CHEM 110B: Physical Chemistry - Properties of Atoms and Molecules

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This text integrates quantum mechanics, spectroscopy, and thermodynamics to explain how molecular structure governs observable behavior. It begins with bonding in polyatomic molecules, showing how hybridization, conjugation, and aromaticity shape stability, supported by techniques like photoelectron spectroscopy. Computational quantum chemistry methods are introduced, followed by group theory, where symmetry simplifies molecular analysis and predicts vibrational and spectroscopic properties. The discussion then turns to molecular spectroscopy, NMR, and lasers, connecting theory with powerful experimental tools for probing structure and dynamics. Finally, the statistical mechanics of gases and partition functions link microscopic states to macroscopic properties, revealing how translational, rotational, vibrational, and electronic contributions determine thermodynamic behavior.

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