At`35^@C` the vapour of pure chlorofrom si `0.359`atm and that of pure acetone is `0.453`atm.Asolution containing `1`mole of chloroform and `4`mole of acetone has a vapoor pressure of (in atm)

At 35^(@)C the vapour pressure of pure chloroform is 0.359 at atm and that of pure acetone is 0.453 atm. A solution containing 1 mole of chloroform and 4 mole of acetone has a vapour pressure of (in atm)

At 334K the vapour pressure of benzene (C_(6)H_(6)) is 0.526 atm and that of toluene (C_(7)H_(8)) is 0.188 atm. In a solution containing 0.500 mole of benzene and 0.500 mole of toluene , what is the vapour pressure of toluene above the solution at 334K ?

At a certain temperature, the vapour pressure of pure ether is 640 mm and that of pure acetone is 280 mm . Calculate the mole fraction of each component in the vapour state if the mole fraction of ether in the solution is 0.50.

Volume of 0.5 mole of a gas at 1 atm. Pressure and 273 K is

Vapor pressure of a solution of Volatile components and composition of vapor: Consider a solution containing 738 g of water and 253 g of ethanol (C_(2)H_(5)OH) at 323 K . At this temperature, the vapour pressure of pure ethanol is 0.292 atm and the vapor pressure of pure water is 0.122 atm . Calculate the vapour pressure of the solution and mole fraction of every component in vapour phase. Strategy: First calculate the moles and the mole fraction of each component in the liquid solution. Then apply Raoult's law to each of the two volatile components to calculate their partial pressures. The total vapour pressure is the sum of the partial vapour pressures of the components and the mole fraction of a components in a gaseous mixture equals the ratio of its partial pressure to the total pressure.

Benzene (C_(6)H_(6),78g//mol) and toluene (C_(7)H_(8),92g//mol) from an ideal solution. At 60^@C the vapour pressure of pure benzene and pure toluene are 0.575 atm and 0.184 ,respectively . The mole fraction of benzene in solution of these two chemicals that has a vapour pressure of 0.350 atm at 60^@C

At 80^(@) C, the vapour pressure of pure liquid A is 520 mm Hg and that of pure liquid B is 1000 mm Hg. If a mixture solution of A and B boils at 80^(@) C and 1 atm pressure, the amount of A in the mixture is : (1 atm=760 mm Hg)