Lecture 10: The Time-Dependent Schrödinger Equation (M-I-T)

Lecture 12: Catch Up and Review, Postulates (M-I-T)

Lecture 13: From Hij Integrals to H Matrices I (M-I-T)

Lecture 14: From Hij Integrals to H Matrices II (M-I-T)

Lecture 15: Non-Degenerate Perturbation Theory I (M-I-T)

Lecture 16: Non-Degenerate Perturbation Theory II: HO using a,a† (M-I-T)

Lecture 17: Rigid Rotor I. Orbital Angular Momentum (M-I-T)

Lecture 18: Rigid Rotor II. Derivation by Commutation Rules (M-I-T)

Lecture 19: Spectroscopy: Probing Molecules with Light (M-I-T)

Lecture 1: Quantum Mechanics—Historical Background, Photoelectric Effect, Compton Scattering (M-I-T)

Lecture 20: Hydrogen Atom I (M-I-T)

Lecture 21: Hydrogen Atom II. Rydberg States (M-I-T)

Lecture 22: Helium Atom (M-I-T)

Lecture 23: Many-Electron Atoms (M-I-T)

Lecture 24: Molecular Orbital Theory I. Variational Principle and Matrix Mechanics (M-I-T)

Lecture 25: Molecular Orbital Theory II. H2+, A2, AB Diatomics (M-I-T)

Lecture 26: Qualitative MO Theory: Hückel (M-I-T)

Lecture 27: Non-Degenerate Perturbation Theory III (M-I-T)

Lecture 28: Modern Electronic Structure Theory: Basis Sets (M-I-T)

Lecture 29: Modern Electronic Structure Theory: Electronic Correlation (M-I-T)

Lecture 30: Time-Dependent Perturbation Theory I. H is Time-Independent, Zewail Wavepacket (M-I-T)

Lecture 31: Time-Dependent Perturbation Theory II. H is Time-Dependent: Two-Level Problem (M-I-T)

Lecture 32: Intermolecular Interactions by Non-Degenerate Perturbation Theory (M-I-T)

Lecture 33: Electronic Spectroscopy: Franck-Condon (M-I-T)

Lecture 34: Chirped Pulse Microwave: Free Induction Decay, Bloch Visualization (M-I-T)