Synopses & Reviews
The development of thermodynamics in the second half of the 19th century has had a strong impact on both technology and natural philosophy. It is true that the steam engine for the conversion of heat into work existed before thermodynamics was developed as a branch of physics. However, the systematic theory improved the conversion process, and it succeeded in developing other processes essential to modern life, notably refrigeration and rectification. So, altogether thermodynamics has provided humanity with cheap energy, and cheap fuel, -- consequently with cheap, and abundant, and unspoiled food. Thus thermodynamics has made populations grow, and life expectancy increase beyond anything people could possibly have imagined 200 years ago. At the same time thermodynamics has uncovered the precarious balance between determinism and stochasticity which is essential to processes on earth, including life. The competition of those intentions is described by the doctrine of energy and entropy in thermodynamics; energy tends to force a system into one single state, and entropy tends to spread the system evenly over all possible states. These competing tendencies are weighted by temperature such that minimal energy determines cold systems. The knowledge gained by thermodynamic research led to quantum mechanics, whose rules become predominant at low temperatures, and to stellar physics, where temperature is high enough to make relativity theory essential. The expansion of thermodynamic technology and natural philosophy is reviewed in the book along with the struggles and fates of some of the engineers and physicists who pioneered the development.
Review
Aus den Rezensionen: "In diesem ansprechend gestaltenen Buch wagt der Professor für Thermodynamik an der TU Berlin, Ingo Müller, einen Parforce- Ritt durch die Wissenschaftsgeschichte ... Müller selbst ist ein geistreicher Autor, der es ausgezeichnet versteht, seinen Text aufzulockern ... Der Kontrast zwischen Maxwell und Boltzmann wird durch Juxtaposition zweier Zitate deutlich ... Überhaupt sind die Charakterisierungen von Personen und Intentionen sehr treffend gelungen ... Als eine Geschichte der Thermodynamik ... kann ich dieses Buch sehr empfehlen ..." (Klaus Hentschel, in: Physik Journal, 2008, Vol. 7, Issue 2, S. 61) "... Müller beschreibt nicht nur die theoretischen Konzepte und ihre praktischen Anwendungen, sondern würdigt auch die Menschen hinter der Wissenschaft. Zahlreiche Illustrationen und physikalische Formeln vertiefen die Themen ..." (in: Das Science Fiction Jahr 2008, 2008, S. 783)
Review
From the reviews: "Müller ... summarizes the historical development of thermodynamic concepts, going into great depth to detail how certain discoveries were interconnected and how numerous researchers developed these theories based on current available knowledge. ... Readers will appreciate how researchers in the 19th century had to develop basic concepts ... . Summing Up: Recommended. Upper-division undergraduates through professionals." (H. Giesche, CHOICE, Vol. 45 (2), 2007) "An exhaustive history and presentation of current state of research in the subject of thermodynamics. ... This book is too good ... . The author is an important leader in this field, with most impressive record of research publications. This is a great book, which should be in the library of any scientist interested in thermodynamics. It is easy to read ... . It contains a lot of information about thermodynamics, certainly the history, and biographies of prominent creators of our knowledge." (Vadim Komkov, Zentralblatt MATH, Vol. 1131 (9), 2008)
Synopsis
The most exciting and significant episode of scientific progress is the development of thermodynamics and electrodynamics in the 19th century and early 20th century. The nature of heat and temperature was recognized, the conservation of energy was discovered, and the realization that mass and energy are equivalent provided a new fuel, and unlimited power. Much of this occurred in unison with the rapid technological advance provided by the steam engine, the electric motor, internal combustion engines, refrigeration and the rectification processes of the chemical industry. The availability of cheap power and cheap fuel has had its impact on society: Populations grew, the standard of living increased, the envir- ment became clean, traffic became easy, and life expectancy was raised. Knowledge fairly exploded. The western countries, where all this happened, gained in power and influence, and western culture scientific culture spread across the globe, and is still spreading. At the same time, thermodynamics recognized the stochastic and probabilistic aspect of natural processes. It turned out that the doctrine of energy and entropy rules the world; the first ingredient energy is deterministic, as it were, and the second entropy favours randomness. Both tendencies compete, and they find the precarious balance needed for stability and change alike."
Synopsis
This book offers an easy to read, all-embracing history of thermodynamics. It describes the long development of thermodynamics, from the misunderstood and misinterpreted to the conceptually simple and extremely useful theory that we know today. Coverage identifies not only the famous physicists who developed the field, but also engineers and scientists from other disciplines who helped in the development and spread of thermodynamics as well.
Table of Contents
Temperature.- Energy.- Entropy.- Entropy as S = k ln W.- Chemical potentials.- Third law of thermodynamics.- Radiation thermodynamics.- Thermodynamics of irreversible processes.- Fluctuations.- Relativistic thermodynamics.- Metabolism.