Quantum Mechanics SWBQs
Helping Find the Equation of Motion for a Particle on a Ring
What's the Energy of a Free Particle?
What's the Hamiltonian of a Free Particle?
Determining Radial Wave Functions
Examining the Particle Confined to a Ring
Operating on Spherical Harmonics
Using Rydberg's Formula
Drawing Bound States
Showing Two Vectors are Eigenstates in a 2-Well System
Naming Types of Periodic Systems
Practice with an LCAO
Single Simple Harmonic Oscillator
Angular Momentum Review
Completeness Relation for a Three-Level System
Changing Basis with Completeness in Dirac Notation
Computing Outer Products
Properties of Outer Products
Projection Operator in Dirac Notation
Computing Inner Products
Drawing the Probability Distribution of a Normalized Wave Function
Drawing the Plot of a Normalized Wave Function
Angular Momentum Review
Interpret Delta Function Wave Function (a,b,c,d)
Physically Interpreting the Plot of a Wave Function
Basic Probability (Conceptual)
Ket to Matrix (y/n)
Ket to Matrix in New Basis
Momentum Eigenvalue by Dimensions (a,b,c,d)
Guessing Momentum as a Differential Operator (a,b,c,d)
Expectation Value of Momentum with Wave Functions
Expectation Value of Momentum with Wave Functions (a,b,c,d)
Normalization from Probability Density Graph (y/n)
Normalization from Wave Function Graph (y/n)
Outer Products in Matrix Notation
Outer Product Acting on a Wave Function
Factoring Overall Phases
SWBQ Sequence
Interpreting Stern-Gerlach with Dirac Notation
Interpreting Stern-Gerlach with Dirac Notation
Converting a Simple Spin-1 Bra-ket Function into Matrix Notation
Guessing the Form of Spin Along x in Terms of z
Converting a Simple Spin-half Bra-ket State into its Matrix Representation in another Basis
Calculating the $S^{2}$ Matrix
Collapsing a Quantum State
The $S_{z}$ Operator
The Hamiltonian in V(x)
Dimensions of the Wave Function
Wave Function Manipulations
Wave Functions and Probability Density Implications (a,b,c,d)
The Hamiltonian in V(x)
Understanding Eigenvalue Equations
Expectation Values in the Wave Function Representation
Wave Functions in an Infinite Potential Well
Normalizing Wave Functions
Orthogonality in the Wave Function Representation
Recalling Schroedinger's Equation
Calculating Expectation Values in Superposition States