Results 301 to 310 of about 567,849 (320)
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Accounts of Chemical Research, 2016
Conventional thermodynamics for bulk substances encounters challenges when one considers materials on the nanometer scale. Quantities such as entropy, enthalpy, free energy, melting temperature, ordering temperature, Debye temperature, and specific heat no longer remain constant but change with the crystal dimension, size, and morphology.
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Conventional thermodynamics for bulk substances encounters challenges when one considers materials on the nanometer scale. Quantities such as entropy, enthalpy, free energy, melting temperature, ordering temperature, Debye temperature, and specific heat no longer remain constant but change with the crystal dimension, size, and morphology.
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Physical Review, 1969
Summary: It is shown that a generalized formulation of statistical mechanics provides a unified logical basis for the construction of a manifestly covariant theory of relativistic thermodynamics in contrast to heuristic approaches, such as the original theory by Planck and Einstein, and more recent ones by Ott and Møller.
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Summary: It is shown that a generalized formulation of statistical mechanics provides a unified logical basis for the construction of a manifestly covariant theory of relativistic thermodynamics in contrast to heuristic approaches, such as the original theory by Planck and Einstein, and more recent ones by Ott and Møller.
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Journal of Statistical Physics, 2001
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zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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1993
In theoretical developments, thermodynamic constraints are introduced by putting the system of interest in contact with some other virtually infinite system, the `reservoir', with a coupling vanishingly small in the thermodynamic limit. Neither ofthese `infinite' conditions can be reproduced in molecular dynamics simulations where the time evolution of
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In theoretical developments, thermodynamic constraints are introduced by putting the system of interest in contact with some other virtually infinite system, the `reservoir', with a coupling vanishingly small in the thermodynamic limit. Neither ofthese `infinite' conditions can be reproduced in molecular dynamics simulations where the time evolution of
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Journal of Applied Physics, 1953
The foundations and implications of the concepts essential to the thermodynamic analysis of nonequilibrium systems are investigated. Following a review of the background developments in irreversible thermodynamics the concept of thermostatic isolation is introduced.
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The foundations and implications of the concepts essential to the thermodynamic analysis of nonequilibrium systems are investigated. Following a review of the background developments in irreversible thermodynamics the concept of thermostatic isolation is introduced.
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Thermodynamics and Statistical Thermodynamics.
Journal of the American Chemical Society, 1960openaire +2 more sources