Two liquids `A` and `B` form an ideal soluton. The vapour pressure of pure `A` and pure `B` are `66 mm Hg` and `88 mm Hg`, respectively. Calculate the composition of vapour `A` in the solution which is equilbrium and whose molar volume is `36%`.

Liquids X and Y form an ideal solution. The vapour pressure of X and Y at 100^(@)C are 300 and 100 mm of Hg , respectively. Suppose that a solution composed of 1 mol of X and 1 mol of Y at 100^(@)C is collected and condensed. This condensate is then heated at 100@C and vapour is again condensed to form a liquid A . What is the mole fraction of X in A ?

At 40^(@)C the vapour pressure of pure liquids, benzene and toluene, are 160 mm Hg and 60 mm Hg respectively. At the same temperature, the vapour pressure of an equimolar solution of the liquids, assuming the ideal solution will be:

At 25^(@)C , the vapour pressure of pure water is 25.0 mm Hg . And that of an aqueous dilute solution of urea is 20 mm Hg . Calculate the molality of the solution.

Two liquids A and B form an ideal solution. At 300 K , the vapour pressure of a solution containing 1 mol of A and 3 mol fo B is 550 mm Hg . At the same temperature, if 1 mol more of B is added to this solution, the vapour pressure of the solution increases by 10 mm Hg . Determine the vapour pressure of A and B in their pure states.

Vapour pressure of chloroform and dichloroethane at 298K are 200 mm Hg and 415 mm Hg respectively. If the mole fraction of chloroform is 0.312. calculate vapour pressure of the solution.

The vapour pressure of two pure components A and B forming an ideal solution are 100 torr and 80 torr respectively. The total pressure of the solution obtained by mixing 2 mol of A and 3 mol of B is :

The vapour pressure of a dilute aqueous solution of glucose is 700 mm of Hg at 373 K . Calculate the (a) molality and (b) mole fraction of the solute.

The vapour pressure of ethanol and methanol are 42.0 mm and 88.55 mm Hg respectively. An ideal solution is formed at the same temperature by mixing 46.0g of ethanol with 16.0 of methanol. The mole fraction of methanol in the vapour is

Benzene and toluene form nearly ideal solution. At 298 K , the vapour pressure of pure benzene is 150 torr and of pure toluence is 50 torr. Calculate the vapour pressure of the solution, containing equal weights of two substances at this temperature?