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Physics
Quantum Physics
Quantum Mechanics
1. Historical Development and Foundations
2. Mathematical Foundations
3. Wave Function Formalism
4. Quantum Mechanical Operators
5. Hilbert Space and Dirac Notation
6. One-Dimensional Systems
7. Three-Dimensional Systems
8. Angular Momentum Theory
9. The Hydrogen Atom
10. Approximation Methods
11. Identical Particles and Many-Body Systems
12. Scattering Theory
13. Quantum Mechanics of Radiation
14. Relativistic Quantum Mechanics
15. Interpretations and Foundations
16. Advanced Topics
8.
Angular Momentum Theory
8.1.
Classical Angular Momentum
8.1.1.
Orbital Angular Momentum
8.1.2.
Conservation Laws
8.1.3.
Central Force Motion
8.2.
Quantum Angular Momentum
8.2.1.
Angular Momentum Operators
8.2.2.
Commutation Relations
8.2.3.
Eigenvalue Problem
8.2.4.
Quantum Numbers
8.3.
Orbital Angular Momentum
8.3.1.
Spherical Harmonics
8.3.2.
Quantum Numbers l and m
8.3.3.
Addition of Angular Momenta
8.3.4.
Clebsch-Gordan Coefficients
8.4.
Spin Angular Momentum
8.4.1.
Stern-Gerlach Experiment
8.4.2.
Spin Operators
8.4.3.
Pauli Matrices
8.4.4.
Spinors
8.4.5.
Spin-1/2 Systems
8.5.
Total Angular Momentum
8.5.1.
Coupling Schemes
8.5.2.
j-j Coupling
8.5.3.
L-S Coupling
8.5.4.
Wigner-Eckart Theorem
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9. The Hydrogen Atom