Energy and Entropy

Equilibrium to Stationary States

Nonfiction, Science & Nature, Science, Physics, Thermodynamics, Chemistry, Physical & Theoretical
Cover of the book Energy and Entropy by Michael E. Starzak, Springer New York
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Michael E. Starzak ISBN: 9780387778235
Publisher: Springer New York Publication: December 9, 2009
Imprint: Springer Language: English
Author: Michael E. Starzak
ISBN: 9780387778235
Publisher: Springer New York
Publication: December 9, 2009
Imprint: Springer
Language: English

The study of thermodynamics is often limited to classical thermodynamics where minimal laws and concepts lead to a wealth of equations and applications. The resultant equations best describe systems at equilibrium with no temporal or s- tial parameters. The equations do, however, often provide accurate descriptions for systems close to equilibrium. . Statistical thermodynamics produces the same equilibrium information starting with the microscopic properties of the atoms or molecules in the system that correlates with the results from macroscopic classical thermodynamics. Because both these disciplines develop a wealth of information from a few starting postulates, e. g. , the laws of thermodyamics, they are often introduced as independent disciplines. However, the concepts and techniques dev- oped for these disciplines are extremely useful in many other disciplines. This book is intended to provide an introduction to these disciplines while revealing the connections between them. Chemical kinetics uses the statistics and probabilities developed for statistical thermodynamics to explain the evolution of a system to equilibrium. Irreversible thermodynamics, which is developed from the equations of classical thermodyn- ics, centers on distance-dependent forces, and time-dependent ?uxes. The force ?ux equations of irreversible thermodynamics lead are generated from the intensive and extensive variables of classical thermodynamics. These force ?ux equations lead, in turn, to transport equations such as Fick’s ?rst law of diffusion and the Nernst Planck equation for electrochemical transport. The book illustrates the concepts using some simple examples.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

The study of thermodynamics is often limited to classical thermodynamics where minimal laws and concepts lead to a wealth of equations and applications. The resultant equations best describe systems at equilibrium with no temporal or s- tial parameters. The equations do, however, often provide accurate descriptions for systems close to equilibrium. . Statistical thermodynamics produces the same equilibrium information starting with the microscopic properties of the atoms or molecules in the system that correlates with the results from macroscopic classical thermodynamics. Because both these disciplines develop a wealth of information from a few starting postulates, e. g. , the laws of thermodyamics, they are often introduced as independent disciplines. However, the concepts and techniques dev- oped for these disciplines are extremely useful in many other disciplines. This book is intended to provide an introduction to these disciplines while revealing the connections between them. Chemical kinetics uses the statistics and probabilities developed for statistical thermodynamics to explain the evolution of a system to equilibrium. Irreversible thermodynamics, which is developed from the equations of classical thermodyn- ics, centers on distance-dependent forces, and time-dependent ?uxes. The force ?ux equations of irreversible thermodynamics lead are generated from the intensive and extensive variables of classical thermodynamics. These force ?ux equations lead, in turn, to transport equations such as Fick’s ?rst law of diffusion and the Nernst Planck equation for electrochemical transport. The book illustrates the concepts using some simple examples.

More books from Springer New York

Cover of the book The Sports Doping Market by Michael E. Starzak
Cover of the book Tumor Metabolome Targeting and Drug Development by Michael E. Starzak
Cover of the book Pathobiology of Cancer Regimen-Related Toxicities by Michael E. Starzak
Cover of the book Helium Cryogenics by Michael E. Starzak
Cover of the book Scheduling and Congestion Control for Wireless Internet by Michael E. Starzak
Cover of the book Hermitian Analysis by Michael E. Starzak
Cover of the book Cardiopulmonary Bypass by Michael E. Starzak
Cover of the book Quo Vadis: Evolution of Modern Navigation by Michael E. Starzak
Cover of the book Early Hip Disorders by Michael E. Starzak
Cover of the book Categories for the Working Mathematician by Michael E. Starzak
Cover of the book Ultra Low Bit-Rate Speech Coding by Michael E. Starzak
Cover of the book Arnold Sommerfeld by Michael E. Starzak
Cover of the book Atlas of Dermatology in Internal Medicine by Michael E. Starzak
Cover of the book Hybrid Optimization by Michael E. Starzak
Cover of the book Contemporary Methods for Speech Parameterization by Michael E. Starzak
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy