Results 281 to 290 of about 3,086,072 (317)
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1991
It was shown in Chapter 11 that both the internal energy and the entropy of a closed hydrostatic system can be determined completely when the equation of state and one principal heat capacity are known. This knowledge then gives complete information about the thermodynamic behaviour of the system.
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It was shown in Chapter 11 that both the internal energy and the entropy of a closed hydrostatic system can be determined completely when the equation of state and one principal heat capacity are known. This knowledge then gives complete information about the thermodynamic behaviour of the system.
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Physical Review B, 1988
The "universal" equation of state recently proposed by Vinet, Ferrante, Rose, and Smith is numerically equivalent, to leading order in finite strain, to several well-established two-parameter equations of state. Notably, it is in accord with the Birch-Murnaghan equation that is derived from Eulerian finite-strain theory, and hence is applicable to ...
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The "universal" equation of state recently proposed by Vinet, Ferrante, Rose, and Smith is numerically equivalent, to leading order in finite strain, to several well-established two-parameter equations of state. Notably, it is in accord with the Birch-Murnaghan equation that is derived from Eulerian finite-strain theory, and hence is applicable to ...
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Reviews in Mineralogy and Geochemistry, 2000
Diffraction experiments at high pressures provide measurement of the variation of the unit-cell parameters of the sample with pressure and thereby the variation of its volume (or equivalently its density) with pressure, and sometimes temperature. This last is known as the ‘Equation of State’ (EoS) of the material.
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Diffraction experiments at high pressures provide measurement of the variation of the unit-cell parameters of the sample with pressure and thereby the variation of its volume (or equivalently its density) with pressure, and sometimes temperature. This last is known as the ‘Equation of State’ (EoS) of the material.
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2010
Studying the motions of complex fluid media involves determining how local quantities that characterize the behavior of single- or multicomponent, homogeneous or heterogeneous media evolve over time and space.
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Studying the motions of complex fluid media involves determining how local quantities that characterize the behavior of single- or multicomponent, homogeneous or heterogeneous media evolve over time and space.
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2017
This chapter introduces an approach for calculating pressure-volume-temperature equations of state with nested sampling.
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This chapter introduces an approach for calculating pressure-volume-temperature equations of state with nested sampling.
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1993
The use of plane shock waves to determine the equations of state of condensed materials to very high pressure began in 1955 with the classic papers of Walsh and Christian (1955) and Bancroft et al. (1956). Walsh and Christian described the use of in-contact explosives to determine dynamic pressure– volume relations for metals and compare these to the ...
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The use of plane shock waves to determine the equations of state of condensed materials to very high pressure began in 1955 with the classic papers of Walsh and Christian (1955) and Bancroft et al. (1956). Walsh and Christian described the use of in-contact explosives to determine dynamic pressure– volume relations for metals and compare these to the ...
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A-to-Z Guide to Thermodynamics, Heat and Mass Transfer, and Fluids Engineering, 2006
V. E. Fortov, V. A. Bushman
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V. E. Fortov, V. A. Bushman
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Equilibrium constants from a modified Redlich-Kwong equation of state
, 1972G. Soave
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2019
In the previous chapters the law of energy conservation has been thoroughly discussed. By this, it was possible to evaluate thermodynamic systems energetically. A distinction has been made between closed and open systems. However, next to thermal state values, such as pressure p or temperature T, that can be measured easily, a new category of state ...
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In the previous chapters the law of energy conservation has been thoroughly discussed. By this, it was possible to evaluate thermodynamic systems energetically. A distinction has been made between closed and open systems. However, next to thermal state values, such as pressure p or temperature T, that can be measured easily, a new category of state ...
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2019
In this chapter, the correlation between the thermal state variables pressure p, specific volume v and temperature T is investigated. As already discussed in the previous chapter, thermal state values can easily be measured. Furthermore, according to Gibbs’ phase law for ideal gases two intensive state values, i.e.
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In this chapter, the correlation between the thermal state variables pressure p, specific volume v and temperature T is investigated. As already discussed in the previous chapter, thermal state values can easily be measured. Furthermore, according to Gibbs’ phase law for ideal gases two intensive state values, i.e.
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