Courses for Fall 2023
| Title | Instructors | Location | Time | Description | Cross listings | Fulfills | Registration notes | Syllabus | Syllabus URL | ||
|---|---|---|---|---|---|---|---|---|---|---|---|
| ASTR 0001-001 | A Survey of the Universe | Ravi K Sheth | DRLB A6 | TR 8:30 AM-9:59 AM | A general survey, designed for the non-major, of the facts and theories of the astronomical universe, from solar system, to stars, to galaxies and cosmology. Topics include planets, satellites, small objects in the solar system, and extraterrestrial life; stars, their evolution, and their final state as white dwarfs, neutron stars, or black holes; galaxies, quasars, large structures, background radiation, and big bang cosmology. Elementary algebra and geometry will be used. This course is not recommended for physical-science majors or engineering students. Engineering students receive no credit for this course. Fulfills quantitative data analysis requirement. | Physical World Sector Quantitative Data Analysis |
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| ASTR 0001-002 | A Survey of the Universe | Robyn Ellyn Sanderson | DRLB A6 | TR 10:15 AM-11:44 AM | A general survey, designed for the non-major, of the facts and theories of the astronomical universe, from solar system, to stars, to galaxies and cosmology. Topics include planets, satellites, small objects in the solar system, and extraterrestrial life; stars, their evolution, and their final state as white dwarfs, neutron stars, or black holes; galaxies, quasars, large structures, background radiation, and big bang cosmology. Elementary algebra and geometry will be used. This course is not recommended for physical-science majors or engineering students. Engineering students receive no credit for this course. Fulfills quantitative data analysis requirement. | Quantitative Data Analysis Physical World Sector |
https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=ASTR0001002 | ||||
| ASTR 0007-001 | The Big Bang and Beyond | Adam Lidz | DRLB 2C4 | MW 12:00 PM-1:29 PM | An introductory course for students who do not intend to major in a physical science or engineering, covering theories of the Universe ranging from the ancient perspective to the contemporary hot big bang model, including some notions of Einstein's special and general theories of relativity. Topics will include the solar system, stars, black holes, galaxies, and the structure, origin and future of the Universe itself. Elementary algebra is used. Fulfills quantitative data analysis requirement. | Quantitative Data Analysis Natural Sciences & Mathematics Sector |
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| ASTR 1211-001 | Introduction to Astrophysics I | James Aguirre | DRLB 3N1H | TR 12:00 PM-1:29 PM | A basic course for majors in physical sciences and engineering; required for the astrophysics concentration. The course provides fundamental knowledge of Newtonian gravity and the properties of light and matter as they are relevant for understanding astrophysical objects. Application is made to the observed features of planetary motion, the atmospheres and stars and planets, and the structure and evolution of stars. | Physical World Sector | |||||
| ASTR 5533-001 | Galaxies: Structure, Dynamics and Formation | Mariangela Bernardi | DRLB 2C4 | TR 12:00 PM-1:29 PM | Galactic structure and dynamics. Observed scaling relations. Models and observations of galaxy formation and evolution. Enrollment restricted to graduate students. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=ASTR5533001 | |||||
| PHYS 0008-001 | Physics for Architects I | William Ashmanskas | DRLB 3N1H | MW 1:45 PM-3:14 PM | An introduction to the classical laws of mechanics, including static equilibrium, elasticity, and oscillations, with emphasis on topics most relevant to students in architecture. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 091 or 093 who complete PHYS 0008 will thereby surrender the AP or Transfer Credit. | Physical World Sector | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS0008001 | ||||
| PHYS 0016-001 | Energy, Oil, and Global Warming | Gary M Bernstein | DRLB 3N1H | TR 10:15 AM-11:44 AM | The developed world's dependence on fossil fuels for energy production has extremely undesirable economic, environmental, and political consequences, and is likely to be mankind's greatest challenge in the 21st century. We describe the physical principles of energy, its production and consumption, and environmental consequences, including the greenhouse effect. We will examine a number of alternative modes of energy generation - fossil fuels, biomass, wind, solar, hydro, and nuclear - and study the physical and technological aspects of each, and their societal, environmental and economic impacts over the construction and operational lifetimes. No previous study of physics is assumed. | Natural Sciences & Mathematics Sector | |||||
| PHYS 0050-160 | Physics Laboratory I | Max M Cohen Peter Harnish |
DRLB LAB | M 7:00 PM-8:59 PM | Experiments in classical mechanics. | Quantitative Data Analysis | Perm Needed From Department | ||||
| PHYS 0051-161 | Physics Laboratory II | Amy Christine Germer Peter Harnish |
DRLB LAB | R 7:00 PM-8:59 PM | Experiments in electromagnetism and optics. | Quantitative Data Analysis | Perm Needed From Department | ||||
| PHYS 0080-001 | Physics and Consciousness | Marija Drndic | DRLB 4C4 | TR 10:15 AM-11:44 AM | We will explore the basic classical and quantum physics concepts, and link themto newly observed physical phenomena and technologies, as well as to brain research, in the context of tools that physicists helped bring about like the seminal magnetic resonance imaging. The course content is mostly physics, although we link it to cognitive sciences, but the main focus is on motivating and explaining the basic physical laws behind new phenomena and related technologies. Examples include wave-particle duality and its relevance for technological applications, behavior of spin particles in a magnetic field to explain magnetic resonance imaging, ion flow through ion channels and ohm's law to explain electrical signal flow in our body, and other examples within the core of physics and bridging to interdisciplinary areas of material science and devices, biology and neuroscience. As we learn about particle spins, we will talk about brain imaging studies enabled by Nobel winning physics research. We will then discuss consciousness and free will, and read original texts by Schrodinger, Einstein and other physicists, and our course discussion will be uniquely motivated by related physical phenomena and experiments, including quantum entanglement and relativity of space and time. I will explain the basic ideas behind quantum computing and information processing, and we we learn about basic quantum logicgates and Dirac's matrix formalism in quantum mechanics. | Natural Sciences & Mathematics Sector | |||||
| PHYS 0101-001 | General Physics: Mechanics, Heat and Sound | Mark Devlin | DRLB A2 DRLB A4 |
TR 8:30 AM-9:59 AM W 5:15 PM-6:14 PM |
An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-002 | General Physics: Mechanics, Heat and Sound | Sukalpa Basu | DRLB A6 LEVN 111 DRLB A5 |
W 3:30 PM-4:59 PM M 3:30 PM-4:29 PM M 12:00 PM-1:29 PM |
An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-101 | General Physics: Mechanics, Heat and Sound | Sage Eanet Peter Harnish |
DRLB LAB | M 1:45 PM-3:44 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-102 | General Physics: Mechanics, Heat and Sound | Yousef H Elyoussef Peter Harnish |
DRLB LAB | M 3:30 PM-5:29 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-103 | General Physics: Mechanics, Heat and Sound | Max M Cohen Peter Harnish |
DRLB LAB | T 1:45 PM-3:44 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-104 | General Physics: Mechanics, Heat and Sound | Peter Harnish Chansong Won |
DRLB LAB | T 3:30 PM-5:29 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-105 | General Physics: Mechanics, Heat and Sound | Vivek Chakrabhavi Peter Harnish |
DRLB LAB | W 1:45 PM-3:44 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-106 | General Physics: Mechanics, Heat and Sound | Peter Harnish Marija K Westfall |
DRLB LAB | F 1:45 PM-3:44 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-107 | General Physics: Mechanics, Heat and Sound | Nadia M Awad Peter Harnish |
DRLB LAB | R 1:45 PM-3:44 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-108 | General Physics: Mechanics, Heat and Sound | Peter Harnish Eitan S Weinstein |
DRLB LAB | R 3:30 PM-5:29 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-109 | General Physics: Mechanics, Heat and Sound | Hayden Bronson Peter Harnish |
DRLB LAB | F 3:30 PM-5:29 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-110 | General Physics: Mechanics, Heat and Sound | Hayden Bronson Peter Harnish |
DRLB LAB | W 7:00 PM-8:59 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-111 | General Physics: Mechanics, Heat and Sound | Peter Harnish Cole Foxon Meldorf |
DRLB LAB | R 5:15 PM-7:14 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-601 | General Physics: Mechanics, Heat and Sound | Sukalpa Basu Jianrong Tan |
DRLB 3N1H | MW 5:15 PM-6:44 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0101-602 | General Physics: Mechanics, Heat and Sound | Hayden Bronson Peter Harnish |
DRLB LAB | M 7:00 PM-8:59 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-603 | General Physics: Mechanics, Heat and Sound | Vivek Chakrabhavi Peter Harnish |
DRLB LAB | M 7:00 PM-8:59 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0101-604 | General Physics: Mechanics, Heat and Sound | Vivek Chakrabhavi Peter Harnish |
DRLB LAB | W 7:00 PM-8:59 PM | An introduction to the classical laws of motion, including kinematics, forces in nature, Newton's laws of motion, conservation of energy and momentum, fluid statics and dynamics, oscillations, and waves. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, or PHYS 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0101 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0102-001 | General Physics: Electromagnetism, Optics, and Modern Physics | James M Kikkawa | GLAB 101 DRLB A6 |
TR 10:15 AM-11:44 AM W 10:15 AM-11:14 AM |
A continuation of PHYS 0101 emphasizing an introduction to classical electricity and magnetism, light and optics, special relativity, the quantum theory of matter, and nuclear physics. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0009, 0102, 0151, 0171. Students with AP or Transfer Credit for PHYS who complete PHYS 0102 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0102-111 | General Physics: Electromagnetism, Optics, and Modern Physics | Peter Harnish Chris Nathan Zelonis |
DRLB LAB | M 1:45 PM-3:44 PM | A continuation of PHYS 0101 emphasizing an introduction to classical electricity and magnetism, light and optics, special relativity, the quantum theory of matter, and nuclear physics. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0009, 0102, 0151, 0171. Students with AP or Transfer Credit for PHYS who complete PHYS 0102 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0102-112 | General Physics: Electromagnetism, Optics, and Modern Physics | Peter Harnish Leah Y Tesfa |
DRLB LAB | R 3:30 PM-5:29 PM | A continuation of PHYS 0101 emphasizing an introduction to classical electricity and magnetism, light and optics, special relativity, the quantum theory of matter, and nuclear physics. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0009, 0102, 0151, 0171. Students with AP or Transfer Credit for PHYS who complete PHYS 0102 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0102-113 | General Physics: Electromagnetism, Optics, and Modern Physics | Peter Harnish Jonathan M Hess |
DRLB LAB | R 7:00 PM-8:59 PM | A continuation of PHYS 0101 emphasizing an introduction to classical electricity and magnetism, light and optics, special relativity, the quantum theory of matter, and nuclear physics. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0009, 0102, 0151, 0171. Students with AP or Transfer Credit for PHYS who complete PHYS 0102 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0102-114 | General Physics: Electromagnetism, Optics, and Modern Physics | Peter Harnish Jonathan M Hess |
DRLB LAB | F 1:45 PM-3:44 PM | A continuation of PHYS 0101 emphasizing an introduction to classical electricity and magnetism, light and optics, special relativity, the quantum theory of matter, and nuclear physics. Suggested for students in a pre-health program. Credit is awarded for only one of the following courses: PHYS 0009, 0102, 0151, 0171. Students with AP or Transfer Credit for PHYS who complete PHYS 0102 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0140-401 | Principles of Physics I (without laboratory) | Paul J Angiolillo | DRLB A6 DRLB A4 |
F 8:30 AM-9:29 AM MW 8:30 AM-9:59 AM |
The topics of this calculus-based course are: Classical laws of motions; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Engineering students only. | PHYS0150401 | |||||
| PHYS 0140-402 | Principles of Physics I (without laboratory) | Arnold Mathijssen | DRLB A8 DRLB A5 |
W 12:00 PM-12:59 PM TR 8:30 AM-9:59 AM |
The topics of this calculus-based course are: Classical laws of motions; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Engineering students only. | PHYS0150402 | |||||
| PHYS 0140-403 | Principles of Physics I (without laboratory) | Dylan S Rankin | DRLB A5 DRLB A5 MOOR 216 |
W 12:00 PM-1:59 PM F 12:00 PM-12:59 PM M 12:00 PM-12:59 PM |
The topics of this calculus-based course are: Classical laws of motions; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Engineering students only. | PHYS0150403 | |||||
| PHYS 0140-404 | Principles of Physics I (without laboratory) | Robert R Johnson | DRLB A5 DRLB A2 |
TR 10:15 AM-11:44 AM W 10:15 AM-11:14 AM |
The topics of this calculus-based course are: Classical laws of motions; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Engineering students only. | PHYS0150404 | |||||
| PHYS 0140-405 | Principles of Physics I (without laboratory) | Martin Claassen | FAGN 114 DRLB A5 DRLB A5 |
MW 10:15 AM-11:14 AM M 1:45 PM-2:44 PM F 10:15 AM-11:14 AM |
The topics of this calculus-based course are: Classical laws of motions; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Engineering students only. | PHYS0150405 | |||||
| PHYS 0141-401 | Principles of Physics II (without laboratory) | Bo Zhen | DRLB 4C2 DRLB A2 |
W 10:15 AM-11:14 AM TR 10:15 AM-11:44 AM |
The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Engineering students only. | PHYS0151401 | |||||
| PHYS 0141-402 | Principles of Physics II (without laboratory) | Liang Wu | DRLB A5 DRLB 3N1H DRLB A6 |
F 1:45 PM-3:14 PM W 12:00 PM-12:59 PM M 1:45 PM-3:14 PM |
The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Engineering students only. | PHYS0151402 | |||||
| PHYS 0150-121 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Magdalena Li Miller |
DRLB LAB | M 1:45 PM-3:44 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0150-122 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Margot Shuen Jia Young |
DRLB LAB | M 3:30 PM-5:29 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-123 | Principles of Physics I: Mechanics and Wave Motion | Grace Niway Chang Peter Harnish |
DRLB LAB | M 5:15 PM-7:14 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-124 | Principles of Physics I: Mechanics and Wave Motion | Max M Cohen Peter Harnish |
DRLB LAB | M 7:00 PM-8:59 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0150-125 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Hannah Nan Xiao |
DRLB LAB | T 1:45 PM-3:44 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-129 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Luyando Kwenda |
DRLB LAB | W 1:45 PM-3:44 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-130 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Peilin Ye |
DRLB LAB | W 3:30 PM-5:29 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-131 | Principles of Physics I: Mechanics and Wave Motion | Max M Cohen Peter Harnish |
DRLB LAB | W 5:15 PM-7:14 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0150-132 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Amrut Nadgir |
DRLB LAB | F 5:15 PM-7:14 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-133 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Hannah Nan Xiao |
DRLB LAB | R 1:45 PM-3:44 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-134 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Peilin Ye |
DRLB LAB | R 3:30 PM-5:29 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-135 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Amrut Nadgir |
DRLB LAB | R 5:15 PM-7:14 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-137 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Amrut Nadgir |
DRLB LAB | F 1:45 PM-3:44 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0150-138 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Qi Bin Lei |
DRLB LAB | F 3:30 PM-5:29 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-139 | Principles of Physics I: Mechanics and Wave Motion | Cristian A Gonzalez Paqui Peter Harnish |
DRLB LAB | M 12:00 PM-1:59 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-140 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Jonathan M Hess |
DRLB LAB | T 12:00 PM-1:59 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0150-141 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish | DRLB LAB | CANCELED | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-142 | Principles of Physics I: Mechanics and Wave Motion | Peter Harnish Ravi Carpen Pitelka |
DRLB LAB | R 12:00 PM-1:59 PM | This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0150-401 | Principles of Physics I: Mechanics and Wave Motion | Paul J Angiolillo | DRLB A4 DRLB A6 |
MW 8:30 AM-9:59 AM F 8:30 AM-9:29 AM |
This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | PHYS0140401 | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-402 | Principles of Physics I: Mechanics and Wave Motion | Arnold Mathijssen | DRLB A8 DRLB A5 |
W 12:00 PM-12:59 PM TR 8:30 AM-9:59 AM |
This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | PHYS0140402 | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-403 | Principles of Physics I: Mechanics and Wave Motion | Dylan S Rankin | DRLB A5 DRLB A5 MOOR 216 |
F 12:00 PM-12:59 PM W 12:00 PM-1:59 PM M 12:00 PM-12:59 PM |
This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | PHYS0140403 | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-404 | Principles of Physics I: Mechanics and Wave Motion | Robert R Johnson | DRLB A2 DRLB A5 |
W 10:15 AM-11:14 AM TR 10:15 AM-11:44 AM |
This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | PHYS0140404 | Quantitative Data Analysis Physical World Sector |
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| PHYS 0150-405 | Principles of Physics I: Mechanics and Wave Motion | Martin Claassen | FAGN 114 DRLB A5 DRLB A5 |
MW 10:15 AM-11:14 AM M 1:45 PM-2:44 PM F 10:15 AM-11:14 AM |
This calculus-based course is recommended for science majors and engineering students. Classical laws of motion; interactions between particles; conservation laws and symmetry principles; particle and rigid body motion; gravitation, harmonic motion, and applications of mechanics to real-world problems. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, 0150, 0170. Students with AP or Transfer Credit for PHYS 0101, or PHYS 0150 who complete PHYS 0150 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0150 should already have taken MATH 1400 or the equivalent, or be taking it simultaneously with PHYS 0150. | PHYS0140405 | Quantitative Data Analysis Physical World Sector |
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| PHYS 0151-151 | Principles of Physics II: Electromagnetism and Radiation | Peter Harnish Jack J Kollmar |
DRLB LAB | M 1:45 PM-3:44 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0151-152 | Principles of Physics II: Electromagnetism and Radiation | Kalindi Gosine Peter Harnish |
DRLB LAB | M 5:15 PM-7:14 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0151-153 | Principles of Physics II: Electromagnetism and Radiation | Peter Harnish Suhani Niraj Patel |
DRLB LAB | W 1:45 PM-3:44 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0151-154 | Principles of Physics II: Electromagnetism and Radiation | Amy Christine Germer Peter Harnish |
DRLB LAB | R 7:00 PM-8:59 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0151-155 | Principles of Physics II: Electromagnetism and Radiation | Amy Christine Germer Peter Harnish |
DRLB LAB | F 1:45 PM-3:44 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0151-157 | Principles of Physics II: Electromagnetism and Radiation | Amy Christine Germer Peter Harnish |
DRLB LAB | W 5:15 PM-7:14 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0151-158 | Principles of Physics II: Electromagnetism and Radiation | Peter Harnish Anthony E Mohr |
DRLB LAB | T 1:45 PM-3:44 PM | The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0151-401 | Principles of Physics II: Electromagnetism and Radiation | Bo Zhen | DRLB 4C2 DRLB A2 |
W 10:15 AM-11:14 AM TR 10:15 AM-11:44 AM |
The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | PHYS0141401 | Physical World Sector Quantitative Data Analysis |
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| PHYS 0151-402 | Principles of Physics II: Electromagnetism and Radiation | Liang Wu | DRLB A5 DRLB A6 DRLB 3N1H |
F 1:45 PM-3:14 PM M 1:45 PM-3:14 PM W 12:00 PM-12:59 PM |
The topics of this calculus-based course are electric and magnetic fields; Coulomb's, Gauss's, Ampere's, and Faraday's laws; DC and AC circuits; Maxwell's equations and electromagnetic radiation. Credit is awarded for only one of the following courses. PHYS 0009, PHYS 0102, PHYS 0151, PHYS 0171. Students with AP or Transfer Credit for PHYS 0102 or PHYS 0151 who complete PHYS 0151 will thereby surrender the AP or Transfer Credit. Prerequisite: Students in PHYS 0151 should already have taken MATH 1410 or the equivalent, or betaking it simultaneously with PHYS 0151. | PHYS0141402 | Physical World Sector Quantitative Data Analysis |
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| PHYS 0170-101 | Honors Physics I: Mechanics and Wave Motion | Peter Harnish Ravi Carpen Pitelka |
DRLB LAB | T 1:45 PM-3:44 PM | This course parallels and extends the content of PHYS 0150, at a significantly higher mathematical level. Recommended for well-prepared students in engineering and the physical sciences, and particularly for those planning to major in physics. Classical laws of motion: interaction between particles; conservation laws and symmetry principles; rigid body motion; non-inertial reference frames; oscillations. Prerequisite: Benjamin Franklin Seminar. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, PHYS 0170. Students with AP or Transfer Credit for PHYS 0101 or PHYS 0150 who complete PHYS 0170 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0170-102 | Honors Physics I: Mechanics and Wave Motion | Peter Harnish Ravi Carpen Pitelka |
DRLB LAB | W 1:45 PM-3:44 PM | This course parallels and extends the content of PHYS 0150, at a significantly higher mathematical level. Recommended for well-prepared students in engineering and the physical sciences, and particularly for those planning to major in physics. Classical laws of motion: interaction between particles; conservation laws and symmetry principles; rigid body motion; non-inertial reference frames; oscillations. Prerequisite: Benjamin Franklin Seminar. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, PHYS 0170. Students with AP or Transfer Credit for PHYS 0101 or PHYS 0150 who complete PHYS 0170 will thereby surrender the AP or Transfer Credit. | Quantitative Data Analysis Physical World Sector |
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| PHYS 0170-103 | Honors Physics I: Mechanics and Wave Motion | Peter Harnish Margot Shuen Jia Young |
CANCELED | This course parallels and extends the content of PHYS 0150, at a significantly higher mathematical level. Recommended for well-prepared students in engineering and the physical sciences, and particularly for those planning to major in physics. Classical laws of motion: interaction between particles; conservation laws and symmetry principles; rigid body motion; non-inertial reference frames; oscillations. Prerequisite: Benjamin Franklin Seminar. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, PHYS 0170. Students with AP or Transfer Credit for PHYS 0101 or PHYS 0150 who complete PHYS 0170 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 0170-301 | Honors Physics I: Mechanics and Wave Motion | Elliot Lipeles | DRLB A4 CHEM B13 |
M 1:45 PM-2:44 PM MWF 10:15 AM-11:14 AM |
This course parallels and extends the content of PHYS 0150, at a significantly higher mathematical level. Recommended for well-prepared students in engineering and the physical sciences, and particularly for those planning to major in physics. Classical laws of motion: interaction between particles; conservation laws and symmetry principles; rigid body motion; non-inertial reference frames; oscillations. Prerequisite: Benjamin Franklin Seminar. Credit is awarded for only one of the following courses: PHYS 0008, PHYS 0101, PHYS 0150, PHYS 0170. Students with AP or Transfer Credit for PHYS 0101 or PHYS 0150 who complete PHYS 0170 will thereby surrender the AP or Transfer Credit. | Physical World Sector Quantitative Data Analysis |
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| PHYS 1230-001 | Principles of Physics III: Thermal Physics and Waves | Evelyn Thomson | DRLB A4 | MWF 12:00 PM-12:59 PM | Laws of thermodynamics, gas laws and heat engines. Waves on a string, electromagnetic waves including optical phenomena such as refraction, interference and diffraction. Introduction to special relativity including time dilation, length contraction, simultaneity, Lorentz transforms and relativistic energy and momentum. Students are encouraged but not required to take Math 2400 concurrently or in advance. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS1230001 | |||||
| PHYS 2280-401 | Physical Models of Biological Systems | Philip C Nelson | DRLB A6 TOWN 313 |
W 1:45 PM-3:14 PM M 1:45 PM-3:14 PM |
Classic case studies of successful reductionistic models of complex phenomena, emphasizing the key steps of making estimates, using them to figure out which physical variables and phenomena will be most relevant to a given system, finding analogies to purely physical systems whose behavior is already known, and embodying those in a mathematical model, which is often implemented in computer code. Topics may include bacterial genetics, genetic switches and oscillators; systems that sense or utilize light; superresolution and other newmicroscopy methods; and vision and other modes of sensory transduction. | BCHE2280401 | Natural Sciences & Mathematics Sector | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS2280401 | |||
| PHYS 3314-401 | Ocean-Atmosphere Dynamics and Implications for Future Climate Change | Irina Marinov | HAYD 360 | MW 3:30 PM-4:59 PM | This course covers the fundamentals of atmosphere and ocean dynamics, and aims to put these in the context of climate change in the 21st century. Large-scale atmospheric and oceanic circulation, the global energy balance, and the global energy balance, and the global hydrological cycle. We will introduce concepts of fluid dynamics and we will apply these to the vertical and horizontal motions in the atmosphere and ocean. Concepts covered include: hydrostatic law, buoyancy and convection, basic equations of fluid motions, Hadley and Ferrel cells in the atmosphere, thermohaline circulation, Sverdrup ocean flow, modes of climate variability (El-Nino, North Atlantic Oscillation, Southern Annular Mode). The course will incorporate student led discussions based on readings of the 2007 Intergovernmental Panel on Climate Change (IPCC) report and recent literature on climate change. Aimed at undergraduate or graduate students who have no prior knowledge of meteorology or oceanography or training in fluid mechanics. Previous background in calculus and/or introductory physics is helpful. This is a general course which spans many subdisciplines (fluid mechanics, atmospheric science, oceanography, hydrology). | EESC4336401, EESC6336401 | |||||
| PHYS 3314-402 | Ocean-Atmosphere Dynamics and Implications for Future Climate Change | Irina Marinov | DRLB 2C2 | F 1:45 PM-2:44 PM | This course covers the fundamentals of atmosphere and ocean dynamics, and aims to put these in the context of climate change in the 21st century. Large-scale atmospheric and oceanic circulation, the global energy balance, and the global energy balance, and the global hydrological cycle. We will introduce concepts of fluid dynamics and we will apply these to the vertical and horizontal motions in the atmosphere and ocean. Concepts covered include: hydrostatic law, buoyancy and convection, basic equations of fluid motions, Hadley and Ferrel cells in the atmosphere, thermohaline circulation, Sverdrup ocean flow, modes of climate variability (El-Nino, North Atlantic Oscillation, Southern Annular Mode). The course will incorporate student led discussions based on readings of the 2007 Intergovernmental Panel on Climate Change (IPCC) report and recent literature on climate change. Aimed at undergraduate or graduate students who have no prior knowledge of meteorology or oceanography or training in fluid mechanics. Previous background in calculus and/or introductory physics is helpful. This is a general course which spans many subdisciplines (fluid mechanics, atmospheric science, oceanography, hydrology). | EESC4336402, EESC6336402 | |||||
| PHYS 3361-401 | Electromagnetism I: Electricity and Potential Theory | Eugene J Mele | MOOR 216 | TR 10:15 AM-11:44 AM | First term course in intermediate electromagnetism. Topics include electrostatics, static potential theory, multipole expansions, Laplace equation, image solutions, fields in polarized matter. | PHYS5561401 | |||||
| PHYS 3364-401 | Laboratory Electronics | William Ashmanskas | DRLB 2N25 | TR 1:45 PM-4:44 PM | A laboratory-intensive survey of analog and digital electronics, intended to teach students of physics or related fields enough electronics to be effective in experimental research and to be comfortable learning additional topics from reference textbooks. Analog topics include voltage dividers, impedance, filters, operational amplifier circuits, and transistor circuits. Digital topics may include logic gates, finite-state machines, programmable logic devices, digital-to-analog and analog-to-digital conversion, and microcomputer concepts. Recommended for students planning to do experimental work in physical science. | PHYS5564401 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS3364401 | ||||
| PHYS 4401-401 | Thermodynamics and the Introduction to Statistical Mechanics and Kinetic Theory | Alan T Johnson | MCNB 286-7 | TR 12:00 PM-1:29 PM | Entropy, temperature, and introduction to ensemble theory, distribution functions, and phase transitions. | PHYS5581401 | |||||
| PHYS 4411-401 | Introduction to Quantum Mechanics I | Charles L Kane | DRLB A4 | MWF 10:15 AM-11:14 AM | An introduction to the principles of quantum mechanics designed for physics majors and graduate students in physics-related disciplines. The Schrodinger equation operator formalism, central field problem, angular momentum, and spin.Application to one-dimensional and central field problems. | PHYS5511401 | |||||
| PHYS 5500-401 | Mathematical Methods of Physics | Randall Kamien | DRLB 2C8 | TR 10:15 AM-11:44 AM | A discussion of those concepts and techniques of classical analysis employed inphysical theories. Topics include complex analysis. Fourier series and transforms, ordinary and partial equations, Hilbert spaces, among others. | MATH5940401 | |||||
| PHYS 5511-401 | Introduction to Quantum Mechanics | Charles L Kane | DRLB A4 | MWF 10:15 AM-11:14 AM | An introduction to the principles of quantum mechanics designed for physics majors and graduate students in physics-related disciplines. The Schrodinger equation operator formalism, central field problem, angular momentum, and spin.Application to one-dimensional and central field problems. | PHYS4411401 | |||||
| PHYS 5531-001 | Quantum Mechanics I | Justin Khoury | DRLB 2C8 | MR 3:30 PM-5:00 PM | Graduate-level introduction to quantum theory. Topics covered include the postulates of quantum mechanics, unitary operators, time evolution and Schrodinger's equation, theory of angular momentum, density matrices, and Bell's inequalities. Other topics may include semi-classical (WKB) approximation, bound state techniques, periodic potentials and resonance phenomena. | ||||||
| PHYS 5533-001 | Topics in Data-Oriented Cosmology | Mathew Madhavacheril | DRLB 2C8 | TR 1:45 PM-3:14 PM | This course aims to survey three or four topics of current research interest in cosmology, mostly at the level of review articles. The topics will be covered in greater depth and with more connections to ongoing research than an introductory cosmology course. The course will be largely accessible to first and second year graduate students. Some exposure to cosmology and general relativity will be helpful but the first two weeks will attempt to bridge that gap. The topic selection will be done in part with input from the students. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS5533001 | |||||
| PHYS 5561-401 | Electromagnetism I | Eugene J Mele | MOOR 216 | TR 10:15 AM-11:44 AM | First term course in intermediate electromagnetism. Topics include electrostatics, static potential theory, multipole expansions, Laplace equation, image solutions, fields in polarized matter. | PHYS3361401 | |||||
| PHYS 5564-401 | Laboratory Electronics | William Ashmanskas | DRLB 2N25 | TR 1:45 PM-4:44 PM | A laboratory-intensive survey of analog and digital electronics, intended to teach students of physics or related fields enough electronics to be comfortable learning additional topics on their own from a reference such as Horowitz and Hill. Specific topics will vary from year to year from the selection of topics listed below. Analog topics may include voltage dividers, impedance, filters, operational amplifier circuits, and transistor circuits. Digital topics may include logic gates, finite-state machines, programmable logic devices, digital-to-analog and analog-to-digital conversion, and microcomputer concepts. Recommended for students planning to do experimental work in physical science. Prerequisite: Familiarity with electricity and magnetism at the level of PHYS 0102, PHYS 0141, PHYS 0151, and PHYS 0171. | PHYS3364401 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS5564401 | ||||
| PHYS 5581-401 | Thermodynamics | Alan T Johnson | MCNB 286-7 | TR 12:00 PM-1:29 PM | Entropy, temperature, and introduction to ensemble theory, distribution functions, and phase transitions. | PHYS4401401 | |||||
| PHYS 6601-001 | Introduction to Field Theory | Jonathan Heckman | DRLB 2C8 | TR 12:00 PM-1:29 PM | Elementary relativistic quantum field theory of scalar, fermion, and Abelian gauge fields. Feynman Diagrams. | ||||||
| PHYS 6611-001 | Statistical Mechanics | Vijay Balasubramanian | DRLB 2C4 | MW 10:15 AM-11:44 AM | Introduction to the canonical structure and formulation of modern statistical mechanics. The thermodynamic limit. Entropic and depletion forces. Gas and liquid theory. Phase transitions and critical phenomena. The virial expansion. Quantum statistics. Path integrals, the Fokker-Planck equation and stochastic processes. | ||||||
| PHYS 6633-001 | Relativistic Quantum Field Theory | Mirjam Cvetic | DRLB 2C6 | MW 8:30 AM-9:59 AM | A continuation of PHYS 6632, dealing with non-Abelian gauge theories. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=PHYS6633001 |