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Kinetic Theory of Gases | |
Introduction | |
Pressure of an Ideal Gas | |
Temperature and Energy | |
Distributions, Mean Values and Distribution Functions | |
The Maxwell Distribution of Speeds | |
Energy Distributions | |
Collisions: Mean Free Path and Collision Number | |
The Rates of Chemical Reactions | |
Introduction | |
Empirical Observations: Measurement of Reaction Rates | |
Rates of Reactions: Differential and Integrated Rate Laws | |
Reaction Mechanisms | |
Homogeneous Catalysis | |
Free Radical Reactions: Chains and Branched Chains | |
Determining Mechanisms from Rate Laws | |
Theories of Chemical Reactions | |
Introduction | |
Potential Energy Surfaces3.3 Collision Theory | |
Activated Complex Theory (ACT) | |
Thermodynamic Interpretation of ACT4 Transport Properties | |
Introduction | |
The Functional Form of the Transport Equations | |
The Microscopic Basis for the Transport Laws | |
Thermal Conductivity | |
Viscosity | |
Diffusion | |
Time-Dependent Transport | |
Reactions in Liquid Solutions | |
Introduction | |
The Cage Effect,Friction, and Diffusion Control | |
Reactions of Charged Species in Solution: Ionic Strength and Electron Transfer | |
Experimental Techniques | |
Introduction | |
Adsorption and Desorption | |
Reactions at Surfaces: Catalysis | |
Surface Diffusion | |
Advanced Topics in Surface Reactions | |
Photochemistry | |
Introduction | |
Absorption and Emission of Light | |
Photophysical Processes | |
Atmospheric Chemistry | |
Photodissociation Dynamics | |
Molecular Reaction Dynamics | |
Introduction | |
A Molecular Dynamics Example | |
Molecular Collisions:A Detailed Look | |
Molecular Scattering | |
Potential Energy Surfaces | |
Molecular Energy Transfer | |
Molecular Reaction Dynamics: Some Examples | |
Table of Contents provided by Publisher. All Rights Reserved. |
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This text teaches the principles underlying modern chemical kinetics in a clear, direct fashion, using several examples to enhance basic understanding. It features solutions to selected problems, with separate sections and appendices that cover more technical applications. The author is the Peter J. W. Debye Professor of Chemistry at Cornell University.
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