Kinetics and Dynamics of Elementary Gas Reactions
Butterworths Monographs in Chemistry and Chemical Engineering
- 1st Edition - December 28, 2013
- Latest edition
- Author: Ian W. M. Smith
- Language: English
- Hardback ISBN:9 7 8 - 0 - 4 0 8 - 7 0 7 9 0 - 9
- Paperback ISBN:9 7 8 - 1 - 4 8 3 1 - 2 9 5 7 - 0
- eBook ISBN:9 7 8 - 1 - 4 8 3 1 - 6 1 9 9 - 0
Kinetics and Dynamics of Elementary Gas Reactions surveys the state of modern knowledge on elementary gas reactions to understand natural phenomena in terms of molecular behavior.… Read more
Kinetics and Dynamics of Elementary Gas Reactions surveys the state of modern knowledge on elementary gas reactions to understand natural phenomena in terms of molecular behavior. Part 1 of this book describes the theoretical and conceptual background of elementary gas-phase reactions, emphasizing the assumptions and limitations of each theoretical approach, as well as its strengths. In Part 2, selected experimental results are considered to demonstrate the scope of present day techniques and illustrate the application of the theoretical ideas introduced in Part 1. This publication is intended primarily for working kineticists and chemists, but is also beneficial to graduate students.
Preface Part 1: The Theoretical Background 1 Macroscopic and Microscopic Kinetics 1.1 Elementary Reactions 1.2 Macroscopic Kinetics 1.3 Microscopic Kinetics 1.4 Towards a Detailed Rate Theory for Collisional Reactions 1.5 Summary 2 The Electronic Potential Energy in Molecular Systems 2.1 General Introduction 2.2 Diatomic Systems 2.3 Triatomic Systems 2.4 Electronic States of Molecules and the Adiabatic Correlation Rules 3 Molecular Collision Dynamics 3.1 General Introduction 3.2 General Principles of Classical Dynamics 3.3 Classical Collisions between Two Particles 3.4 Simple Models of Reactive Collisions 3.5 Classical Reaction Dynamics 3.6 Non-Classical Calculations on Reaction Dynamics 4 Statistical Theories of Reaction Rates 4.1 Relationships from Statistical Mechanics 4.2 Transition State Theory 4.3 Microcanonical Transition State Theory 4.4 'Special' Quantum Effects in Transition State Theory 4.5 Unimolecular Reactions 4.6 Detailed Reaction Cross-Sections and Rate Constants Part 2: Comparisons between Experiment and Theory 5 Thermal Rate Data 5.1 General Introduction 5.2 Experimental Methods 5.3 Bimolecular Reactions 5.4 The H3 Reactions 5.5 'Non-Arrhenius' Behavior 5.6 Kinetic Isotope Effects 5.7 Unimolecular Reactions 5.8 Atomic Recombination 6 Detailed Rate Constants 6.1 General Introduction 6.2 Experimental Methods: Excitation of Products 6.3 Energy Disposal in Chemical Reactions 6.4 Experimental Methods: Excitation of Reagents 6.5 Selective Excitation: Unimolecular Processes 6.6 Selective Excitation: Bimolecular Reactions 6.7 State-to-State Rate Constants 7 Reactive Scattering 7.1 Introduction 7.2 Experimental Methods 7.3 Interpretation of Scattering Experiments 7.4 Reactions of Metal Atoms and Dimers 7.5 Reactions of Non-metal Species Appendix 1: Units, Conversion Factors and Fundamental Constants A1.1 Basic Units A1.2 Derived Units A1.3 Prefixes for SI Units A1.4 Conversion Factors A1.5 Fundamental Constants Appendix 2: Symbols Appendix 3: Statistical Mechanics A3.1 Translation (One-dimension) A3.2 Translation (Three-dimensions) A3.3 Rotation (Linear Molecules) A3.4 Rotation (Non-linear Molecules) A3.5 Internal Rotation A3.6 Vibration A3.7 Electronic States A3.8 Internal Energy and EntropyReaction Index Subject Index
- Edition: 1
- Latest edition
- Published: December 28, 2013
- Language: English
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