Physical Chemistry by Prof. Robert Field via MIT
Physical Chemistry free videos and free material uploaded by Massachusetts Institute of Technology. This session contains about Physical Chemistry Updated syllabus , Lecture notes , videos , MCQ , Privious Question papers and Toppers Training Provided Training of this course. If Material not uploaded check another subject
Historical Background, Photoelectric Effect
Wave Nature of the Electron and the Internal Structure of an Atom
Two-Slit Experiment, Quantum Weirdness
Classical Wave Equation and Separation of Variables
Quantum Mechanics: Free Particle and Particle in 1D box
3-D Box and QM Separation of Variables
Classical Mechanical Harmonic Oscillator
Quantum Mechanical Harmonic Oscillator
The Harmonic Oscillator: Creation and Annihilation Operators
The Time-Dependent Schrödinger Equation
Wavepacket Dynamics for Harmonic Oscillator and PIB
Catch Up and Review, Postulates
From Hij Integrals to H Matrices I
From Hij Integrals to H Matrices II
Non-Degenerate Perturbation Theory I
Non-Degenerate Perturbation Theory II: HO using a,a†
Rigid Rotor I. Orbital Angular Momentum
Rigid Rotor II. Derivation by Commutation Rules
Spectroscopy: Probing Molecules with Light
Hydrogen Atom I
Hydrogen Atom II. Rydberg States
Helium Atom
Many-Electron Atoms
Molecular Orbital Theory I. Variational Principle and Matrix Mechanics
Molecular Orbital Theory II. H2+, A2, AB Diatomics
Qualitative MO Theory: Hückel
Non-Degenerate Perturbation Theory III
Modern Electronic Structure Theory: Basis Sets
Modern Electronic Structure Theory: Electronic Correlation
Time-Dependent Perturbation Theory I. H is
Time-Independent, Zewail Wavepacket
Time-Dependent Perturbation Theory II.
H is
Time-Dependent: Two-Level Problem
Intermolecular Interactions by Non-Degenerate Perturbation Theory
Electronic Spectroscopy: Franck-Condon
Electronic Spectroscopy and Photochemistry
δ-Functions, Eigenfunctions of X, Discrete Variable
Representation
Time Dependence of Two-Level Systems: Density Matrix, Rotating Wave
This course is an introduction to quantum mechanics for use by chemists. Topics include particles and waves, wave mechanics, semi-classical quantum mechanics, matrix mechanics, perturbation theory, molecular orbital theory, molecular structure, molecular spectroscopy, and photochemistry. Emphasis is on creating and building confidence in the use of intuitive pictures.
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