Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgements
- 1 The observed properties of thermal unimolecular reactions
- 2 The master equation for internal relaxation in molecules
- 3 Reaction as a perturbation of the internal relaxation
- 4 The specific rate function k(E) as an inverse Laplace transform
- 5 Unimolecular fall-off in strong collision systems
- 6 A molecular dynamic approach to specific rate functions
- 7 Building in the randomisation processes
- 8 Weak collision processes
- 9 How well does it all work?
- Appendix 1 Units, symbols, and errata
- Appendix 2 Rate constants for the thermal isomerisation of cyclopropane and for the thermal decomposition of cyclobutane
- Appendix 3 Computer programs for thermal unimolecular reactions
- Exercises
- References
- Author index
- Subject index
- Frontmatter
- Contents
- Preface
- Acknowledgements
- 1 The observed properties of thermal unimolecular reactions
- 2 The master equation for internal relaxation in molecules
- 3 Reaction as a perturbation of the internal relaxation
- 4 The specific rate function k(E) as an inverse Laplace transform
- 5 Unimolecular fall-off in strong collision systems
- 6 A molecular dynamic approach to specific rate functions
- 7 Building in the randomisation processes
- 8 Weak collision processes
- 9 How well does it all work?
- Appendix 1 Units, symbols, and errata
- Appendix 2 Rate constants for the thermal isomerisation of cyclopropane and for the thermal decomposition of cyclobutane
- Appendix 3 Computer programs for thermal unimolecular reactions
- Exercises
- References
- Author index
- Subject index
Summary
- Type
- Chapter
- Information
- The Quantum Theory of Unimolecular Reactions , pp. 168 - 172Publisher: Cambridge University PressPrint publication year: 1984