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Quantum Mechanics

Quantum Mechanics (University of Oxford). This is a collection of video lectures on Quantum Mechanics taught by Professor James Binney. In this series of physics lectures, Professor James Binney explains how probabilities are obtained from quantum amplitudes, why they give rise to quantum interference, the concept of a complete set of amplitudes and how this defines a "quantum state". (from podcasts.ox.ac.uk)

Lecture 04 - Commutators and Time Evolution (the Time Dependent Schrodinger Equation)


Go to the Course Home or watch other lectures:

Lecture 01 - Introduction to Quantum Mechanics, Probability Amplitudes and Quantum States
Lecture 02 - Dirac Notation and the Energy Representation
Lecture 03 - Operators and Measurement
Lecture 04 - Commutators and Time Evolution (the Time Dependent Schrodinger Equation)
Lecture 05 - Further TDSE and the Position Representation
Lecture 06 - Wave Functions for Well Defined Momentum
Lecture 07 - Back to Two-Slit Interference, Generalization to Three Dimensions and the Virial Theorem
Lecture 08 - The Harmonic Oscillator and the Wave Functions of its Stationary States
Lecture 09 - Dynamics of Oscillators and the Anharmonic Oscillator
Lecture 10 - Transformation of Kets, Continuous and Discrete Transformations and the Rotation Operator
Lecture 11 - Transformation of Operators and the Parity Operator
Lecture 12 - Angular Momentum and Motion in a Magnetic Field
Lecture 13 - Hilary: The Square Well
Lecture 14 - A Pair of Square Wells and the Ammonia Maser
Lecture 15 - Tunnelling and Radioactive Decay
Lecture 16 - Composite Systems - Entanglement and Operators
Lecture 17 - Einstein-Podolski-Rosen Experiment and Bell's Inequality
Lecture 18 - Angular Momentum
Lecture 19 - Diatomic Molecules and Orbital Angular Momentum
Lecture 20 - Further Orbital Angular Momentum, Spectra of L2 and LZ
Lecture 21 - Even further Orbital Angular Momentum - Eigenfunctions, Parity and Kinetic Energy
Lecture 22 - Spin Angular Momentum
Lecture 23 - Spin 1/2, Stern-Gerlach Experiment and Spin 1
Lecture 24 - Classical Spin and Addition of Angular Momenta
Lecture 25 - Hydrogen part 1
Lecture 26 - Hydrogen part 2 Emission Spectra
Lecture 27 - Hydrogen part 3 Eigenfunctions