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Video Lectures

An outline of lecture topics accompanies each video lecture, but the slides used in these videos are not available.

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Lecture 1: Atomic Theory of Matter

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Lecture 2: Discovery of Nucleus

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Lecture 3: Wave-Particle Duality of Radiation and Matter

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Lecture 4: Particle-Like Nature of Light

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Lecture 5: Matter as a Wave

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Lecture 6: Schrödinger Equation for H Atom

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Lecture 7: Hydrogen Atom Wavefunctions

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Lecture 8: P Orbitals

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Lecture 9: Electronic Structure of Multielectron Atoms

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Lecture 10: Periodic Trends in Elemental Properties

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Lecture 11: Why Wavefunctions are Important

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Lecture 12: Ionic Bonds ‑ Classical Model and Mechanism

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Lecture 13: Kinetic Theory ‑ Behavior of Gases

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Lecture 14: Distribution Molecular Energies

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Lecture 15: Internal Degrees of Freedom

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Lecture 16: Intermolecular Interactions

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Lecture 17: Polarizability

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Lecture 18: Thermodynamics and Spontaneous Change

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Lecture 19: Molecular Description of Acids and Bases

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Lecture 20: Lewis and Brønsted Acid-Base Concepts

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Lecture 21: Titration Curves and pH Indicators

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Lecture 22: Electrons in Chemistry: Redox Processes

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Lecture 23: Cell Potentials and Free Energy

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Lecture 24: Theory of Molecular Shapes

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Lecture 25: Valence Bond Theory

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Lecture 26: Molecular Orbital Theory

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Lecture 27: Molecular Orbital Theory for Diatomic Molecules

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Lecture 28: Molecular Orbital Theory for Polyatomic Molecules

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Lecture 29: Crystal Field Theory

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Lecture 30: Crystal Field Theory (cont.)

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Lecture 31: Color and Magnetism of Coordination Complexes

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Lecture 32: Coordination Complexes and Ligands

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Lecture 33: Ligand Substitution Reactions: Kinetics

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Lecture 34: Bonding in Metals and Semiconductors

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Lecture 35: Metals in Biology

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Lecture 36: Nuclear Chemistry and the Cardiolite Story

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