Your browser is unsupported
We recommend using the latest version of IE11, Edge, Chrome, Firefox or Safari.
University of Illinois Chicago
Search the site
Toggle Menu
Search
University of Illinois Chicago
Chemistry 542 Quantum Mechanics
Main Menu
Syllabus
Schedule
Assignments
Resources
People
Eyebrow menu
Blackboard
Piazza Class Forum
Global UIC menu
UIC.edu
Campus Map
Search
Chemistry 542 Quantum Mechanics
Chemistry College Of Liberal Arts And Sciences
Addition of Angular Momemtum
December 1, 2021
Raising and lowering operators!
Lectures, Discussions, Labs
Back to main content
Clebsch-Gordan Tables
Problem Set 10 Review
Addition of Angular Momemtum
Angular Momentum Review
Degenerate Perturbation Theory
Perturbation Theory
The Split Operator Method
The Finite Difference Method
Two Level Systems and Intro to the FDM Method
Two Level Systems
Creation and Annihilation Operators Pt. II
Problem Set 9 Review
Introduction to Creation / Annihilation Operators
Time Evolution: The Heisenberg x(t) and p(t) Operators
The Heisenberg Equation of Motion
Time Evolution of States
Exam 2
Expectation Values for Time Evolving States
Problem Set 8 Review
Time Evolution: The Dyson Series
Introduction to Time Evolution
Fourier Transformation between X and P
Problem Set 7 Review
The Momentum Operator
Continuous States
Unitary Transformation of Operators and Eigenvectors
Problem Set 6 Review
Unitary Operators and Transformation of Basis
The Uncertainty Principle Pt. I
Pauli Spin Operators and Commutation
Spin States and Operators
Operators as Matrices Pt. II
Functions of Operators and Matrix Representation
More on Operators
Exam 1
Dirac Notation: Introduction to Operators
Introduction to Dirac Notation
Multielectron Atoms
The Particle in a Sphere
The Particle in a Ring
Introduction to Multidimensional Quantum Mechanics
Resonance on 1D Potential Surfaces
Scattering Resonances, the Double Delta Potential
Particle in a Finite Box
Problem Set 1 Review
Flat Potential Wavefunctions
One-dimensional Wave Mechanics
Diffraction of Matter
Introduction to Wave Equations