The solvation of argon in 10 different solvents at room temperature is
analysed in terms of the theoretical framework developed by Lee. In o
rder to perform calculations, we used the approach devised by Pierotti
and firmly validated by Lee's theory.The fair agreement between the e
xperimental and the calculated values of Delta G, Delta H*, and Delta
S is carefully analysed. It proves that the excluded volume effect,
due to cavity creation in the solvent, opposes the solubility process.
This effect in water is exaggerated by the small size of the water mo
lecules and is the cause of hydrophobicity. The qualitative difference
between water and hydrazine with regard to the solvation enthalpy and
entropy changes is rationalized on the basis of the contributions ari
sing from the structural reorganization in the two solvents on solute
insertion.