Subject: Biology (BIOL)

CRN: 20772

In Person | Lecture

St Paul: Owens Science Hall 251

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Doreen Schroeder

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

Subject: Biology (BIOL)

CRN: 20773

Online: Asynchronous | Lab

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Doreen Schroeder

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

Subject: Biology (BIOL)

CRN: 20774

Online: Asynchronous | Lab

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Doreen Schroeder

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

Subject: Biology (BIOL)

CRN: 20775

Online: Asynchronous | Lecture

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Kurt Illig

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

Subject: Biology (BIOL)

CRN: 20776

Online: Asynchronous | Lab

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Kurt Illig

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

Subject: Biology (BIOL)

CRN: 20777

Online: Asynchronous | Lab

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Kurt Illig

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

Subject: Biology (BIOL)

CRN: 20778

Blended Online & In-Person | Lecture

St Paul: O'Shaughnessy Science Hall LL18

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

  Dayius Turvold Celotta

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

Subject: Biology (BIOL)

CRN: 20779

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

  Dayius Turvold Celotta

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

Subject: Biology (BIOL)

CRN: 20780

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

  Dayius Turvold Celotta

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

Subject: Biology (BIOL)

CRN: 20781

In Person | Lecture

St Paul: Owens Science Hall 251

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     FYE CommGood/Learning Comm
     School of Ed Transfer Course
     Sustainability (SUST)

  Leah Domine

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

Subject: Biology (BIOL)

CRN: 20782

In Person | Lecture

St Paul: Owens Science Hall 251

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     FYE CommGood/Learning Comm
     School of Ed Transfer Course
     Sustainability (SUST)

  Leah Domine

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

Subject: Biology (BIOL)

CRN: 20785

In Person | Lab

St Paul: Owens Science Hall 264

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Leah Domine

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

Subject: Biology (BIOL)

CRN: 20787

In Person | Lab

St Paul: Owens Science Hall 264

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Dayius Turvold Celotta

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

Subject: Biology (BIOL)

CRN: 20788

In Person | Lab

St Paul: Owens Science Hall 264

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Leah Domine

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

Subject: Biology (BIOL)

CRN: 20790

In Person | Lab

St Paul: Owens Science Hall 264

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Kerri Carlson

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

Subject: Biology (BIOL)

CRN: 20793

In Person | Lecture

St Paul: Owens Science Hall 250

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Lingling Zhang

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

Subject: Biology (BIOL)

CRN: 20794

In Person | Lecture

St Paul: Owens Science Hall 250

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Colin Martin

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

Subject: Biology (BIOL)

CRN: 20795

In Person | Lecture

St Paul: Murray-Herrick Campus Center 201

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Kerri Carlson

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

Subject: Biology (BIOL)

CRN: 20796

In Person | Lecture

St Paul: Owens Science Hall 250

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Lingling Zhang

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

Subject: Biology (BIOL)

CRN: 20797

In Person | Lecture

St Paul: O'Shaughnessy Science Hall LL18

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Haude Levesque

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

Subject: Biology (BIOL)

CRN: 20798

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

  Anthony Lewno

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

Subject: Biology (BIOL)

CRN: 20799

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20800

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20801

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

  Haude Levesque

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

Subject: Biology (BIOL)

CRN: 20802

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20803

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

  Anthony Lewno

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

Subject: Biology (BIOL)

CRN: 20804

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20805

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20806

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

  Haude Levesque

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

Subject: Biology (BIOL)

CRN: 20807

Blended Online & In-Person | Lab

St Paul: Owens Science Hall 378

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20808

Online: Sync Distributed | Lecture

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     School of Ed Transfer Course
     Sustainability (SUST)

Instructor: TBD

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

Subject: Biology (BIOL)

CRN: 20809

In Person | Lecture

St Paul: Murray-Herrick Campus Center 305I

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     School of Ed Transfer Course
     Sustainability (SUST)

Instructor: TBD

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

Subject: Chemistry (CHEM)

CRN: 20894

In Person | Lecture

St Paul: O'Shaughnessy Science Hall LL18

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Sustainability (SUST)

  Bill Coggio

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

Subject: Chemistry (CHEM)

CRN: 20895

In Person | Lab

St Paul: Schoenecker Center 407

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Chemistry (CHEM)

CRN: 20896

In Person | Lab

St Paul: Schoenecker Center 407

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

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

Subject: Chemistry (CHEM)

CRN: 20897

In Person | Lab

St Paul: Schoenecker Center 407

Core Requirements Met:
     [Core] Natural Science

  Bill Coggio

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

Subject: Chemistry (CHEM)

CRN: 20898

In Person | Lecture

St Paul: O'Shaughnessy Science Hall LL18

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     FYE CommGood/Learning Comm
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Ekaterina Kadnikova

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

Subject: Chemistry (CHEM)

CRN: 20899

In Person | Lab

St Paul: Schoenecker Center 407

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr

  Ekaterina Kadnikova

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: Math placement at 108 or above, and 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

Subject: Chemistry (CHEM)

CRN: 20900

In Person | Lab

St Paul: Schoenecker Center 407

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr

  Ekaterina Kadnikova

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

Subject: Chemistry (CHEM)

CRN: 20901

In Person | Lab

St Paul: Schoenecker Center 407

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr

  Ekaterina Kadnikova

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

Subject: Engineering (UG) (ENGR)

CRN: 20110

In Person | Lecture

St Paul: Schoenecker Center 401

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Genevieve Gagnon

The course examines the core concepts of energy and power technologies. A hands-on laboratory will examine how refrigerators, swamp coolers, generators, turbines, car engines and solar panels work. The class covers how electricity from fossil fuels is generated and transported, and the status of the technology behind harnessing geothermal resources, solar power, fuel cells, wind power, and biomass energy. Students will be introduced to the 1st and 2nd laws of thermodynamics, trade-off charts and the design process. The cultural, social, and economic impacts of energy production are discussed as well as their effects on the environment. (This course is limited to non-majors or students with Freshman or Sophomore standing.)

4 Credits

Subject: Engineering (UG) (ENGR)

CRN: 20112

In Person | Lab

St Paul: O'Shaughnessy Science Hall LL14

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Genevieve Gagnon

The course examines the core concepts of energy and power technologies. A hands-on laboratory will examine how refrigerators, swamp coolers, generators, turbines, car engines and solar panels work. The class covers how electricity from fossil fuels is generated and transported, and the status of the technology behind harnessing geothermal resources, solar power, fuel cells, wind power, and biomass energy. Students will be introduced to the 1st and 2nd laws of thermodynamics, trade-off charts and the design process. The cultural, social, and economic impacts of energy production are discussed as well as their effects on the environment. (This course is limited to non-majors or students with Freshman or Sophomore standing.)

0 Credits

Subject: Engineering (UG) (ENGR)

CRN: 20113

In Person | Lab

St Paul: O'Shaughnessy Science Hall LL14

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Genevieve Gagnon

The course examines the core concepts of energy and power technologies. A hands-on laboratory will examine how refrigerators, swamp coolers, generators, turbines, car engines and solar panels work. The class covers how electricity from fossil fuels is generated and transported, and the status of the technology behind harnessing geothermal resources, solar power, fuel cells, wind power, and biomass energy. Students will be introduced to the 1st and 2nd laws of thermodynamics, trade-off charts and the design process. The cultural, social, and economic impacts of energy production are discussed as well as their effects on the environment. (This course is limited to non-majors or students with Freshman or Sophomore standing.)

0 Credits

Subject: Environmental Science (ESCI)

CRN: 21142

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 120

Core Requirements Met:
     [Core] Natural Science

  Melissa Lamb, Kevin Theissen

Environmental science is an interdisciplinary science program focused on solving environmental problems that lie at the interface between biology, chemistry, and geology. Using case studies, community partners and/or real research projects, students will learn skills used by environmental scientists to address local and regional environmental issues. We will explore the natural processes involved in the problems as well as consider scientific contributions to solutions. Students interested in Sustainability, Conservation, Advancing the Common Good and/or pairing science with business, engineering, law or other fields are encouraged to take this class.

4 Credits

Subject: Environmental Science (ESCI)

CRN: 21143

In Person | Lab

St Paul: O'Shaughnessy Science Hall 120

Core Requirements Met:
     [Core] Natural Science

  Melissa Lamb, Kevin Theissen

Environmental science is an interdisciplinary science program focused on solving environmental problems that lie at the interface between biology, chemistry, and geology. Using case studies, community partners and/or real research projects, students will learn skills used by environmental scientists to address local and regional environmental issues. We will explore the natural processes involved in the problems as well as consider scientific contributions to solutions. Students interested in Sustainability, Conservation, Advancing the Common Good and/or pairing science with business, engineering, law or other fields are encouraged to take this class.

0 Credits

Subject: Geology (GEOL)

CRN: 21197

Online: Asynchronous | Lecture

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Tatiana Vislova

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 111-61 OR-62. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.

4 Credits

Subject: Geology (GEOL)

CRN: 21198

Online: Asynchronous | Lecture

Online

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)

  Rebecca Clotts

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 111-63 OR-64. NOTE: Students who receive credit for GEOL 111 may not receive credit for GEOL 102, 110, 114, or 115.

4 Credits

Subject: Geology (GEOL)

CRN: 21199

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)

  Tatiana Vislova

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

Subject: Geology (GEOL)

CRN: 21200

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)

  Tatiana Vislova

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

Subject: Geology (GEOL)

CRN: 21202

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)

  Rebecca Clotts

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

Subject: Geology (GEOL)

CRN: 21201

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)

  Rebecca Clotts

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

Subject: Geology (GEOL)

CRN: 21203

In Person | Lecture

St Paul: Owens Science Hall 150

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Rebecca Clotts

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. Students registering for GEOL 115-01 must also register for ONE lab section GEOL 115-51, -52, -53 OR-54. NOTE: Students who receive credit for GEOL 115 may not receive credit for GEOL 102, 110, 111, or 114.

4 Credits

Subject: Geology (GEOL)

CRN: 21204

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 127

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Melissa Lamb

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. Students registering for GEOL 115-02 must also register for ONE lab section GEOL 115-55 OR -56. NOTE: Students who receive credit for GEOL 115 may not receive credit for GEOL 102, 110, 111, or 114.

4 Credits

Subject: Geology (GEOL)

CRN: 21205

In Person | Lab

St Paul: O'Shaughnessy Science Hall 124

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Anik Regan

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

Subject: Geology (GEOL)

CRN: 21206

In Person | Lab

St Paul: O'Shaughnessy Science Hall 124

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Rebecca Clotts

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

Subject: Geology (GEOL)

CRN: 21207

In Person | Lab

St Paul: O'Shaughnessy Science Hall 124

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Rebecca Clotts

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

Subject: Geology (GEOL)

CRN: 21208

In Person | Lab

St Paul: O'Shaughnessy Science Hall 124

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Tatiana Vislova

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

Subject: Geology (GEOL)

CRN: 21209

In Person | Lab

St Paul: O'Shaughnessy Science Hall 124

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Melissa Lamb

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

Subject: Geology (GEOL)

CRN: 21210

In Person | Lab

St Paul: O'Shaughnessy Science Hall 124

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     Environmental Sci. Major Appr
     Sustainability (SUST)

  Melissa Lamb

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

Subject: Geology (GEOL)

CRN: 21211

In Person | Lecture

St Paul: O'Shaughnessy Science Hall 123

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Tatiana Vislova

Geologists and environmental scientists address major issues facing society: groundwater contamination and cleanup, mitigating the affects of climate change, extracting natural resources sustainably, improving soil quality to grow food for a growing population.  These issues require fundamental knowledge of earth’s key materials.  You will study the properties of the main rocks and minerals present in the upper Midwest that are key to solving these problems. Prerequisites: One of GEOL 102, 111, 114, 115, 161, 162, 163, ESCI 132, or permission of the instructor

2 Credits

Subject: Geology (GEOL)

CRN: 21212

In Person | Lab

St Paul: O'Shaughnessy Science Hall 123

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Tatiana Vislova

Geologists and environmental scientists address major issues facing society: groundwater contamination and cleanup, mitigating the affects of climate change, extracting natural resources sustainably, improving soil quality to grow food for a growing population.  These issues require fundamental knowledge of earth’s key materials.  You will study the properties of the main rocks and minerals present in the upper Midwest that are key to solving these problems. Prerequisites: One of GEOL 102, 111, 114, 115, 161, 162, 163, ESCI 132, or permission of the instructor

0 Credits

Subject: Geology (GEOL)

CRN: 22222

In Person | Lecture

St Paul: Schoenecker Center LL03

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)
     Writing in the Discipline

  Kevin Theissen

The Earth's surface is dominated by vast oceans known for the beauty of their wildlife and waters. The oceans are also increasingly recognized for their critical importance to the functioning of the Earth's climate system and for their endangered natural resources. For example, the ocean- atmospheric climate phenomenon known as El Nino Southern Oscillation has gained household name recognition for its global impact on the weather, economy, and public health. In this course we will explore the physical, chemical, and biological processes that characterize the oceans. Students will develop research and analytical skills by making observations and interpretations of oceanographic processes using data, demonstrations, and field experiences. Prerequisites: One of GEOL 102, 110, 111, 113, 114, 115, 161, 162, or 163 or permission of instructor.

4 Credits

Subject: Geology (GEOL)

CRN: 22223

In Person | Lab

St Paul: Schoenecker Center LL03

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course
     Sustainability (SUST)
     Writing in the Discipline

  Kevin Theissen

The Earth's surface is dominated by vast oceans known for the beauty of their wildlife and waters. The oceans are also increasingly recognized for their critical importance to the functioning of the Earth's climate system and for their endangered natural resources. For example, the ocean- atmospheric climate phenomenon known as El Nino Southern Oscillation has gained household name recognition for its global impact on the weather, economy, and public health. In this course we will explore the physical, chemical, and biological processes that characterize the oceans. Students will develop research and analytical skills by making observations and interpretations of oceanographic processes using data, demonstrations, and field experiences. Prerequisites: One of GEOL 102, 110, 111, 113, 114, 115, 161, 162, or 163 or permission of instructor.

0 Credits

Subject: Physics (PHYS)

CRN: 22473

In Person | Lecture

St Paul: Owens Science Hall 250

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     FYE CommGood/Learning Comm
     School of Ed Transfer Course
     Sustainability (SUST)

Instructor: TBD

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

Subject: Physics (PHYS)

CRN: 22474

In Person | Lab

St Paul: Schoenecker Center 403

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

Instructor: TBD

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

Subject: Physics (PHYS)

CRN: 22475

In Person | Lab

St Paul: Schoenecker Center 403

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

Instructor: TBD

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

Subject: Physics (PHYS)

CRN: 21684

In Person | Lecture/Lab

St Paul: Schoenecker Center 403

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Krishna Joshi

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

Subject: Physics (PHYS)

CRN: 22438

In Person | Lecture/Lab

St Paul: Owens Science Hall 275

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Brita Nellermoe

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

Subject: Physics (PHYS)

CRN: 21685

In Person | Lecture/Lab

St Paul: Schoenecker Center 403

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Brita Nellermoe

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

Subject: Physics (PHYS)

CRN: 21686

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

  Gerry Ruch

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

Subject: Physics (PHYS)

CRN: 21687

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

  Marty Johnston

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

Subject: Physics (PHYS)

CRN: 21688

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

  Adam Green

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

Subject: Physics (PHYS)

CRN: 21689

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

  Michael Wood

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

Subject: Physics (PHYS)

CRN: 22439

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

  Adam Green

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

Subject: Physics (PHYS)

CRN: 22440

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

  Michael Wood

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

Subject: Physics (PHYS)

CRN: 21690

In Person | Lecture/Lab

St Paul: Owens Science Hall 166

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Michael Peters

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

Subject: Physics (PHYS)

CRN: 21691

In Person | Lecture/Lab

St Paul: Owens Science Hall 166

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Paul Ohmann

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

Subject: Physics (PHYS)

CRN: 21692

In Person | Lecture/Lab

St Paul: Owens Science Hall 166

Core Requirements Met:
     [Core] Natural Science

Other Requirements Met:
     School of Ed Transfer Course

  Paul Ohmann

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

Subject: Public Health (PUBH)

CRN: 20342

Blended Online & In-Person | Lecture

St Paul: Susan S. Morrison Hall 140

Core Requirements Met:
     [Core] Natural Science

  Deanna Tollefson

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

Subject: Public Health (PUBH)

CRN: 20343

Online: Asynchronous | Lab

Online

Core Requirements Met:
     [Core] Natural Science

  Funmi Knutson

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

Subject: Public Health (PUBH)

CRN: 20454

In Person | Lecture

St Paul: Susan S. Morrison Hall 120

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

This course is designed to provide students with an understanding of the biology of human/animal/environmental interactions that impact health. Students will practice evidence-based approaches to these public health issues including identifying problems and risk factors, considering evidence-based recommendations for interventionism developing strategies for putting interventions in place, and evaluating outcomes. The University of St. Thomas challenges students "... to be morally responsible leaders, who think critically, act wisely, and work skillfully towards the common good." Students completing this course will build critical thinking skills while learning fundamental concepts and practices that benefit the health of global and local communities.

4 Credits

Subject: Public Health (PUBH)

CRN: 20469

Online: Asynchronous | Lab

Online

Core Requirements Met:
     [Core] Natural Science

Instructor: TBD

This course is designed to provide students with an understanding of the biology of human/animal/environmental interactions that impact health. Students will practice evidence-based approaches to these public health issues including identifying problems and risk factors, considering evidence-based recommendations for interventionism developing strategies for putting interventions in place, and evaluating outcomes. The University of St. Thomas challenges students "... to be morally responsible leaders, who think critically, act wisely, and work skillfully towards the common good." Students completing this course will build critical thinking skills while learning fundamental concepts and practices that benefit the health of global and local communities.

0 Credits