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According to van der Waals, the theorem of corresponding states (or principle of corresponding states) indicated that all fluids, when compared at the same reduced temperature and reduced pressure, have approximately the same compressibility factor and all deviate from ideal gas behavior to about the same degree.^[1]^[2]

Material constants that vary for each type of material are eliminated, in a recast reduced form of a constitutive equation. The reduced variables are defined in terms of critical variables.

It originated with the work of Johannes Diderik van der Waals in about 1873^[3] when he used the critical temperature and critical pressure to characterize a fluid.

The most prominent example is the van der Waals equation of state, the reduced form of which applies to all gases/fluids.

[edit] Values for some substances

The quantity listed is $\frac{p_c}{n_c k_B T_c}$ , where the subscript $c$ indicates the Critical point. This is predicted to be a constant independent of substance by many equations of state; the Van der Waals equation predicts a value of $\frac{3}{8}$ .

Substance	Value
H₂O	0.23^[4]
⁴He	0.31^[4]
He	0.30^[5]
H₂	0.30^[5]
Ne	0.29^[5]
N₂	0.29^[5]
Ar	0.29^[5]

[edit] References

^ Tester, Jefferson W. and Modell, Michael (1997). Thermodynamics and its applications. Prentice Hall. ISBN 0-13-915356-X.
^ Çengel Y.A., Boles M.A. (2007). Thermodynamics: An Engineering Approach (Sixth Edition ed.). McGraw Hill. ISBN 978-0007-125771-8. page 141
^ A Four-Parameter Corresponding States Correlation for Fluid Compressibility Factors by Walter M. Kalback and Kenneth E. Starling, Chemical Engineering Department,University of Oklahoma.
^ ^a ^b Goodstein, David (1985) [1975]. "6 [Critical Phenomena and Phase Transitions]". States of Matter (1st ed.). Toronto, Canada: General Publishing Company, Ltd.. p. 452. ISBN 0-486-64927-X.
^ ^a ^b ^c ^d ^e de Boer, J. (April 1948). "Quantum theory of condensed permanent gases I the law of corresponding states". Physica (Utrecht, Netherlands: Elsevier) 14: 139-148. doi:10.1016/0031-8914(48)90032-9.

[edit] See also

[edit] External links

Properties of Natural Gases. Includes a chart of compressibility factors versus reduced pressure and reduced temperature (on last page of the PDF document)

Theorem of corresponding states on SklogWiki.

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[0] Tester, Jefferson W. and Modell, Michael (1997). Thermodynamics and its applications. Prentice Hall. ISBN 0-13-915356-X.

[1] Çengel Y.A., Boles M.A. (2007). Thermodynamics: An Engineering Approach (Sixth Edition ed.). McGraw Hill. ISBN 978-0007-125771-8. page 141

[2] A Four-Parameter Corresponding States Correlation for Fluid Compressibility Factors by Walter M. Kalback and Kenneth E. Starling, Chemical Engineering Department,University of Oklahoma.

[Goodstein-3] Goodstein, David (1985) [1975]. "6 [Critical Phenomena and Phase Transitions]". States of Matter (1st ed.). Toronto, Canada: General Publishing Company, Ltd.. p. 452. ISBN 0-486-64927-X.

[Boer-4] ^ ^a ^b ^c ^d ^e de Boer, J. (April 1948). "Quantum theory of condensed permanent gases I the law of corresponding states". Physica (Utrecht, Netherlands: Elsevier) 14: 139-148. doi:10.1016/0031-8914(48)90032-9.

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Contents

[edit] Values for some substances

[edit] References

[edit] See also

[edit] External links