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source: CosmoLearning 2017年7月23日
Course Description: Dr Peter Millican gives a series of lectures looking at Scottish 18th Century Philosopher David Hume and the first book of his Treatise of Human Nature.
Taken from: https://podcasts.ox.ac.uk/series/intr...
This content is available under a Creative Commons license (free to share, non-commercial)
1 55:27 Lec 01 The Mathematical Formalism of Quantum Mechanics
2 56:06 Lec 02 Hermitian, Anti Hermitian and Unitary Operators
3 55:06 Lec 03 Simultaneous Eigenbases of Commuting Observables
4 55:48 Lec 04 The Postulates of Quantum Mechanics
5 53:40 Lec 05 The Density Operator & Spatial Degrees of Freedom
6 52:45 Lec 06 Wave Functions and Translation Operators
7 54:45 Lec 07 Time Evolution in Quantum Mechanics
8 53:34 Lec 08 One Dimensional Wave Mechanics
9 55:16 Lec 09 The WKB Method
10 1:03:27 Lec 10 The WKB Method Scattering Problem and Oscillator
11 54:26 Lec 11 The Harmonic Oscillators and Coherent States
12 49:26 Lec 12 Harmonic Oscillator Eigenfunctions & The Heisenberg Picture
13 54:24 Lec 13 The Propagator and the Path Integral
14 52:34 Lec 14 Stationary Action and Hamilton’s Principle
15 55:06 Lec 15 Path Integral for the Free Particle
16 53:50 Lec 16 Charged Particles in Magnetic Fields Classical Motion
17 54:46 Lec 17 Charged Particles in Magnetic Fields II Energy Eingefunctions
18 52:59 Lec 18 Rotations in Ordinary Space
19 50:57 Lec 19 Infinitesimal and Finite Rotations
20 52:02 Lec 20 Rotations in Quantum Mechanics, and Rotations of Spin ½ System
21 53:41 Lec 21 Representations of the Angular Momentum Operators and Rotations
22 53:58 Lec 22 Spins in Magnetic Fields and the Stern–Gerlach experiment
23 51:41 Lec 23 Magnetic Moments, Rotational Invariance, and Degeneracies
24 53:35 Lec 24 Orbital Angular Momentum and Spherical Harmonics
25 53:29 Lec 25 Angular Momentum Basis & Radial Schrödinger Equation
26 54:38 Lec 26 Central Force Motion WKB Theory and Spherical Bessel Functions
27 53:24 Lec 27 The Hydrogen Atom
28 53:36 Lec 28 Coupling of Angular Momenta
29 51:06 Lec 29 Tensor Product of Operators, Pauli Equation
30 52:01 Lec 30 Irreducible Tensor Operators and the Wigner Eckart Theorem
31 51:26 Lec 31 Reducible and Irreducible Spaces of Operators
32 53:11 Lec 32 Proof of the Wigner Eckart Theorem
33 49:12 Lec 33 Properties Under Parity
34 50:39 Lec 34 Time Reversal and Antilinear Operators
35 52:31 Lec 35 Spatial and Spin Degrees of Freedom and Time Reversed Motion
36 51:43 Lec 36 Bound State Perturbation Theory
37 56:04 Lec 37 The Stark Effect in Hydrogen and Alkali Atoms
38 51:58 Lec 38 The Stark Effect in Hydrogen and Alkali Atoms II
39 42:30 Lec 39 Fine Structure in Hydrogen and Alkali Atoms
40 51:47 Lec 40 The Zeeman Effect in Hydrogen and Alkali Atoms
41 50:20 Lec 41 Deuteron Final Lecture