FYSE1039A-S23
Symmetry in the Physical World
Symmetry in the Physical World
Beyond the familiar symmetry of human-made objects, there are fundamental symmetries that underlie the laws of nature. In this course we will explore how these symmetries impact the nature of matter and forces. We will investigate the life and ideas of Emmy Noether, the 20th century mathematician who formulated our modern understanding of symmetry in physics. Our discussions will touch on a wide range of physical concepts, including the principle of conservation of energy, the Big Bang, superconductivity, and the recently discovered Higgs particle. Our readings and discussions will be based on historical and scientific texts and popular science books.
Beyond the familiar symmetry of human-made objects, there are fundamental symmetries that underlie the laws of nature. In this course we will explore how these symmetries impact the nature of matter and forces. We will investigate the life and ideas of Emmy Noether, the 20th century mathematician who formulated our modern understanding of symmetry in physics. Our discussions will touch on a wide range of physical concepts, including the principle of conservation of energy, the Big Bang, superconductivity, and the recently discovered Higgs particle. Our readings and discussions will be based on historical and scientific texts and popular science books.
- Term:
- Spring 2023
- Location:
- McCardell Bicentennial Hall 438(MBH 438)
- Schedule:
- 2:15pm-3:30pm on Tuesday, Thursday (Feb 13, 2023 to May 15, 2023)
- Type:
- Seminar
- Course Modality:
- In-Person
- Instructors:
- Chris Herdman
- Subject:
- First Year Seminar
- Department:
- First-Year Seminar Program
- Division:
- Interdisciplinary
- Requirements Fulfilled:
- CW SCI
- Levels:
- Undergraduate
- Availability:
- View availability, prerequisites, and other requirements.
- Course Reference Number (CRN):
- 22736
- Subject Code:
- FYSE
- Course Number:
- 1039
- Section Identifier:
- A