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Quantum Mechanics by MIT
This note covers the following topics: Introduction to Superposition, Experimental Facts of Life, The Wave Function, Expectations, Momentum, and Uncertainty , Operators and the Schrödinger Equation, Time Evolution and the Schrödinger Equation, Energy Eigenstates and Quantum Harmonic Oscillator.
Author(s): Prof. Allan Adams, Prof. Matthew Evans and Prof. Barton Zwiebach
NA Pages 
Lecture Notes on Quantum Mechanics KIT
The contents of the notes include: The Schrodinger equation, Measurement and uncertainty, The harmonic oscillator, Angular momentum and spin, Particles in an external magnetic eld, Pictures in quantum mechanics, Particle in a central potential, Time independent Perturbation theory, Variational principle, Path integral formulation of quantum mechanics, Scattering Theory.
Author(s): Jorg Schmalian, Karlsruhe Institute of Technology
118 Pages
Advanced Quantum Mechanics I by Prof. Cumrun Vafa
This note covers the following topics: The History of Quantum Mechanics and Motivation, Radially Symmetric Problems, Principles of Quantum Mechanics, Spins, Time-independent Perturbation Theory, Time-dependent Perturbation Theory.
Author(s): Prof. Cumrun Vafa
83 Pages
Lecture Notes in Quantum Mechanics by Salwa Alsaleh
This lecture note explains the following topics: Classical Mechanics, Abstract vector spaces, Functions as vectors, Postulates of Quantum Mechanics, The Wavefunction, The Uncertainty Principle, Scattering Theory, Stationary States, Angular Momentum, The Hydrogen Atom, Spin.
Author(s): Salwa Alsaleh
98 Pages
Quantum Mechanics by Robert Littlejohn
This note covers the following topics:The Mathematical Formalism of Quantum Mechanics, Postulates of Quantum Mechanics, Density Operator, Spatial Degrees of Freedom, Time Evolution in Quantum Mechanics, The WKB Method, Harmonic Oscillators and Coherent States, The Propagator and the Path Integral, Charged Particles in Magnetic Fields, Rotations in Ordinary Space, Rotations in Quantum Mechanics, and Rotations of Spin / Systems, Representations of the Angular Momentum Operators and Rotations, Spins in Magnetic Fields, Orbital Angular Momentum and Spherical Harmonics, Central Force Motion, Hydrogen, Coupling of Angular Momenta, Irreducible Tensor Operators and the Wigner-Eckart Theorem, Bound-State Perturbation Theory, The Stark Effect in Hydrogen and Alkali Atoms, The Photoelectric Effect.
Author(s): Robert Littlejohn
NA Pages
Quantum Mechanics Made Simple Lecture Notes
This note is intended to teach quantum mechanics to undergraduate students as well as graduate students. Topics covered includes: Classical Mechanics, Quantum Mechanics, Time-Dependent Schr¨odinger Equation, Mathematical Preliminarie, Approximate Methods in Quantum Mechanics, Quantum Mechanics in Crystals, Angular Momentum, Density Matrix, 2 Quantization of Classical Fields, Schrodinger Wave Fields, Quantum Information and Quantum Interpretation.
Author(s): Weng Cho CHEW
218 Pages
This note covers the following topics: Bound States, Discreet Energy Levels, Electron Diffraction, Exploring Quantum Tunneling, Uncertainty Principle, Interpreting Wave Functions, Sketching Wave Functions, Shape of the Wave Function, Wave Packet, Wave Functions and Energies in Atoms.
Author(s): Kansas State University
NA Pages
This note covers the following topics: Introduction to Superposition, Experimental Facts of Life, The Wave Function, Expectations, Momentum, and Uncertainty , Operators and the Schrödinger Equation, Time Evolution and the Schrödinger Equation, Energy Eigenstates and Quantum Harmonic Oscillator.
Author(s): Prof. Allan Adams, Prof. Matthew Evans and Prof. Barton Zwiebach
NA Pages
Quantum Mechanics, Spectroscopy, and Statistical Mechanics Lecture Notes
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Author(s): NA
NA Pages
Time dependence in quantum mechanics [PDF 10p]
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Lecture Notes on Quantum Mechanics [PDF 25p]
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Introduction to quantum mechanics [PDF]
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Lecture notes for Quantum Mechanics I [PDF 41p]
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Lecture notes for Quantum mechanics
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Currently this section contains no detailed description for the page, will update this page soon.
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Lecture Notes in Quantum Mechanics
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