Find the freezing point of a glucose solution whose osmotic pressure at `25^(@)C` is found to be 30 atm. `K_(f)` (water) `= 1.86 kg mol^(-1)K`.

The freezing poing of an aqueous solution of a non-electrolyte is -0.14^(@)C . The molarity of this solution is [K_(f) (H_(2)O) = 1.86 kg mol^(-1)] :

The freezing point of a 1.00 m aqueous solution of HF is found to be -1.91^(@)C . The freezing point constant of water, K_(f) , is 1.86 K kg mol^(-1) . The percentage dissociation of HF at this concentration is:-

The addition of 3g of a substance to 100g C CI_(4)(M = 154 g mol^(-1)) raises the boiling point of C CI_(4) by 0.60^(@)C if K_(b)(C CI_(4)) is 5K mol^(-1) kg , calculate (a) the freezing point depression (b) the relative lowering of vapour pressure (c) the osmotic pressure at 298K and (d) the molar mass of the substance. Given: K_(f) (C CI_(4)) = 31.8 K kg mol^(-1) and rho (solution) = 1.64 g cm^(-3)

If solution sulphate is considered to be completely dissociated into cations and anions in aqueous solution, the change in freezing point water (Delta T_(f)) , when 0.01 mole of solution sulphate is dissolved in 1 kg of water, is: (K'_(f) = 1.86 kg mol^(-1))