This textbook discusses the fundamentals and applications of statistical thermodynamics for beginning graduate students in engineering and the physical sciences.
This textbook discusses the fundamentals and applications of statistical thermodynamics for beginning graduate students in engineering and the physical sciences.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Normand M. Laurendeau is the Ralph and Bettye Bailey Professor of Combustion at Purdue University. He teaches at both the undergraduate and graduate levels in the areas of thermodynamics, combustion and engineering ethics. He conducts research in the combustion sciences, with particular emphasis on laser diagnostics, pollutant formation and flame structure. Dr Laurendeau is well known for his pioneering research on the development and application of both nanosecond and picosecond laser-induced fluorescence strategies to quantitative species concentration measurements in laminar and turbulent flames. He has authored or coauthored over 150 publications in the archival scientific and engineering literature. Professor Laurendeau is a Fellow of the American Society of Mechanical Engineers and a member of the Editorial Advisory Board for the peer-reviewed journal Combustion Science and Technology.
Inhaltsangabe
Preface 1. Introduction Part I. Fundamentals of Statistical Thermodynamics: 2. Probability and statistics Problem set I. Probability theory and statistical mathematics 3. The statistics of independent particles 4. Thermodynamics properties in the dilute limit Problem set II. Statistical modeling for thermodynamics Part II. Quantum Mechanics and Spectroscopy: 5. Basics of quantum mechanics 6. Quantum analysis of internal energy modes 7. The spectroscopy of diatomic molecules Problem set III. Quantum mechanics and spectroscopy Part III. Statistical Thermodynamics in the Dilute Limit: 8. Interlude: from particle to assembly 9. Thermodynamic properties of the ideal gas Problem set IV. Thermodynamic properties of the ideal gas 10. Statistical thermodynamics for ideal gas mixtures 11. Concentration and temperature measurements Problem set V. Chemical equilibrium and diagnostics Part IV. Statistical Thermodynamics beyond the Dilute Limit: 12. Thermodynamics and information 13. Elements of the solid state 14. Equilibrium radiation Problem set VI. The solid state and radiation Part V. Non-Equilibrium Statistical Thermodynamics: 15. Elementary kinetic theory 16. Kinetics of molecular transport 17. Chemical kinetics Problem set VII. Kinetic theory and molecular transport Part VI. The Ensemble Method of Statistical Thermodynamics: 18. The canonical and grand canonical ensembles 19. Applications of ensemble theory to real gases Problem set VIII. Ensemble theory and the non-ideal gas 20. Whence and whither Part VII. Appendices Index.
Preface 1. Introduction Part I. Fundamentals of Statistical Thermodynamics: 2. Probability and statistics Problem set I. Probability theory and statistical mathematics 3. The statistics of independent particles 4. Thermodynamics properties in the dilute limit Problem set II. Statistical modeling for thermodynamics Part II. Quantum Mechanics and Spectroscopy: 5. Basics of quantum mechanics 6. Quantum analysis of internal energy modes 7. The spectroscopy of diatomic molecules Problem set III. Quantum mechanics and spectroscopy Part III. Statistical Thermodynamics in the Dilute Limit: 8. Interlude: from particle to assembly 9. Thermodynamic properties of the ideal gas Problem set IV. Thermodynamic properties of the ideal gas 10. Statistical thermodynamics for ideal gas mixtures 11. Concentration and temperature measurements Problem set V. Chemical equilibrium and diagnostics Part IV. Statistical Thermodynamics beyond the Dilute Limit: 12. Thermodynamics and information 13. Elements of the solid state 14. Equilibrium radiation Problem set VI. The solid state and radiation Part V. Non-Equilibrium Statistical Thermodynamics: 15. Elementary kinetic theory 16. Kinetics of molecular transport 17. Chemical kinetics Problem set VII. Kinetic theory and molecular transport Part VI. The Ensemble Method of Statistical Thermodynamics: 18. The canonical and grand canonical ensembles 19. Applications of ensemble theory to real gases Problem set VIII. Ensemble theory and the non-ideal gas 20. Whence and whither Part VII. Appendices Index.
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