Two moles of pure liquid 'A' `(P_(A)^(0)=80` mmof Hg) and 3 mole of pure liquid 'B' `(P_(B)^(0)=120mm` of Hg) are mixed . Assuming ideal behaviour

4 mole of pure liquid A (P_(A)^(0)=80mm of Hg) and 6 mole of pure liquid B (P_(B)^(0)=100mm of Hg) are mixed . The vapour pressure of the resulting solution is found to be 90 mm of Hg then

For the mixture of liquid "A" (P^(0)=40mm of Hg) and liquid "B" ( P^(0)=72mm of Hg), the vapour pressure is found to be 56mm of Hg. Assuming ideal behaviour of the solution

Two moles of liquid A(P_(A)^(0)=100 torr) and 3 moles of liquid B(P_(B)^(0)=150 torr) from a solution having vapour pressure of 120 torr. Based upon this observation one can conclude:

One mole of liquid A (vapour pressure =300 mm Hg ) and 2 moles of a liquid B (Vapour pressure =360 mm Hg) are mixed . The mole fraction of A in the vapour mixture if found to be 5//17 . Which of the following is correct ?

At certain temperature a solution of 3 mol of a liquid A(P^(0)=500 torr) and 1 mol of liquide B(P^(0)=340 torr) has a vapour pressure of 435 torr , we can conclude that

The vapour pressure of a mixure of 1 mole of liquid 'A' and 3 mole of liquid 'B' is 550 mm of Hg. When one mole of liquid 'B' is further added, the vapour pressure of the solution increases by 10 mm of Hg. The vapour pressure of pure liquid A and B are respectively in mm of Hg .

The vapour pressure of a pure liquid A is 40 mm of Hg at 310K. The vapour pressure of its liquid in a solution with liquid B is 32 mm of Hg. Mole fraction of A in the solution, if it obeys Raoult's law is :

Two liquids A and B have vapour pressure in the ratio P_(A)^(0):P_(B)^(0)=1:3 at a certain temperature . Assume A and B from an ideal solution and the ratio of mole fraction of A to B in the vapour phase is 4:3 . Then the mole fraction of B in the solution at the same temperature is :

The vapour pressure of pure liquids A and B are 450 and 700 mm Hg respectively, at 350 K. Find out the composition of the liquid mixture if total vapour pressure is 600 mm Hg. Also find the composition of the vapour phase. Apply Raoult's law P_(T)=P_(A)^(0)x_(A)+P_(B)^(0)x_(B)=P_(B)^(0)x_(A)+P_(B)^(0)(1-x_(A)) to calculate mole fraction of A(x_(A)) and B(x_(B)) . In vapour phase, partial pressure are used insted of number of moles.