Equations of state: Difference between revisions
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*[[Amagat equation of state | Amagat]] | *[[Amagat equation of state | Amagat]] | ||
*[[Antoine equation of state | Antoine]] | *[[Antoine equation of state | Antoine]] | ||
*[[Baonza equation of state | Baonza]] | |||
*[[Battelli equation of state |Battelli]] | *[[Battelli equation of state |Battelli]] | ||
*[[Beattie-Bridgeman equation of state | Beattie-Bridgeman]] | *[[Beattie-Bridgeman equation of state | Beattie-Bridgeman]] | ||
*[[Benedict, Webb and Rubin equation of state |Benedict, Webb and Rubin ]] | *[[Benedict, Webb and Rubin equation of state |Benedict, Webb and Rubin ]] | ||
*[[Berthelot equation of state | Berthelot]] | *[[Berthelot equation of state | Berthelot]] | ||
*[[Birch-Murnaghan equation of state |Birch-Murnaghan]] | |||
*[[Boltzmann equation of state | Boltzmann]] | *[[Boltzmann equation of state | Boltzmann]] | ||
*[[Boynton and Bramley equation of state | Boynton and Bramley]] | *[[Boynton and Bramley equation of state | Boynton and Bramley]] | ||
| Line 33: | Line 35: | ||
*[[Goebel equation of state | Goebel]] | *[[Goebel equation of state | Goebel]] | ||
*[[Hirn equation of state |Hirn]] | *[[Hirn equation of state |Hirn]] | ||
*[[Holzapfel equation of state | Holzapfel]] | |||
*[[Jäger equation of state | Jäger]] | *[[Jäger equation of state | Jäger]] | ||
*[[Kam equation of state | Kam]] | *[[Kam equation of state | Kam]] | ||
*[[Kumari-Dass equation of state | Kumari-Dass]] | |||
*[[Lagrange equation of state | Lagrange]] | *[[Lagrange equation of state | Lagrange]] | ||
*[[Leduc equation of state | Leduc]] | *[[Leduc equation of state | Leduc]] | ||
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*[[Redlich-Kwong equation of state | Redlich-Kwong]] | *[[Redlich-Kwong equation of state | Redlich-Kwong]] | ||
*[[Reinganum equation of state | Reinganum]] | *[[Reinganum equation of state | Reinganum]] | ||
*[[Rose-Vinet (Universal) equation of state | Rose-Vinet]] | |||
*[[Sarrau equation of state | Sarrau]] | *[[Sarrau equation of state | Sarrau]] | ||
*[[Schiller equation of state | Schiller]] | *[[Schiller equation of state | Schiller]] | ||
| Line 58: | Line 63: | ||
*[[Tait equation of state | Tait]] | *[[Tait equation of state | Tait]] | ||
*[[Thiesen equation of state |Thiesen]] | *[[Thiesen equation of state |Thiesen]] | ||
*[[Tillotson equation of state | Tillotson]] | |||
*[[Tumlirz equation of state | Tumlirz]] | *[[Tumlirz equation of state | Tumlirz]] | ||
*[[Twu-Sim-Tassone equation of state | Twu-Sim-Tassone]] | |||
*[[van der Waals equation of state | van der Waals]] | *[[van der Waals equation of state | van der Waals]] | ||
*[[Walter equation of state | Walter]] | *[[Walter equation of state | Walter]] | ||
Revision as of 03:23, 3 November 2011
Equations of state are generally expressions that relate the macroscopic observables, or state variables, such as pressure, , volume, , and temperature, .
General
- Common bulk modulus point
- Law of corresponding states
- Linear isothermal regularity
- Maxwell's equal area construction
- Tait-Murnaghan relation
- Zeno line
Virial equations of state
Semi-empirical equations of state
Naturally there is the ideal gas equation of state. However, one of the first steps towards a description of realistic substances was the famous van der Waals equation of state. Since then a plethora of semi-empirical equations have been developed, often in a similar vein to the van der Waals equation of state, each trying to better reproduce the foibles of the many gasses and/or liquids that are often of industrial interest.
- Amagat
- Antoine
- Baonza
- Battelli
- Beattie-Bridgeman
- Benedict, Webb and Rubin
- Berthelot
- Birch-Murnaghan
- Boltzmann
- Boynton and Bramley
- Brillouin
- Clausius
- Cole
- Dieterici
- Dupré
- Elliott, Suresh, and Donohue
- Fouché
- Goebel
- Hirn
- Holzapfel
- Jäger
- Kam
- Kumari-Dass
- Lagrange
- Leduc
- Linear isothermal regularity
- Lorenz
- Mie
- Murnaghan
- Natanson
- Onnes
- Peczalski
- Peng and Robinson
- Planck
- Porter
- Rankine
- Recknagel
- Redlich-Kwong
- Reinganum
- Rose-Vinet
- Sarrau
- Schiller
- Schrieber
- Smoluchowski
- Starkweather
- Tait
- Thiesen
- Tillotson
- Tumlirz
- Twu-Sim-Tassone
- van der Waals
- Walter
- Wohl
- Water equation of state
Other methods
Model systems
Equations of state for idealised models:
- Three-dimensional hard dumbbells
- Hard convex bodies
- Hard rods
- Gaussian overlap model
- Square shoulder model
- Square well model
- Triangular well model
- Equations of state for hard spheres
- Equations of state for crystals of hard spheres
- Equations of state for hard sphere mixtures
- Equations of state for hard disks
- Hard ellipsoid equation of state
- Lennard-Jones equation of state
- Fused hard sphere chains
- Tetrahedral hard sphere model
See also
Interesting reading
- James A. Beattie and Walter H. Stockmayer "Equations of state", Reports on Progress in Physics 7 pp. 195-229 (1940)
- K. K. Shah and G. Thodos "A Comparison of Equations of State", Industrial & Engineering Chemistry 57 pp. 30-37 (1965)
- J. S. Rowlinson "The equation of state of dense systems", Reports on Progress in Physics 28 pp. 169-199 (1965)
Books
- "Equations of State for Fluids and Fluid Mixtures", Eds. J. V. Sengers, R. F. Kayser, C. J. Peters, and H. J. White Jr., Elsevier (2000) ISBN 0-444-50384-6