# Quantum Mechanics - Oxford University

In this series of physics lectures, Professor J.J. 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"

## Lessons hide description |
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## 1) 001 Introduction to Quantum Mechanics, Probability Amplitudes and Quantum States## In this series of physics lectures, Professor J.J. Binney explains how probabilities are obtained from quantum amplitudes, why they give rise to quantum interference, the concept of a complete set of ... |

## 2) 002 Dirac Notation and the Energy Representation## In this series of physics lectures, Professor J.J. Binney explains how probabilities are obtained from quantum amplitudes, why they give rise to quantum interference, the concept of a complete set of ... |

## 3) 003 Operators and Measurement## In this series of physics lectures, Professor J.J. Binney explains how probabilities are obtained from quantum amplitudes, why they give rise to quantum interference, the concept of a complete set of ... |

## 4) 004 Commutators and Time Evolution (the Time Dependent Schrodinger Equation) |

## 5) 005 Further TDSE and the Position Representation |

## 6) 006 Wavefunctions for Well Defined Momentum |

## 7) 007 Back to Two-Slit Interference, Generalization to Three Dimensions and the Virial Theorem |

## 8) 008 The Harmonic Oscillator and the Wavefunctions of its Stationary States |

## 9) 009 Dynamics of Oscillators and the Anharmonic Oscillator |

## 10) 010 Transformation of Kets, Continuous and Discrete Transformations and the Rotation Operator |

## 11) 011 Transformation of Operators and the Parity Operator |

## 12) 012 Angular Momentum and Motion in a Magnetic Field |

## 13) 013 Hilary: The Square Well |

## 14) 014 A Pair of Square Wells and the Ammonia Maser |

## 15) 015 Tunnelling and Radioactive Decay |

## 16) 016 Composite Systems - Entanglement and Operators |

## 17) 017 Einstein-Podolski-Rosen Experiment and Bell's Inequality |

## 18) 018 Angular Momentum |

## 19) 019 Diatomic Molecules and Orbital Angular Momentum |

## 20) 020 Further Orbital Angular Momentum, Spectra of L2 and LZ |

## 21) 021 Even further Orbital Angular Momentum - Eigenfunctions, Parity and Kinetic Energy |

## 22) 022 Spin Angular Momentum |

## 23) 023 Spin 1/2 , Stern - Gerlach Experiment and Spin 1 |

## 24) 024 Classical Spin and Addition of Angular Momenta |

## 25) 025 Hydrogen part 1 |

## 26) 026 Hydrogen part 2 Emission Spectra |

## 27) 027 Hydrogen part 3 Eigenfunctions |

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