Springer; 1st Edition,2010. 207 p. ISBN: 1441914293
This text combines an old look at thermodynamics with a new foundation. A New Perspective on Thermodynamics can be considered a new edition of P.G. Tait's book, which profoundly impacted generations of thermodynamicists. The book will present a historical perspective which unravels the current presentation of thermodynamics found in standard textbooks, and which emphasizes the fundamental role that Caot played in the development of thermodynamics. Conceptual flaws in timely topics, such as endoreversible engines, finite-time thermodynamics, and single-molecule measurements which use equilibrium changes in the free energy to determine nonequilibrium work, are highlighted.
The book introduces a new outlook on thermodynamics, showing that it was not formulated as a series of laws, like those of Newton, but, rather, as the desire to account for the effects of heat on otherwise mechanical systems, and the possible overlap of the interpretations of first and second laws. In fact, the historical development shows that there is no clear-cut distinction between the first and second laws; irreversibility can be characterized by an increase in entropy or a diminution in the inteal energy. Notwithstanding this, it is Clausius’s approach which is almost universally adhered to. An approach to the development of non-Caot efficiencies is given, and how it can be used in mode contexts. Critiques are given on finite-time thermodynamics, non-Caot cycles, single molecule experiments that equate non-equilibrium work with equilibrium free energy chains.
This text combines an old look at thermodynamics with a new foundation. A New Perspective on Thermodynamics can be considered a new edition of P.G. Tait's book, which profoundly impacted generations of thermodynamicists. The book will present a historical perspective which unravels the current presentation of thermodynamics found in standard textbooks, and which emphasizes the fundamental role that Caot played in the development of thermodynamics. Conceptual flaws in timely topics, such as endoreversible engines, finite-time thermodynamics, and single-molecule measurements which use equilibrium changes in the free energy to determine nonequilibrium work, are highlighted.
The book introduces a new outlook on thermodynamics, showing that it was not formulated as a series of laws, like those of Newton, but, rather, as the desire to account for the effects of heat on otherwise mechanical systems, and the possible overlap of the interpretations of first and second laws. In fact, the historical development shows that there is no clear-cut distinction between the first and second laws; irreversibility can be characterized by an increase in entropy or a diminution in the inteal energy. Notwithstanding this, it is Clausius’s approach which is almost universally adhered to. An approach to the development of non-Caot efficiencies is given, and how it can be used in mode contexts. Critiques are given on finite-time thermodynamics, non-Caot cycles, single molecule experiments that equate non-equilibrium work with equilibrium free energy chains.