PHYS 0350
Statistical Mechanics
Statistical Mechanics
This course is a study of statistical mechanics and its applications to a variety of classical and quantum systems. It includes a discussion of microstates, macrostates, and entropy, and systematically introduces the microcanonical, canonical, grand canonical, and isobaric ensembles. This underlying theory is applied to topics including classical thermodynamics, the equipartition theorem, electromagnetic blackbody radiation, heat capacities of solids, and ideal classical and quantum gases, with a focus on Bose-Einstein condensation and degenerate Fermi systems. (PHYS 0202 or PHYS 0218) 3 hrs. lect.
This course is a study of statistical mechanics and its applications to a variety of classical and quantum systems. It includes a discussion of microstates, macrostates, and entropy, and systematically introduces the microcanonical, canonical, grand canonical, and isobaric ensembles. This underlying theory is applied to topics including classical thermodynamics, the equipartition theorem, electromagnetic blackbody radiation, heat capacities of solids, and ideal classical and quantum gases, with a focus on Bose-Einstein condensation and degenerate Fermi systems. (PHYS 0202 or PHYS 0218) 3 hrs. lect.
- Subject:
- Physics
- Department:
- Physics
- Division:
- Natural Sciences
- Requirements Fulfilled:
- Equivalent Courses:
Sections
Fall 2024
Spring 2024
Fall 2022
Spring 2021
Spring 2020
Fall 2017
Fall 2015
Fall 2013
Fall 2011
Spring 2010
Spring 2008
Spring 2007
PHYS0350A-S07 Lecture