Second virial coefficient
The second virial coefficient is usually written as B or as . The second virial coefficient represents the initial departure from ideal-gas behaviour. The second virial coefficient, in three dimensions, is given by
where is the intermolecular pair potential, T is the temperature and is the Boltzmann constant. Notice that the expression within the parenthesis of the integral is the Mayer f-function.
Isihara-Hadwiger formula
The Isihara-Hadwiger formula was discovered simultaneously and independently by Isihara [1] [2] [3] and the Swiss mathematician Hadwiger in 1950 [4] [5] [6] The second virial coefficient for any hard convex body is given by the exact relation
or
where
where is the volume, , the surface area, and the mean radius of curvature.
Hard spheres
For the hard sphere model one has [7]
leading to
Note that for the hard sphere is independent of temperature. See also: Hard sphere: virial coefficients.
Van der Waals equation of state
For the Van der Waals equation of state one has:
For the derivation click here.
Excluded volume
The second virial coefficient can be computed from the expression
where is the excluded volume.
See also
References
- ↑ Akira Isihara "Determination of Molecular Shape by Osmotic Measurement", Journal of Chemical Physics 18 pp. 1446-1449 (1950)
- ↑ Akira Isihara and Tsuyoshi Hayashida "Theory of High Polymer Solutions. I. Second Virial Coefficient for Rigid Ovaloids Model", Journal of the Physical Society of Japan 6 pp. 40-45 (1951)
- ↑ Akira Isihara and Tsuyoshi Hayashida "Theory of High Polymer Solutions. II. Special Forms of Second Osmotic Coefficient", Journal of the Physical Society of Japan 6 pp. 46-50 (1951)
- ↑ H. Hadwiger "Einige Anwendungen eines Funkticnalsatzes fur konvexe Körper in der räumichen Integralgeometrie" Mh. Math. 54 pp. 345- (1950)
- ↑ H. Hadwiger "Der kinetische Radius nichtkugelförmiger Moleküle" Experientia 7 pp. 395-398 (1951)
- ↑ H. Hadwiger "Altes und Neues über Konvexe Körper" Birkäuser Verlag (1955)
- ↑ Donald A. McQuarrie "Statistical Mechanics", University Science Books (2000) ISBN 978-1-891389-15-3 Eq. 12-40
Related reading