have a solid understanding of data warehousing concepts. Many of the most valuable data sets still reside in corporate data warehouses. While the fundamental principles of data warehousing have existed for decades, a growing number of companies are now migrating these workloads to the cloud. This course aims to provide students with hands-on experience using popular cloud-based tools and data formats to develop metrics and features for analytics and machine learning. To achieve this, the course will begin by exploring the design differences between relational systems and data warehouses. It will then delve into best practices and common challenges associated with working with data from various sources. Additionally, as enterprises increasingly invest in data governance, data lineage, and master and metadata management to preserve contextual information, these concepts will also be covered. Understanding these topics is essential for leveraging disparate sources of information effectively. Prerequisite: SEIS 630
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40200
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 327
Online
Requirements Met:
Software Data Mgmt Conc
Software Technical Elective
In today’s data-driven world, Data Scientists and Data Engineers must have a solid understanding of data warehousing concepts. Many of the most valuable data sets still reside in corporate data warehouses. While the fundamental principles of data warehousing have existed for decades, a growing number of companies are now migrating these workloads to the cloud. This course aims to provide students with hands-on experience using popular cloud-based tools and data formats to develop metrics and features for analytics and machine learning. To achieve this, the course will begin by exploring the design differences between relational systems and data warehouses. It will then delve into best practices and common challenges associated with working with data from various sources. Additionally, as enterprises increasingly invest in data governance, data lineage, and master and metadata management to preserve contextual information, these concepts will also be covered. Understanding these topics is essential for leveraging disparate sources of information effectively. Prerequisite: SEIS 630
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40458
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 333
Online
The course is a unique culmination of software development practices taught in the Master of Software Engineering program and provides students an opportunity to create and showcase a capstone project by implementing a full-stack application. This capstone class provides Software Engineering students with the unique opportunity to conceptualize, design, and implement a project related to their chosen domain. During the project, students build competence in a modern interactive and incremental development methodology; students will refine their acquisition skills and analysis of program requirements. Students will also learn software design patterns and create sophisticated architectural and operational diagrams. Automated software tests will be run, and continuous integration deployment principles will be performed. Prerequisite: SEIS 602, and SEIS 610, and SEIS 622
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 42813
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 230
Online
This course is designed for students to be exposed to technologies and best practices that help them understand both the high-level concepts at a systems level and the supporting technologies that make up the combination of Machine Learning and the Internet of Things. TinyML, short for Tiny Machine Learning is a fast-growing field of Machine Learning technologies that are able to run on-device sensor data analytics using extremely low power. Improvements in optimization algorithms and frameworks for running inferences at the edge, it is now possible to make IoT devices smarter. Students will get to build a rapid prototype of a real product and put it into practice to collect and analyze data to make predictions. The course will provide a foundation on capturing data from the physical world and applying Machine Learning techniques to gain predictions and insights at the edge. Prerequisites: SEIS 601 or SEIS 603 or an equivalent understanding of foundational programming concepts.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40494
CoFlex:In Person&Online Sync | Lecture
St Paul: Owens Science Hall 251
Online
In today's data world, there are many ways to store data - as the type of data collected globally becomes vast, the need to store and analyze semi-structured or unstructured data becomes more commonplace. The Data Lakes and Advanced Analytics course will teach students how to extract, load, and transform data in a data lake with hands-on experience using Databricks. By the end of the program, students should be comfortable pulling everything from basic reporting to building business intelligence visualizations and dashboards. The course will also introduce Databricks' capabilities to AI & ML. Throughout the course, students will also be exposed to data strategy concepts encompassing topics such as data governance, master data management, medallion layering, and self-service reporting. Prerequisites: SEIS 603 and SEIS 630
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40495
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 328
Online
In today's data world, there are many ways to store data - as the type of data collected globally becomes vast, the need to store and analyze semi-structured or unstructured data becomes more commonplace. The Data Lakes and Advanced Analytics course will teach students how to extract, load, and transform data in a data lake with hands-on experience using Databricks. By the end of the program, students should be comfortable pulling everything from basic reporting to building business intelligence visualizations and dashboards. The course will also introduce Databricks' capabilities to AI & ML. Throughout the course, students will also be exposed to data strategy concepts encompassing topics such as data governance, master data management, medallion layering, and self-service reporting. Prerequisites: SEIS 603 and SEIS 630
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40419
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 325
Online
Machine Learning builds computational systems that learn from and adapt to the data presented to them. It has become one of the essential pillars in information technology today and provides a basis for several applications we use daily in diverse domains such as engineering, medicine, finance, and commerce. This course covers widely used supervised and unsupervised machine learning algorithms used in industry in technical depth, discussing both the theoretical underpinnings of machine learning techniques and providing hands-on experience in implementing them. Additionally, students will also learn to evaluate effectiveness and avoid common pitfalls in applying machine learning to a given problem. Prerequisites: SEIS 631 and 632, 632 can be taken concurrently.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40898
CoFlex:In Person&Online Sync | Lecture
St Paul: Owens Science Hall 257
Online
Machine Learning builds computational systems that learn from and adapt to the data presented to them. It has become one of the essential pillars in information technology today and provides a basis for several applications we use daily in diverse domains such as engineering, medicine, finance, and commerce. This course covers widely used supervised and unsupervised machine learning algorithms used in industry in technical depth, discussing both the theoretical underpinnings of machine learning techniques and providing hands-on experience in implementing them. Additionally, students will also learn to evaluate effectiveness and avoid common pitfalls in applying machine learning to a given problem. Prerequisites: SEIS 631 and 632, 632 can be taken concurrently.
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40251
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 325
Online
Artificial Intelligence has made significant strides in recent times and has become ubiquitous in the modern world, impacting our lives in different ways. By harnessing the power of deep neural networks, it is now possible to build real-world intelligent applications that outperform human precision in certain tasks. This course provides a broad coverage of AI techniques with a focus on industry application. Major topics covered in this course include: (1) how deep neural networks learn their intelligence, (2) self-learning from raw data, (3) common training problems and solutions, (4) transferring learning from existing AI systems, (5) training AI systems for machine visions with high accuracy, and (6) training time-series AI systems for recognizing sequential patterns. Students will have hands-on exercises for building efficient AI systems. Prerequisite: SEIS 763
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40900
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 313
Online
Artificial Intelligence has made significant strides in recent times and has become ubiquitous in the modern world, impacting our lives in different ways. By harnessing the power of deep neural networks, it is now possible to build real-world intelligent applications that outperform human precision in certain tasks. This course provides a broad coverage of AI techniques with a focus on industry application. Major topics covered in this course include: (1) how deep neural networks learn their intelligence, (2) self-learning from raw data, (3) common training problems and solutions, (4) transferring learning from existing AI systems, (5) training AI systems for machine visions with high accuracy, and (6) training time-series AI systems for recognizing sequential patterns. Students will have hands-on exercises for building efficient AI systems. Prerequisite: SEIS 763
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
||||||
Subject: Software Eng (Grad) (SEIS)
CRN: 40681
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 325
Online
In the rapidly evolving landscape of machine learning and artificial intelligence, the efficient deployment, management, and monitoring of machine learning models are crucial for successful and sustainable outcomes. The Machine Learning Operations (MLOps) course is designed to equip participants with the knowledge and skills needed to bridge the gap between machine learning development and operational deployment. Through a comprehensive curriculum, hands-on labs, and real-world case studies, participants will learn the essential principles and practices that enable seamless collaboration between data scientists, machine learning engineers, and operations teams. This course covers key concepts, tools, and strategies used in MLOps, helping organizations streamline their machine learning pipelines and enhance the reliability, scalability, and maintainability of their models. Prerequisite: SEIS 763
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
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Subject: Software Eng (Grad) (SEIS)
CRN: 40682
CoFlex:In Person&Online Sync | Lecture
St Paul: O'Shaughnessy Science Hall 325
Online
This course offers an interactive learning experience that delves into how machines perceive, analyze, and react to images and visual cues. You'll gain a greater understanding of images, videos, and their processing algorithms through hands-on activities. By working on practical tasks like manipulating images and experimenting with Generative AI models like GANs, you'll discover the vast applications of Vision AI. Industries such as entertainment and healthcare are already benefiting from these technologies, which enable machines to recognize patterns, predict outcomes, and even create art. With this course, you'll learn both the theoretical and practical aspects of Vision AI, empowering you to combine your creativity with cutting-edge technology. At the end of this course, students will develop skill sets in visual intelligence and be poised to shape the future of this exciting field. Prerequisite: SEIS 764 Artificial Intelligence
3 Credits
| 09/03 - 12/15 | ||||||
| M | T | W | Th | F | Sa | Su |
5:30 pm 5:30 pm |
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Subject: Software Eng (Grad) (SEIS)
CRN: 40683
CoFlex:In Person&Online Sync | Lecture
St Paul: Schoenecker Center 408
Online
This course will explore the dynamic intersection of machine intelligence and human conversation. Throughout this course, you'll discover the profound practical benefits of Conversational AI. Businesses can revamp their approach to customer communication, leading to instant query resolution and increased customer loyalty. If you're inclined towards data, you'll appreciate how Conversational AI can simplify complex data sets, pulling out meaningful insights faster than ever. Consider the significant boost in productivity for general workplace scenarios when intuitive AI systems handle routine tasks, such as scheduling and information retrieval. We've structured this course to give you both a solid grounding in the theoretical aspects of Conversational AI and hands-on experience with its real-world applications. Whether you aim to refine customer interactions in a business setting, optimize data analysis, or enhance workplace productivity, this course promises to be transformative. Get ready to delve deep; by the end, students will be well-equipped to lead the charge in shaping the future of communication and productivity. Prerequisite: SEIS 764 Artificial Intelligence
3 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
1:30 pm |
1:30 pm |
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Subject: Statistics (STAT)
CRN: 42221
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 325
Probability theory in discrete and continuous sample spaces; random variables and distribution functions; moments; the moment-generating function; functions of random variables; law of large numbers; central limit theorem. Prerequisites: A grade of C- or above in MATH 200 (may be taken concurrently with consent of instructor). NOTE: Students who receive credit for STAT 313 may not receive credit for STAT 303.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
9:35 am |
9:35 am |
9:35 am |
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Subject: Statistics (STAT)
CRN: 42222
In Person | Lecture
St Paul: O'Shaughnessy Science Hall 214
Requirements Met:
School of Ed Transfer Course
Students will learn the theory and applications of point estimation, interval estimation, and hypothesis testing. Students will construct intervals and tests using a variety of statistical tools including frequentist statistical theory, Bayesian statistical theory, and resampling-based simulation. Prerequisites: Grades C- or higher in MATH 240 and STAT 313. NOTE: Students who receive credit for STAT 314 may not receive credit for STAT 303.
4 Credits
| 09/03 - 12/19 | ||||||
| M | T | W | Th | F | Sa | Su |
12:15 pm |
12:15 pm |
12:15 pm |
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Subject: Statistics (STAT)
CRN: 42223
In Person | Lecture
St Paul: Owens Science Hall LL54
Requirements Met:
School of Ed Transfer Course
Writing in the Discipline
The course introduces the theory and applications of simple and multiple regression methods, including model construction and selection, transformation of variables and residual analysis; introduction to GLM (generalized linear models) for categorical and count response variables; time series analysis with ARIMA (autoregressive integrated moving average models). Students are introduced to principles of data collection and analysis, learn to work with statistical literature. Students present a writing intensive small group course project. Prerequisites: Grades C- or higher in MATH 240 and in STAT 303 or STAT 314.
4 Credits