The three-parameter corresponding states principle

## A = difference between outlet and inlet moments 4 (1963).

Experimental surface-tension data for pure substances have been correlated successfully by the use of two recent modifications of the principle of corresponding states. The results are expressed in terms of simple analytical relations which allow one to calculate the surface-tension curves either fr

Subramanian [9, lo]. Hulburt and Akiyama observe that the solutions to PBE could be subjected to the many diverse PBE which arise in the description of Brownian coagulation ramifications of the method of weighted residuals[ 111. It may could be solved by the method of moment equations introduc-also

complete reduced-form thermodynamic descnption m terms of a smgle mate& parameter has an hlstorlcal precedent m the Van der Waals equation A sundar complete descnptlon can be constructed by empmcally correlatmg the acenmc factor o and the Ideal-gas heat capacity c.'(T,) with the smgle parameter 2. =

AMmet-The principle of corresponding states is used to predict the adsorption isotherms of gases possessing small, nearly spherical molecules. Adsorption data for argon on graphitized carbon black are used to predict adsorption isotherms for nitrogen, neopentane and carbon tetrachloride on the same