What is the overall effect of adding a solute to a solution?
1 Answer
Several colligative properties conspire to give the following three most common effects:
- Lower vapor pressure above the solution of the solvent in solution relative to that of the solvent by itself
- Higher boiling point of the solution relative to that of the pure solvent
- Lower freezing point of the solution relative to that of the pure solvent
Osmotic pressure
Vapor pressure for the solvent above the solution is given by Raoult's law for ideal solutions:
#bb(P_i = chi_i P_i^"*")# where
#chi_i = n_i/n_"tot"# is the mol fraction,#P_i# is the partial pressure of the solvent above the solution, and#P_i^"*"# is the pure vapor pressure of the solvent above itself.
When we consider component
#P_i = (1 - chi_j)P_i^"*"#
Since
Boiling point elevation occurs as follows:
#bb(DeltaT_b = iK_bm)# ,where:
#DeltaT_b = T_b - T_b^"*" > 0# is the change in boiling point due to adding solute. Of course,#T_b# is the boiling point of the solution, and#T_b^"*"# is the boiling point of the solvent by itself.#i# is the van't Hoff factor that is approximately how many particles go into solution for every solute formula unit.#K_b = "0.512"^@ "C"cdot"kg/mol"# is the boiling point elevation constant.#m# is the#"mol solute"/"kg solvent"# (the molality).
From the equation we can see that as concentration of solute increases,
Freezing point depression is analogous. The only difference is the numbers used:
#bb(DeltaT_f = iK_fm = T_f - T_f^"*")#
Whatever
