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{{Thermodynamics|cTopic=[[List of thermodynamic properties|System properties]]}}
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According to van der Waals, the '''theorem of corresponding states''' (or '''principle of corresponding states''') indicates that all [[fluid]]s, 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.<ref>{{cite book |author=Tester, Jefferson W. and Modell, Michael |title=Thermodynamics and its applications |publisher=Prentice Hall |year=1997 |isbn=0-13-915356-X}}</ref><ref>{{cite book|author=Çengel Y.A., Boles M.A.|title=Thermodynamics: An Engineering Approach|edition=Sixth Edition|publisher=McGraw Hill|year= 2007|isbn=9780071257718}} page 141</ref>
 
[[Material constant]]s 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<ref>[http://digital.library.okstate.edu/oas/oas_pdf/v56/p125_132.pdf ''A Four-Parameter Corresponding States Correlation for Fluid Compressibility Factors''] by Walter M. Kalback and Kenneth E. Starling, Chemical Engineering Department, [[University of Oklahoma]].</ref> 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 fluids.
 
==Compressibility factor at the critical point==
 
The compressibility factor at the critical point, which is defined as <math>Z_c=\frac{p_c}{n_c k_B T_c}</math>, where the subscript <math>c</math> indicates the [[Critical point (thermodynamics)|critical point]] is predicted to be a constant independent of substance by many equations of state; the [[Van der Waals equation]] e.g. predicts a value of <math>3/8 = 0.375</math>.
 
{| class="wikitable sortable" border="1"
|-
! Substance
! Value
|-
| [[Properties of water|H<sub>2</sub>O]]
| 0.23<ref name="Goodstein">{{cite book|last=Goodstein|first=David|title=States of Matter|edition=1st|origyear=1975|year=1985|publisher=[[General Publishing Company, Ltd.]]|location=[[Toronto]], [[Canada]]|isbn=0-486-64927-X|page=452|chapter=6|trans_chapter=Critical Phenomena and Phase Transitions}}</ref>
|-
| [[Helium-4|<sup>4</sup>He]]
| 0.31<ref name="Goodstein"/>
|-
|[[Helium|He]]
| 0.30<ref name="Boer">{{cite journal| last        = de Boer| first      = J.|date=April 1948| title      = Quantum theory of condensed permanent gases I the law of corresponding states| journal    = [[Physica (journal)|Physica]]| volume      = 14| pages      = 139–148| publisher  = [[Elsevier]]| location    = [[Utrecht (city)|Utrecht]], [[Netherlands]]| doi        =10.1016/0031-8914(48)90032-9 | accessdate  = 2009-12-08|bibcode = 1948Phy....14..139D }}</ref>
|-
|[[Hydrogen|H<sub>2</sub>]]
|0.30<ref name="Boer"/>
|-
|[[Neon|Ne]]
|0.29<ref name="Boer"/>
|-
|[[Nitrogen|N<sub>2</sub>]]
|0.29<ref name="Boer"/>
|-
|[[Argon|Ar]]
|0.29<ref name="Boer"/>
|}
 
==See also==
*[[Van der Waals equation]]
*[[Equation of state]]s
*[[Compressibility factor]]s
*[[Johannes Diderik van der Waals]]
*[[Noro-Frenkel law of corresponding states]]
 
==References==
{{reflist}}
 
==External links==
* [http://iptibm1.ipt.ntnu.no/~jsg/undervisning/naturgass/parlaktuna/Chap3.pdf Properties of Natural Gases]. Includes a chart of compressibility factors versus reduced pressure and reduced temperature (on last page of the PDF document)
*[http://www.sklogwiki.org/SklogWiki/index.php/Law_of_corresponding_states Theorem of corresponding states] on [http://www.sklogwiki.org/ SklogWiki].
 
<br>
 
[[Category:Thermodynamics]]
[[Category:Chemical engineering]]
[[Category:Continuum mechanics]]
 
{{thermodynamics-stub}}

Latest revision as of 17:56, 7 November 2014

Hello! Allow me start by stating my title - Ron Stephenson. The factor I adore most flower arranging and now I have time to take on new issues. His day occupation is a cashier and his wage has been truly fulfilling. I currently reside in Alabama.

My website 168.193