On the second and third virial coefficient of methyl fluoride

The second and the third virial coefficients in the lattice model of athermal mixtures of molecules of difierent sizes are calculated. Ail computations have been done for two-and three-dimensional simple square and simple cubic lattices.

This note presents an efficient and fast method for evaluating the third virial coefficient for radially symmetric two-body potential functions. The computational method uses a list processing scheme based on a proper multidimensional integration formula and is considerably superior to the tradition

## Based on a selected p, f~ T data set of oxygen for the range from low to moderate densities an equation of state for oxygen vapour has been established From this evaluation, new values for the second and third virial coefficients were derived In addition, correlation equations for the temperatu

Pair interaction parameters like the second virial coefficient A z or the Flory-Huggins parameter Z are influenced by inter-and intramolecular contacts. The paper discusses a model in which A 2 linearly depends on M -~" 0.5), where a is the exponent in the Mark-Houwink relation. From this dependence

Scaling theory is applied to derive expressions describing the influence of polymolecularity on the second virial coefficient, A , , as obtained from osmotic pressure and light scattering measurements. Numerical values of polymolecularity correction factors are calculated for Schulz-Zimm and logarit