Results 301 to 310 of about 548,688 (336)
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Journal of Mathematical Physics, 1976
The fundamental structure of thermodynamics is purely algebraic, in the sense of atopological, and it is also independent of partitions, composite systems, the zeroth law, and entropy. The algebraic structure requires the notion of heat, but not the first law.
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The fundamental structure of thermodynamics is purely algebraic, in the sense of atopological, and it is also independent of partitions, composite systems, the zeroth law, and entropy. The algebraic structure requires the notion of heat, but not the first law.
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The American Mathematical Monthly, 1933
(1933). Thermodynamics—An Exposition. The American Mathematical Monthly: Vol. 40, No. 10P1, pp. 580-592.
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(1933). Thermodynamics—An Exposition. The American Mathematical Monthly: Vol. 40, No. 10P1, pp. 580-592.
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Journal of Applied Mechanics, 1983
The authors have tried to exhibit some of the most significant lines of research, appeared in literature during the last 15-20 years in continuum thermodynamics. The main parts of this paper are briefly described: The first section is devoted to the basic equations.
Germain, Paul +2 more
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The authors have tried to exhibit some of the most significant lines of research, appeared in literature during the last 15-20 years in continuum thermodynamics. The main parts of this paper are briefly described: The first section is devoted to the basic equations.
Germain, Paul +2 more
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The thermodynamics of strontium
Transactions of the Faraday Society, 19461. Measurements of heats of solution of strontium carbonate in hydrochloric acid were carried out which make it possible to determine the heats of reaction: SrO(s)+CO2(g)=SrCO3(s) ΔH 298=-290,887 cal. Sr(s)+C(gr)+3/2O 2(g)=SrCO3(s) ΔH298=-56,057 cal. Sr(s)+2H+=Sr+++H2(g) ΔH 298=-130,214 cal. and the entropy of the aqueous strontium ion.
Kapustinsky A., Dezideryeva I.
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Thermodynamics on the Nanoscale
The Journal of Physical Chemistry B, 2005Classical thermodynamics is applied to the melting of nanometer-sized Sn particles with radii in the range 5-50 nm. Such particles display a depression of both the melting point and the latent heat of fusion depending on the particle size. The size dependence can be explained with the formation of a structurally perturbed layer at the particle surface.
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Hospital Practice, 1988
Abstract Richard Milhous Nixon is not my favorite U.S. President, nor is he my least favorite. He did play a major role in determining my career, however, and I think that the time has come to acknowledge his contribution. I was about to say, “to give the devil his due,” but that would be a more judgmental statement than I wish to make ...
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Abstract Richard Milhous Nixon is not my favorite U.S. President, nor is he my least favorite. He did play a major role in determining my career, however, and I think that the time has come to acknowledge his contribution. I was about to say, “to give the devil his due,” but that would be a more judgmental statement than I wish to make ...
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European Journal of Physics, 2010
The logical structure of classical thermodynamics is presented in a modern, geometrical manner. The first and second law receive clear, operatively oriented statements and the Gibbs free energy extremum principle is fully discussed. Applications relevant to chemistry, such as phase transitions, dilute solutions theory and, in particular, the law of ...
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The logical structure of classical thermodynamics is presented in a modern, geometrical manner. The first and second law receive clear, operatively oriented statements and the Gibbs free energy extremum principle is fully discussed. Applications relevant to chemistry, such as phase transitions, dilute solutions theory and, in particular, the law of ...
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From irreversible thermodynamics to network thermodynamics
The Journal of Membrane Biology, 1972Whenever the subject of the thermodynamics of irreversible processes TIP is brought up among biologists, there seems to be a very polarized reaction: some have found it a useful tool, others reject it utterly, and for some reason which I do not understand, even fervently.
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