A mixture of two immiscible liquids `A` and `B`, having vapour pressure in pure state obeys the following relationship if `chi_(A)` and `chi_(B)` are mole fractions of `A` and `B` in vapour phase over the solution

Two miscible liquids A and B having vapour pressure in pure state P_(A)^(@) and P_(B)^(@) are mixed in mole fraction chi_(A) and chi_(B) to get a mixtue having total vapour vapour pressure of mixture P_(M) . Which of the following relations are correct?

At 300 K two pure liquids A and B have vapour pressures respectively 150 mm Hg and 100 mm Hg. In a equimolar liquid mixture of A and B, the mole fraction of B in the vapour phase above the solution at this temperature is:

If P^(@) and P_(s) are vapour pressure of solvent and its solution, respectively, chi_(1) and chi_(2) are mole fractions of solvent and solute, respectively, then

Two liquids having vapour pressure P_1^0 and P_2^0 in pure state in the ratio of 2:1 are mixed in the molar ratio 1:2 The ratio of their moles in the vapour state would be

Liquids A and B form ideal solution over the entire range of composition. At temperature T, equimolar binary solution of liquids A and B has vapour pressure 45 torr. At the same temperature, a new solution of A and B having mole fractions x_(A) and x_(B) , respectively, has vapours pressure of 22.5 torr. The value of x_(A)//x_(B) in the new solution is ______. (Given that the vapour pressure of pure liquid A is 20 torr at temperature T).

In a mixture of A and B having vapour pressure of pure A and B are 400 m Hg and 600 mm Hg respectively. Mole fraction of B in liquid phase is 0.5. Calculate total vapour pressure and mole fraction of A and B in vapour phase .

A mixture of two miscible liquids A and B is distilled under equilibrium conditions at 1 atm pressure. The mole fraction of A in solution and vapour phase are 0.30 and 0.60 respectively. Assuming ideal behaviour of the solution and the vapour, calculate the ratio of the vapour pressure of pure A to that of pure B.

Two liquid A and B have vapour pressure in the ratio P_A^(@) : P_B^(@) =1.3 at a certain temperature.Assume A and B from an ideal solution and the ratio of mole fractions of A to B in the vapour phase is 4 : 3, then the mole fraction of B in the solution at the same tempreature is : (a) 1/5 (b) 2/3 (c) 4/5 (d) 1/4

The vapour pressures of pure liquids A and B are 400 and 600 mmHg , respectively at 298K . On mixing the two liquids, the sum of their initial volumes is equal to the volume of the final mixture. The mole fraction of liquid B is 0.5 in the mixture. The vapour pressure of the final solution, the mole fractions of components A and B in vapour phase, respectively are:

The vapour pressures of pure liquids A and B are 400 and 600 mm Hg respectively at 298 K. On mixing the two liquids, the sum of their initial volumes is equal to the volume of the final mixture. The mole fraction of liquid B is 0.5 in the mixture. The vapour pressure of the final solution, the mole fractions of components A and B in vapour phase, respectively are :