Home
Class 12
CHEMISTRY
Liquids X and Y form an ideal solution. ...

Liquids `X` and `Y` form an ideal solution. The vapour pressure of `X` and `Y` at `100^(@)C` are `300` and `100 mm` of `Hg`, respectively. Suppose that a solution composed of `1 mol` of `X` and `1 mol` of `Y` at `100^(@)C` is collected and condensed. This condensate is then heated at `100@C` and vapour is again condensed to form a liquid `A`. What is the mole fraction of `X` in `A` ?

Text Solution

Verified by Experts

In vessel `A`
`p_(x)@ = 300 ,p_(y)@ = 100 mm`
`chi_(x) = 1/2,chi_(y) = 1/2`
`p_(x) =300 xx 1/2 = 150 , p_(y) =100 xx 1/2 = 50`
`chi_(x)^(v) = 150 /200 = 3/4`
`chi_(y)^(v) = 1-3/4 = 1/4`
In vessel `B`
(`chi_(x)` in `B` = `3/4`
`chi_(y)` in `B` = `1/4`)]
`p_(x) = chi_(x) xx (p_(x)@)`
`p_(x) =3/4 xx 300 =225`
`p_(y) = chi_(y) xx (p_(y)@)`
`p_(y) = chi_(y) xx (p_(y)@)`
`p_(y) = 1/4 xx 100 = 25`
` (p_(x)) + (p_(y)) = 225 + 25 = 250`
`chi_(x)^(v)` in B = `225/250 =0.9`
`{:(( :' chi_(X)("liquid")=chiX^(vv) "in B"),("in C Vessel Vessel")):}`
Promotional Banner

Topper's Solved these Questions

  • SOLUTIONS

    CENGAGE CHEMISTRY|Exercise Solved Examples|40 Videos

  • SOLUTIONS

    CENGAGE CHEMISTRY|Exercise Exercises (Linked Comprehension)|58 Videos

  • SOLID STATE

    CENGAGE CHEMISTRY|Exercise Ex 1.2 (Objective)|9 Videos

  • SURFACE CHEMISTRY

    CENGAGE CHEMISTRY|Exercise Archives Subjective|2 Videos

Similar Questions

Explore conceptually related problems

When vapour condenses into liquid

The liquids X and Y from ideal solution having vapour pressures 200 and 100 mm Hg respectively. Calculate the mole fraction of component X in vapour phase in equilibrium with an equimolar solution of the two .

Two liquids A and B form an ideal solution of 1 mole of A and x moles of B is 550 mm of Hg. If the vapour pressures of pure A and B are 400 mm of Hg nd 600 mm of Hg respectively. Then x is-

The vapoure pressure of two pure liquids A and B, that from an ideal solution are 100 and 900 torr respectively at temperature T. This liquid solution of A and B is composed of 1 mole of A and 1 mole of B. What will be the pressure, when 1 mole of mixture has been vaporized?

Vapour pressure of methyl alcohol and dichloromethane at 27^@ C are 100 mm Hg and 350 mm Hg respectively. Vapour pressure of the solution obtained by mixing 1.5 mole of methyl alcohol and 0.5 mole of dichloromethane at 27^@ C is

At 25^(@)C, 1 mol of A having a vapour pressure of 100 torr and 1 mole of B having a vapour pressure of 300 torr were mixed. The vapour at equilibrium is removed, condensed and the condensate is heated back to 25^(@)C . The vapour now formed are again removed, recondensed and analyzed. what is the mole fraction of A in this condensate?