The relative decrease in `VP` of an aqueous glucose dilute solution is found to be `0.018`. Hence, the elevation in boiling point is (it is given `1 molal` aqueous urea solution boils at `100.54^@)C` at `1 atm` pressure)

An aqueous solution of 0.01 m KCl cause the same elevation in boiling point as an aqueous solution of urea. The concentration of urea solution is :

Calculate elevation in boiling point for 2 molal aqueous solution of glucose. (Given K_b(H_(2)O) = 0.5 kg mol^(-1) )

Calculate relative lowering of vapour pressure of 0.161 molal aqueous solution

Which one of the following aqueous solutions will exhibit highest elevation in boiling point?

If the solution boils at a temperature T_1 and solvent at a temperature T_2 the elevation of boiling point is given by:

Figure explains elevation in boiling point when a non-volatile solute is added to a solvent. Variation of vapour pressure with temperaure and elevation in boiling point is marked. Elevation in b.p of an aqueous urea solution is 0.52^(@) (K_(b) = 0.52^(@) mol^(-1)kg) . Hence, mole fraction of urea in this solution is:

The relative lowering of vapour pressure of an aqueous solution containing a non-volatile solute, is 0.0125. The molality of the solution is

The relative lowering of vapour pressure of an aqueous solution containing a non-volatile solute, is 0.0125. The molality of the solution is

Calculate the vapour pressure of an aqueous solution of 1.0 molal glucose solution at 100^(@)C .

Estimste the lowering of vapour pressure due to the solute (glucose) in a 1.0 M aqueous solution at 100^(@)C :