Course Description
This course presents the fundamental concepts of quantum mechanics: wave properties, uncertainty principles, the Schrödinger equation, and operator and matrix methods. Key topics include commutation rule definitions of scalar, vector, and spherical tensor operators; the Wigner-Eckart theorem; and 3j (Clebsch-Gordan) …
This course presents the fundamental concepts of quantum mechanics: wave properties, uncertainty principles, the Schrödinger equation, and operator and matrix methods. Key topics include commutation rule definitions of scalar, vector, and spherical tensor operators; the Wigner-Eckart theorem; and 3j (Clebsch-Gordan) coefficients. In addition, we deal with many-body systems, exemplified by many-electron atoms (“electronic structure”), anharmonically coupled harmonic oscillators (“intramolecular vibrational redistribution: IVR”), and periodic solids.
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Lecture Notes
![A plot showing a bell-shaped curve along the bottom near the x-axis, and three different horizontal jagged lines above, at three different points along the y-axis.](/courses/5-73-quantum-mechanics-i-fall-2018/db0a558feb6fa1511bb1b3f4515dfb5d_5-73f18.jpg)
From Lecture #3 Notes: Learn how to determine the value of the integral without actually evaluating the integral. Amaze your friends!