Vapour pressure of pure benzene is 119 torr and that of toluene is `37.0` torr at the same temperature. Mole fraction of toluene in vapour phase which is in equilibrium with a solution of benzene and toulene having a mole fraction of toluene `0.50`, will be

The molality of aqueous solution of any solute having mole fraction 0.25 is

A solution at 20^(@)C is composed of 1.5 mol of benzene and 3.5 mol of toluene. If the vapour pressure of pure benzene and pure toluene at this temperature are 74.7 torr and 22.3 torr, respectively, then the total vapour pressure of the solution and the benzene mole fraction in equilibrium with it will be, respectively:

The vapour pressure of pure benzeen at 50^(@)C is 268 torr. How many mol of non-volatile solute per mol of benzene is required to prepare a solution of benzene having a vapour pressure of 167 torr at 50^(@)C :

Benzene and toluene form nearly ideal solution. At 20^(@)C the vapour pressure of benzene is 75 torr and that of toluene is 22 torr. The partial vapour pressure of benzene at 20^(@)C for a solution containing 78g of benzene and 46 g of toluene in torr is-

At 88^(@)C benzene has a vapour pressure of 900 torr and toluene has vapour pressure of 360 torr. What is the mole fraction of benzene in the mixture with toluene that will be boil at 88^(@)C at 1 atm pressure, benzene- toluene form an ideal solution.

The vapour pressure of pure liquid solvent A is 0.80 atm.When a non volatile substances B is added to the solvent, its vapour pressure drops to 0.60 atm. Mole fraction of the components B in the solution is:

The vapour pressure of ethanol and methanol ate 44.5 mm Hg and 88.7 mm Hg , respectively. An ideal solution is formed at the same temperature by mixing 60g of ethanol and 40g of methanol. Calculate the total vapour pressure of the solution and the mole fraction of methanol in the vapour.