Liquids A and B form an ideal solution i...

Liquids A and B form an ideal solution in the entire composition range. At 350K, thee vapour pressures of pure A and B are `7xx10^(3)Pa` and `12xx10^(3)Pa`, respectively. The total vapour pressure in equilibrium with a solution containing 40 mole percent of A at this temperature is `1xx10^(x)Pa`. The numerical value of x is __________.

Similar Questions

Explore conceptually related problems

Liquids A and B form an ideal solution in the entire composition range. At 350K, the vapor pressure of pure A and pure B are 7xx10^(3) Pa and 12xx10^(3) Pa, respectively. The composition of the vapor in equilibrium with a solution containing 40 mole percent of A at this temperature is :

Liquids A and B form an ideal solution in the entire composition range. At 350K, the vapour pressures of pure A and B are 9 xx 10^3 Pa and 16 xx 10^3 Pa, respectively. The composition of the vapour in equilibrium with a solution containing 30 mole percent of A at this temperature is:

Two liquids A and B form an ideal solution. The ratio of vapour pressures of pure liquids A and B are 3: 5. If the mole fraction of A in the liquid solution at equilibrium with vapours is 0.4, then the mole-fraction of B in the liquid is

The vapour pressure of two pure liquids A and B are 50 and 40 torr respectively. If 8 moles of A is mixed with x moles of B , then vapour pressure of solution obtained is 48 torr. What is the value of x.

The vapour pressure of two pure liquids A and B are 50 and 40 torr respectively. If 8 moles of A is mixed with x moles of B, then vapour pressure of solution obtained is 48 torr. Calculate the value of x.

Similar Questions

Recommended Questions