Quantum Physics I (Spring 2013)
About Course
An expert-level course from MIT OpenCourseWare on Quantum Physics, covering superposition, the wave function, Schrödinger’s equation, and the physics of periodic lattices and entanglement.
Course Content
Quantum Physics I (Spring 2013)
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Lecture 1: Introduction to Superposition
01:16:06 -
Lecture 2: Experimental Facts of Life
01:20:12 -
Lecture 3: The Wave Function
01:17:54 -
Lecture 4: Expectations, Momentum, and Uncertainty
01:20:07 -
Lecture 5: Operators and the Schrödinger Equation
01:23:14 -
Lecture 6: Time Evolution and the Schrödinger Equation
01:22:18 -
Lecture 7: More on Energy Eigenstates
01:15:53 -
Lecture 8: Quantum Harmonic Oscillator
01:21:00 -
Lecture 9: Operator Methods for the Harmonic Oscillator
01:17:53 -
Lecture 10: Clicker Bonanza and Dirac Notation
01:21:32 -
Lecture 11: Dispersion of the Gaussian and the Finite Well
01:21:04 -
Lecture 12: The Dirac Well and Scattering off the Finite Step
01:23:48 -
Lecture 13: More on Scattering
01:22:35 -
Lecture 14: Resonance and the S-Matrix
01:23:56 -
Lecture 15: Eigenstates of the Angular Momentum Part 1
01:24:42 -
Lecture 16: Eigenstates of the Angular Momentum Part 2
01:20:37 -
Lecture 17: More on Central Potentials
01:20:41 -
Lecture 18: “Hydrogen” and its Discontents
01:20:06 -
Lecture 19: Identical Particles
01:23:00 -
Lecture 20: Periodic Lattices Part 1
01:24:20 -
Lecture 21: Periodic Lattices Part 2
01:22:21 -
Lecture 22: Metals, Insulators, and Semiconductors
01:26:34 -
Lecture 23: More on Spin
01:22:09 -
Lecture 24: Entanglement: QComputing, EPR, and Bell’s Theorem
01:22:45 -
Experiment 2: Effective Mass
02:13
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