Quantum Mechanics 101 An introductory course
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The following lessons link you to a series of two online courses conducted by Marianne Breinig at The University of Tennessee at Knoxville. Free-Ed.Net is not endorsed or affiliated with this resource provider. Lesson 1: The Fundamental Assumptions of Quantum Mechanics Lesson 2: Square Potentials Lesson 3: Mathematical Foundations Lesson 4: The Postulates of Quantum Mechanics Lesson 5: Representations Lesson 6: The Density Matrix Lesson 7: The WKB Approximation Lesson 8: The Harmonic Oscillator Lesson 9: Two-Level Systems (A Spin 1/2 particle) Lesson 10: Two Spin 1/2 particles Lesson 11: Angular Momentum Lesson 12: Symmetries and Constants of Motion Lesson 13: A Particle in a Central Field Lesson 14: Hydrogenic Systems Lesson 15: Diatomic Molecules Lesson 16: Addition of Angular Momentum Lesson 17: Gauge Transformations, Flux Quantization, Propagator Lesson 18: Periodic Systems Lesson 19: Scattering Lesson 20: Approximation Methods for bound states Lesson 21: The fine structure and hyperfine structure of H Lesson 22: Time Dependent Perturbation Theory Lesson 23: Identical Particles Lesson 24: Current Topics
The following lessons link you to a series of two online courses conducted by Marianne Breinig at The University of Tennessee at Knoxville. Free-Ed.Net is not endorsed or affiliated with this resource provider.
Lesson 1: The Fundamental Assumptions of Quantum Mechanics
Lesson 2: Square Potentials
Lesson 3: Mathematical Foundations
Lesson 4: The Postulates of Quantum Mechanics
Lesson 5: Representations
Lesson 6: The Density Matrix
Lesson 7: The WKB Approximation
Lesson 8: The Harmonic Oscillator
Lesson 9: Two-Level Systems (A Spin 1/2 particle)
Lesson 10: Two Spin 1/2 particles
Lesson 11: Angular Momentum
Lesson 12: Symmetries and Constants of Motion
Lesson 13: A Particle in a Central Field
Lesson 14: Hydrogenic Systems
Lesson 15: Diatomic Molecules
Lesson 16: Addition of Angular Momentum
Lesson 17: Gauge Transformations, Flux Quantization, Propagator
Lesson 18: Periodic Systems
Lesson 19: Scattering
Lesson 20: Approximation Methods for bound states
Lesson 21: The fine structure and hyperfine structure of H
Lesson 22: Time Dependent Perturbation Theory
Lesson 23: Identical Particles
Lesson 24: Current Topics
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Revised: May 21, 2012
