A mixture of two immiscible liquids A an...

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

Promotional Banner

Promotional Banner

Similar Questions

Explore conceptually related problems

A mixture of two immiscible liquids A and B, having vapour pressure in pure state P_(A) and P_(B) obeys the following relationship if ch_(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?

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?

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:

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:

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

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

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

Recommended Questions

A mixture of two immiscible liquids A and B, having vapour pressure in...
Text Solution
|
Mole fraction of component A in vapour phase is chi(1) and that of com...
Text Solution
|
Two miscible liquids A and B having vapour pressure in pure state P(A)...
Text Solution
|
A mixture of two immiscible liquids A and B, having vapour pressure in...
Text Solution
|
For a binary liquid solution of A and B. P^(overset(0)A)= pure vapour ...
Text Solution
|
If P(A) is the vapour pressure of a pure liquid A and the mole fractio...
Text Solution
|
If x(1) and x(2) represent the mole fraction of a component A in the v...
Text Solution
|
At 300 K two pure liquids A and B have vapour pressures respectively 1...
Text Solution
|
At 300 K two pure liquids A and B have vapour pressures respectively 1...
Text Solution
|