Editorial Review:
Thermodynamics is a core part of most science and engineering curricula. However, most texts that are currently available to students still treat thermodynamics very much as it was presented in the 19th century, generally for historical rather than pedagogical reasons. Modern Thermodynamics takes a different approach, and deals with the relationship between irreversible processes and entropy.The relationship between irreversible processes and entropy is introduced early on, enabling the reader to benefit from seeing the relationship in such processes as heat conduction and chemical reactions. This text presents thermodynamics in a contemporary and exciting manner, with a wide range of applications, and many exercises and examples. Students are also encouraged to use computers through the provision of Mathematica code and Internet / WWW addresses where real data and additional information can be found.
FEATURES
· A truly modern approach to thermodynamics, presenting it as a science of irreversible processes whilst avoiding dividing the subject into equilibrium and non-equilibrium thermodynamics.
· An extensive range of applications drawn from science and engineering, along with many real world examples, and exercises.
· Written by two well-known authors, of whom Professor llya Prigogine was awarded the Nobel Prize for his
research into thermodynamics.
CONTENTS: Part I: Historical Roots: From Heat Engines to Cosmology: Basic Concepts; First Law of Thermodynamics; Second Law of Thermodynamics and the Arrow of Time; Entropy in the Realm of Chemical Reactions; Part ll: Equilibrium Thermodynamics: Extremum Principles and General Thermodynamic Relations; Basic Thermodynamics of Gases, Liquids and Solids; Thermodynamics of Phase Change; Thermodynamics of Solutions; Thermodynamics of Chemical Transformations; Fields and Internal Degrees of Freedom; Thermodynamics of Radiation; Part III: Fluctuations and Stability: The Gibbs' Theory of Stability; Critical Phenomena and Configurational Heat Capacity; Theory of Stability and Fluctuations Based on Entropy Production; Part IV: Linear Nonequilibrium Thermodynamics: Nonequilibrium Thermodynamics: The Foundations; Nonequilibrium Thermodynamics: The Linear Regime; Nonequilibrium Stationary States and their Stability: Linear Regime; Part V: Order Through Fluctuations: Nonlinear Thermodynamics; Dissipative Structures; Postface: Where do we go from here?
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Customer Reviews
Average Customer Rating: 
Excellent  2004-07-20
This is an excellent book, simple, rational, with the relevant historical context...
I was teaching a thermodynamics course for biologists and was quite tired of the standard stuff when a collegue recommend this book to me, he had the impression that it was a good book and was about to review it for his own course (physics students).
We decidded to adopt the book for both courses (we use only the first part with is intended for this use).The best book on thermodynamics I have seen so far.
Textbook is distinguishable by a link between eq. and no-eq.  2001-02-12
Kondepudi and Prigogine's textbook is distinguishable by a link between the books of equilibrium non-statistical thermodynamics and the monographs in non-equilibrium non-statistical thermodynamics. A minor lack of generality on the development of the whole formal system is apparent, but an advantage in that the text is practical and complete. In my opinion, there is no clear logic connection between subjects in equilibrium and non- equilibrium. For example, the derivation of the Clausius' inequality from the entropic balance equation is lacking. The historic references and the portraits of the pioneers in the field of thermodynamics are remarkable. The chapter dedicated to the dissipative structures is basic, but this is compensated with a very good introduction to the linear and non-linear non-equilibrium regimes. The treatment of affinity is admirable, more so by the way it sticks out with the influence of the Brussels school! A noteworthy criticism is the confusion created by the inter-use of the terms "current density" and "flux" in the study of non-equilibrium processes. I like the statement of the third law. The footnote discussion of the local character of the balance equations with regards to Einstein's relativistic theory is also very interesting.
One of the best thermodynamics textbooks... 2000-12-16
Prigogine and Kondepudi have done an excellent job developing the basic concepts of thermodynamics through an overview of the historical developments - very postmodern for a science textbook! They present all relevant material to then develop non-equilibrium thermodynamics through the use of many examples. I found their manner of developing the concepts and equations to be very clear and concise. The mathematics are well-developed although a thorough background in engineering calculus is required. In fact, for many of the classical equilibrium concepts they have the clearest development I have ever read; certainly the section on Maxwell's relations is far superior to my old book by Callen. Many different applications including chemical and electro-optic, are developed for non-equilibrium methods. For all sections the authors have listed references and suggested readings to make it easy for further explorations. I wished this textbook had been around when I went through engineering...
This books certainly fills a void 2000-01-18
Until now, books on non-equilibrium thermodynamics were quite advanced, courses on the subject were given separately from other thermodynamics courses, and thermodynamics in general was viewed as a collection of three -more or less individual- subfields: classical thermodynamics, statistical thermodynamics and finally non-equilibrium thermodynamics. I've waited a long time for an introductory text that presented a unified and modern approach to the field. Kondepudi and Prigogine come close in writing such a book. It is very accessible, well written, and it tries very hard to present thermodynamics as one unified discipline. Points are scored with the attention given to historical developments, the incorporation of non-equilibrium concepts right from the start (the 'unified' approach), the clear presentations of the various notions (some of which are conceptually quite difficult, such as the classical description of entropy), and the quality of the problems. Weaknesses are the somewhat cheap looking lay-out, the absence of key ideas from statistical thermodynamics (which are really helpful in understanding non-equilibrium concepts, and are essential to anyone who needs to learn thermodynamics; this omission is unforgivable) and the poor editing job (many typos, sentences constructed in a weird way). All in all, this is probably the first affordable introductory text of thermodynamics that incorporates non-equilibrium ideas from the very start, and it certainly does justice to what is known as 'classical' thermodynamics or 'non-equilibrium' thermodynamics. The lack of 'statistical' thermodynamics is a severe error of judgement by the authors; as a consequence, the book -good as it is- does NOT describe thermodynamics as a whole; students will still need to follow a separate course in statistical thermodynamics. Given the importance of the topic, the instructiveness of its reasoning and its power to make the various thermodynamic pieces fall together, the omission of 'statistical' thermodynamics is a mystery. Other than that, the book is a delight. For the missing statistical info, I recommend the excellent book by Frederi
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