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Continuum mechanics --- Thermodynamics --- Mathematics. --- 536.73 --- 536.73 Second law of thermodynamics --- 539.3 --- Mechanics of continua --- Second law of thermodynamics --- 539.3 Elasticity. Deformation. Mechanics of elastic solids --- Elasticity. Deformation. Mechanics of elastic solids --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Elasticity --- Mechanics, Analytic --- Field theory (Physics) --- Mathematics

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Time asymmetric phenomena are successfully predicted by statistical mechanics. Yet the foundations of this theory are surprisingly shaky. Its explanation for the ease of mixing milk with coffee is incomplete, and even implies that un-mixing them should be just as easy. In this book the authors develop a new conceptual foundation for statistical mechanics that addresses this difficulty. Explaining the notions of macrostates, probability, measurement, memory, and the arrow of time in statistical mechanics, they reach the startling conclusion that Maxwell's Demon, the famous perpetuum mobile, is consistent with the fundamental physical laws. Mathematical treatments are avoided where possible, and instead the authors use novel diagrams to illustrate the text. This is a fascinating book for graduate students and researchers interested in the foundations and philosophy of physics.

Maxwell's demon --- Second law of thermodynamics --- Statistical thermodynamics --- Maxwell, James Clerk, --- Maxwell, James Clerk --- Statistical mechanics --- Second law of thermodynamics. --- Statistical thermodynamics. --- Maxwell, Démon de --- Mécanique statistique --- Deuxième principe de la thermodynamique --- Thermodynamique statistique --- Maxwell's demon. --- Demon of Maxwell --- Maxwell demon --- Thermodynamics --- Quantum theory --- Statistical physics --- 2nd law of thermodynamics --- Laws of thermodynamics --- Maksvell, Dzhems Klerk, --- Maxwell, J. Clerk --- Maxwell, J. C. --- Maxwell, Clerk, --- Maksvell, Dzheĭms Klerk, --- Physics --- General and Others --- Maxwell, James Clerk, - 1831-1879

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A renowned philosopher’s final work, illuminating how the logical empiricist tradition has failed to appreciate the role of actual experiments in forming its philosophy of science. The logical empiricist treatment of physics dominated twentieth-century philosophy of science. But the logical empiricist tradition, for all it accomplished, does not do justice to the way in which empirical evidence functions in modern physics. In his final work, the late philosopher of science William Demopoulos contends that philosophers have failed to provide an adequate epistemology of science because they have failed to appreciate the tightly woven character of theory and evidence. As a consequence, theory comes apart from evidence. This trouble is nowhere more evident than in theorizing about particle and quantum physics. Arguing that we must consider actual experiments as they have unfolded across history, Demopoulos provides a new epistemology of theories and evidence, albeit one that stands on the shoulders of giants. On Theories finds clarity in Isaac Newton’s suspicion of mere “hypotheses.” Newton’s methodology lies in the background of Jean Perrin’s experimental investigations of molecular reality and of the subatomic investigations of J. J. Thomson and Robert Millikan. Demopoulos extends this account to offer novel insights into the distinctive nature of quantum reality, where a logico-mathematical reconstruction of Bohrian complementarity meets John Stewart Bell’s empirical analysis of Einstein’s “local realism.” On Theories ultimately provides a new interpretation of quantum probabilities as themselves objectively representing empirical reality.

Empiricism. --- Physics --- Quantum theory. --- Science --- SCIENCE / Physics / Quantum Theory. --- Normal science --- Philosophy of science --- Quantum dynamics --- Quantum mechanics --- Quantum physics --- Mechanics --- Thermodynamics --- Experience --- Knowledge, Theory of --- Rationalism --- Philosophy. --- Avogadro’s constant. --- Bell’s theorem. --- Bohr. --- Brownian motion. --- Gleason’s theorem. --- Gödel. --- Hilbertian axiomatics. --- Maxwell-Boltzmann statistics. --- Poincaré. --- Putnam. --- Ramsey sentences. --- constructive empiricism. --- quantum logic. --- second law of thermodynamics.

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This book results from a Special Issue related to the latest progress in the thermodynamics of machines systems and processes since the premonitory work of Carnot. Carnot invented his famous cycle and generalized the efficiency concept for thermo-mechanical engines. Since that time, research progressed from the equilibrium approach to the irreversible situation that represents the general case. This book illustrates the present state-of-the-art advances after one or two centuries of consideration regarding applications and fundamental aspects. The research is moving fast in the direction of economic and environmental aspects. This will probably continue during the coming years. This book mainly highlights the recent focus on the maximum power of engines, as well as the corresponding first law efficiency upper bounds.

History of engineering & technology --- thermodynamics --- optimization --- entropy analysis --- Carnot engine --- modelling with time durations --- steady-state modelling --- transient conditions --- converter irreversibility --- sequential optimization --- Finite physical Dimensions Optimal Thermodynamics --- global efficiency --- energy efficiency --- heat engine --- heat pump --- utilization --- Carnot efficiency --- comparison --- thermal system --- cycle analysis --- second law of thermodynamics --- Clausius Statement --- theorem of the equivalence of transformations --- linear irreversible thermodynamics --- maximum power output --- maximum ecological Function --- maximum efficient power function --- enzymatic reaction model --- ocean thermal energy conversion (OTEC) --- plate heat exchanger --- finite-time thermodynamics --- heat transfer entropy --- entropy production --- new efficiency limits --- two-stage LNG compressor --- energy losses --- exergy destruction --- exergy efficiency --- Stirling cycle --- refrigerator --- heat exchanger --- second law --- n/a

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This book results from a Special Issue related to the latest progress in the thermodynamics of machines systems and processes since the premonitory work of Carnot. Carnot invented his famous cycle and generalized the efficiency concept for thermo-mechanical engines. Since that time, research progressed from the equilibrium approach to the irreversible situation that represents the general case. This book illustrates the present state-of-the-art advances after one or two centuries of consideration regarding applications and fundamental aspects. The research is moving fast in the direction of economic and environmental aspects. This will probably continue during the coming years. This book mainly highlights the recent focus on the maximum power of engines, as well as the corresponding first law efficiency upper bounds.

History of engineering & technology --- thermodynamics --- optimization --- entropy analysis --- Carnot engine --- modelling with time durations --- steady-state modelling --- transient conditions --- converter irreversibility --- sequential optimization --- Finite physical Dimensions Optimal Thermodynamics --- global efficiency --- energy efficiency --- heat engine --- heat pump --- utilization --- Carnot efficiency --- comparison --- thermal system --- cycle analysis --- second law of thermodynamics --- Clausius Statement --- theorem of the equivalence of transformations --- linear irreversible thermodynamics --- maximum power output --- maximum ecological Function --- maximum efficient power function --- enzymatic reaction model --- ocean thermal energy conversion (OTEC) --- plate heat exchanger --- finite-time thermodynamics --- heat transfer entropy --- entropy production --- new efficiency limits --- two-stage LNG compressor --- energy losses --- exergy destruction --- exergy efficiency --- Stirling cycle --- refrigerator --- heat exchanger --- second law --- thermodynamics --- optimization --- entropy analysis --- Carnot engine --- modelling with time durations --- steady-state modelling --- transient conditions --- converter irreversibility --- sequential optimization --- Finite physical Dimensions Optimal Thermodynamics --- global efficiency --- energy efficiency --- heat engine --- heat pump --- utilization --- Carnot efficiency --- comparison --- thermal system --- cycle analysis --- second law of thermodynamics --- Clausius Statement --- theorem of the equivalence of transformations --- linear irreversible thermodynamics --- maximum power output --- maximum ecological Function --- maximum efficient power function --- enzymatic reaction model --- ocean thermal energy conversion (OTEC) --- plate heat exchanger --- finite-time thermodynamics --- heat transfer entropy --- entropy production --- new efficiency limits --- two-stage LNG compressor --- energy losses --- exergy destruction --- exergy efficiency --- Stirling cycle --- refrigerator --- heat exchanger --- second law