PHYS 0401

Quantum Mechanics

Quantum Mechanics
A fundamental course in quantum mechanics aimed at understanding the mathematical structure of the theory and its application to physical phenomena at the atomic and nuclear levels. Topics include the basic postulates of quantum mechanics, operator formalism, Schrödinger equation, one-dimensional and central potentials, angular momentum and spin, perturbation theory, and systems of identical particles. (PHYS 0202 and PHYS 0212; MATH 0200 recommended) 3 hrs. lect.
Natural Sciences
Requirements Fulfilled:
Equivalent Courses:


Spring 2022

PHYS0401A-S22 Lecture (Graham)

Spring 2021

PHYS0401A-S21 Lecture (Herdman)

Spring 2020

PHYS0401A-S20 Lecture (Herdman)

Spring 2019

PHYS0401A-S19 Lecture (Herdman)

Spring 2018

PHYS0401A-S18 Lecture (Herdman)

Spring 2017

PHYS0401A-S17 Lecture (Graham)

Spring 2016

PHYS0401A-S16 Lecture (Graham)

Fall 2014

PHYS0401A-F14 Lecture (Graham)

Spring 2014

PHYS0401A-S14 Lecture (Graham)

Spring 2013

PHYS0401A-S13 Lecture (Dunham)

Fall 2011

PHYS0401A-F11 Lecture (Graham)

Fall 2010

PHYS0401A-F10 Lecture (Graham)

Fall 2009

PHYS0401A-F09 Lecture (Graham)

Fall 2008

PHYS0401A-F08 Lecture (Graham)

Fall 2007

PHYS0401A-F07 Lecture (Graham)

Fall 2006

PHYS0401A-F06 Lecture (Dunham)

Fall 2005

PHYS0401A-F05 Lecture (Graham)

Fall 2004

PHYS0401A-F04 Lecture (Graham)

Fall 2003

PHYS0401A-F03 Lecture (Graham)