The second refractivity virial coefficient of the inert gases, CH4, and SF6

Second electrooptical virial coeffkients are expressed in terms of collision-induced intensity redistribution in absorption spectra of gases. Simple relations are obtained giving explicit frequency dependence of the contributions to the incremental dynamic polarixability due to pressure shift and as

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

Based on the measurement of the concentration dependence of the osmotic pressure of sodium alginate aqueous solution in different concentrations of potassium nitrate, the contribution of polyion charges to the second virial coefficient was predicted. According to this analysis, an equation A 2 = A 2

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