Diffusion pressure of the pure solvent is

The vapour pressure at a given temperature of an ideal solution containing 0.2 mol of non-volatile solute and 0.8 mol of a solvent is 60 mm of Hg . The vapour pressure of the pure solvent at the same temperature will be

An ideal solution was found to have a vapour pressure of 80 torr when the mole fraction of a non-volatile solute was 0.2. What would be the vapour pressure of the pure solvent at the same temperature?

Based on the given diagram, which of the following statements regarding the homogenous solution of two volatile liquids are correct? (1) Plots AD and BC show that Raoult's law is obeyed for the solution in which B is a solvent and A is the solute and as well as for that in which A is solvent and B is solute. (2) Plot CD shows that Dalton's law of partial pressures is obeyed by the binary solution of components A and B. (3) EF + EG = EH; and AC and BD correspond to the vapour pressure of the pure solvents A and B respectively.

When certain solute particles are added to the pure solvent the diffusion pressure of resulting solution is lowered by an amount expressed in term of

The vapour pressure of pure solvent is 0.8 mm of Hg at a particular temperature. On addition of a non-volatile solute ‘A’ the vapour pressure of solution becomes 0.6 mm of Hg. The mole fraction of component ‘A’ is:

Which of the following is the expression of Raoult’s law? ( p^(o) = vapour pressure of pure solvent, p^(s) = vapour pressure of the solution)

The lowering of vapour pressure in a saturated aq. Solution of salt AB is found to be 0.108 torr. If vapour pressure of pure solvent at the same temperature is 300 torr, find the solubility product of salt AB.

Diffusion pressure deficit is the amount by which two solutions differ in their

The value of osmotic pressure becomes equal to diffusion pressure deficit when a cell is placed in a