Results 81 to 90 of about 199 (119)
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A “perfect Janus emulsion”: Thermodynamic factors
Journal of Dispersion Science and Technology, 2016ABSTRACTThe topology and interfacial thermodynamics of “perfect Janus emulsions” are considered, using two cases to illustrate the range of topological features. Initially, the correlation is established between lobe volumes and the location of the contact line, followed by a description of the essential angles involved and finally the requirements for
I. Kovach, S. E. Friberg, J. Koetz
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Thermodynamics of internal strain in perfect crystals
Journal of Physics C: Solid State Physics, 1971The thermodynamic theory of solids is generalized to take explicit account of internal strains in perfect non-Bravais crystals. Treating external and internal strains as independent leads to the definition of generalized thermodynamic properties, namely elastic constants, heat capacities, thermal expansion coefficients and Gruneisen parameters ...
Barron, T. H K +2 more
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Thermodynamic Properties of Hypothetical Perfect and Real Krypton Crystals
Physica Status Solidi (a), 1971From measurements of the thermal expansivity and the isothermal compressibility at P = 0 of solid Kr using X-ray diffraction and a dilatometer between 4 and 115 K some vacancy properties could be determined. We found h = (86 ± 9) meV for the formation enthalpy of monovacancies, for the entropy, and for the vacancy free volume of formation atomic ...
P. Korpiun, H. J. Coufal
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Thermodynamics of a dilute non-perfect Bose-Einstein gas
Europhysics Letters (EPL), 2000We study the thermodynamics of a dilute Bose gas. Not too close to the Bose-Einstein transition we find results differing from the ones in the literature. As a consequence the low momentum part of the distribution of quasiparticules is not a Bose factor, and the effective spectrum is not of the phonon type.
Y Pomeau, S Rica
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Entropy: Part II — Thermodynamics and Perfect Order
Advanced Energy Systems, 1999Abstract Part II of this two-part paper refutes the beliefs about the statistical interpretation of thermodynamics, and the association of entropy with disorder that are summarized in Part I. The refutation of the statistical approach is based on either a nonstatistical unified quantum theory of mechanics and thermodynamics, or an almost
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Thermodynamic properties of the low-dimensional perfect Bose gas
Physica A: Statistical Mechanics and its Applications, 1985Abstract The chemical potential, the specific heat and the correlation function are obtained for the perfect Bose gas at a constant volume at low spatial dimensionalities. The Bose-Einstein condensation occurs only at zero temperature. Some nonuniversal features of this condensation are discussed.
G. Busiello, L. De Cesare, D.I. Uzunov
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Thermodynamics of internal strain in perfect crystals. II. Further regimes
Journal of Physics C: Solid State Physics, 1974For pt. I see abstr. A9883 of 1972. The thermodynamics of solids can be treated in a general regime where internal strains are regarded as independent of external strains. There are then four restricted regimes in which one set of strains or stresses is held constant.
Munn, R. W., Newham, R. J.
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A Perfect (Gas) Analogy for Kinetic versus Thermodynamic Control
Journal of Chemical Education, 1994Physical analogy for giving students a better feel for the relationship between kinetic and thermodynamic control of a reaction.
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Thermodynamic-Perfection Characteristics of Heat-Exchange Systems
Journal of Engineering Physics and Thermophysics, 2023A. M. Tsirlin, A. A. Mazikov
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Thermodynamic Entropy Balances in Perfect Mixing Apparatuses
Journal of Engineering Physics and Thermophysics, 2023A. M. Tsirlin, A. M. Vasil’ev
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