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
Consider a binary mixture of volatile liquids . If at X_(A)=0.4 the Vapour pressure of solution is 580 torr than the mixture could be (P_(A)^(0)=300 torr, P_(B)^(0)=800 torr)
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:
At 70^@C vapour pressure of pure benezene and pure toluene are 500 torr and 200 torr, respectively. In a homogeneous mixture of toluene with benzene at 70^@C , the mole fraction of benezene is 0.4. Calculate the vapour pressure of the mixture.
The vapour pressure of a solution having 2.0g of a solute X (molar mass 32 g mol^(-1)) in 100g of CS_(2) (vapour pressure 854 Torr) is 848.9 Torr. The molecular formula of the solute is
Two pure liquids A & B which can from ideal solution have vapour pressures 300 torr & 800 torr . A mixture of the vapour of A & B for which the mole fraction of A is 0.25 is slowly compressed at temperature T. The total pressure applied when only last bubble of vapour remains
Two pure liquids A & B which can from ideal solution have vapour pressures 300 torr & 800 torr . A mixture of the vapour of A & B for which the mole fraction of A is 0.25 is slowly compressed at temperature T. The total pressure when first drop of condensate formed will be
Two pure liquids A & B which can from ideal solution have vapour pressures 300 torr & 800 torr . A mixture of the vapour of A & B for which the mole fraction of A is 0.25 is slowly compressed at temperature T. The molefraction of B in the last track of vapour is :
NARENDRA AWASTHI-DILUTE SOLUTION-Level 3 - Match The Column
