Calorimetrically determined heats of solution of tetraethyltin in methanol–water mixtures from χ(MeOH)= 1 to χ(MeOH)= 0·51, and of mercuric chloride in methanol–water mixtures from χ(MeOH)= 1 to χ(MeOH)= 0 are reported. When combined with the previously determined enthalpies of activation for the substitution (1) these Et₄Sn + HgCl₂→ EtHgCl + Et₃SnCl (1), heats of solution yield values of ΔH_t°(Tr), the enthalpy of transfer from methanol to aqueous methanol of the transition state in reaction (1). It is shown that the reduction in the enthalpy of activation of reaction (1) observed when solvent methanol is replaced by aqueous methanol is due to a very large increase in the enthalpy of the initial state on transfer from methanol to aqueous methanol. The enthalpy of the transition state remains constant over the solvent range χ(MeOH)= 1 to χ(MeOH)= 0·9, but from χ(MeOH)= 0·9 to χ(MeOH)= 0·51 the value of ΔH_t°(Tr) increases by over 3 kcal. mole^–1.