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Video Lectures

Course Introduction

Lecture 1: Vision Statement, Administrative Details

Lecture 2: Classification Schemes for the Elements

Lecture 3: Rutherford Model of the Atom, Bohr Model of Hydrogen

Lecture 4: Atomic Spectra of Hydrogen

Lecture 5: The Shell Model and Multi-electron Atoms

Lecture 6: De Broglie, Heisenberg, and Schrödinger

Lecture 7: Octet Stability by Electron Transfer: Ionic Bonding

Lecture 8: Born-Haber Cycle

Lecture 9: Electronegativity, Partial Charge, Polar Bonds and Polar Molecules

Lecture 10: LCAO MO, Energy Level Diagrams for H2, He2, Li2

Lecture 11: The Shapes of Molecules, Electron Domain Theory

Lecture 12: Secondary Bonding, Metallic Bonding

Lecture 13: Metallic Bonding, Band Theory of Solids, Absorption Edge of Semiconductors

Lecture 14: Intrinsic and Extrinsic Semiconductors, Doping, Compound Semiconductors

Lecture 15: Introduction to the Solid State

Lecture 16: Cubic Crystals, Miller Indices, Characterization of Atomic Structure

Lecture 17: The Generation of X-rays, Moseley's Law, X-ray Spectra

Lecture 18: Bragg's Law, X-ray Diffraction, Crystal Symmetry

Lecture 19: Crystal Defects: Point Defects, Line Defects

Lecture 20: Crystal Defects: Interfacial Defects, Voids, Amorphous Solids, Glass Formation

Lecture 21: Properties of Inorganic Glasses, Engineered Glasses

Lecture 22: Chemical Kinetics

Lecture 23: Diffusion

Lecture 24: Fick's Second Law (FSL) and Transient-state Diffusion

Lecture 25: Solutions

Lecture 26: Acids and Bases

Lecture 27: Organic Chemistry

Lecture 28: Organic Glasses - Polymers

Lecture 29: Structure-property Relationships in Polymers, Crystalline Polymers

Lecture 30: Biochemistry

Lecture 31: Protein Structure

Lecture 32: Lipids

Lecture 33: Phase Diagrams - Basic Definitions

Lecture 34: Two-component Phase Diagrams

Lecture 35: Wrap-up

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