The MIT: Quantum Physics I course was split into two parts by STEMHelp to introduce it more efficiently in our site. If you are finished with Part 1 you can begin learning Part 2 here → MIT: Quantum Physics I - Part 2

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In this course you'll learn about the experimental basis of quantum physics. It introduces wave mechanics, Schrödinger’s equation in a single dimension, and Schrödinger’s equation in three dimensions.

Instructor: Allan Adams

Course provided by MITOCW

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Lecture 1: Introduction to Superposition

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Lecture 2: Experimental Facts of Life

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Lecture 3: The Wave Function

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Lecture 4: Expectations, Momentum, and Uncertainty

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Lecture 5: Operators and the Schrödinger Equation

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Lecture 6: Time Evolution and the Schrödinger Equation

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Lecture 7: More on Energy Eigenstates

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Lecture 8: Quantum Harmonic Oscillator

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Lecture 9: Operator Methods for the Harmonic Oscillator

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Lecture 10: Clicker Bonanza and Dirac Notation

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Lecture 11: Dispersion of the Gaussian and the Finite Well

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Lecture 12: The Dirac Well and Scattering off the Finite Step

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Lecture 13: More on Scattering

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If you have finished part one, you can begin learning part 2 here → MIT: Quantum Physics II - Part 2

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