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This comprehensive physical chemistry textbook offers a detailed exploration of the principles and applications that govern chemical systems at the molecular and atomic levels. Beginning with foundational concepts such as atomic mass, units, and the nature of physical chemistry, it builds toward increasingly complex topics. The behavior of gases is thoroughly analyzed through both ideal and real models, kinetic theory, and molecular motion.

The thermodynamic framework is introduced via the first, second, and third laws, emphasizing energy conservation, entropy, and spontaneity, with applications in phase changes and biological materials. Solution chemistry includes the thermodynamics of mixing, colligative properties, and the behavior of electrolytes and biological membranes.

Chemical equilibrium and electrochemistry are addressed with attention to reactions in gas and solution phases, electrochemical cells, and redox processes in biological contexts. A full chapter on acid-base chemistry explores titrations, buffers, and pH regulation in systems like blood. Chemical kinetics covers reaction mechanisms, rate theories, and dynamic behaviors such as oscillating reactions, transitioning into enzyme kinetics that model catalytic behavior in biological systems.

Quantum mechanics and atomic structure receive rigorous treatment, progressing from classical wave theory to Schrödinger’s equation and multi-electron atoms, laying the groundwork for discussions on chemical bonding, orbital theory, and molecular geometry. Intermolecular forces are examined in the context of bonding types, hydrogen bonding, and the special properties of water and hydrophobic interactions.

Spectroscopy techniques—including infrared, NMR, and fluorescence—are introduced as analytical tools for molecular identification and structure determination. The text concludes with photochemistry, exploring processes such as photosynthesis and vision, and macromolecular chemistry, focusing on the physical properties and biological roles of proteins, DNA, and synthetic polymers. The book balances rigorous theory with biological and real-world applications, making it essential for students seeking a deep understanding of physical chemistry in both chemical and life sciences.

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