An ideal solution has two components A and B. If A is more volatile than B and `P_(A)^@ gt P_(T)`, then the correct relation between mole fractions of A in liquid phase (X) and in vapour phase (Y) is:

If two substances A and B have P_(A)^(@):P_(B)^(@)=1:2 and have a mole fraction in solution 1:2, then mole fraction of A in vapours is

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

A mixture of volatile components A and B has total vapour pressure (in torr) P=254-119 chi_(A) where chi_(A) is the mole fraction of Ain mixture. Hence, P_(A)^@ and P_(B)^@ are (torr)

An ideal solutioni is formed by mixing two volatile liquids A and Bl. A plot of 1/(Y_(A)) along Y axis against 1/(X_(A)) along x axis gives a straight line. What is the slope of the straight line? ( X_(A) mole fraction of A in solution, Y_(A) mole fraction of A in vapour phase)

Assertion : At equilibrium, vapour phase will be always rich in component which is more volatile. Reason : The composition of vapour phase in equilibrium with the solution is determined by the partial pressures of the components. a)If both (A) and (R) are correct and (R) is the correct explanation of(A). b)If both (A) and (R) are correct, but (R) is not the correct explanation of (A). c)If (A) is correct, but (R) is incorrect. d)If both (A) and (R) are incorrect.

A solution has a 1:4 mole ratio of pentane to hexane. The vapour pressure of the pure hydrocarbon at 30^(@)C are 440 mm Hg for pentane and 120 mmHg for hexane. The mole fraction of pentane in the vapour phase at 30^(@)C is

p(x)= ax^2+bx+5 :- If (x+1) is a factor of p(x),then find the relation between a and b?

Two components A and B form an ideal solution. The mole fractions of A and B in solution are X_(A) and X_(B) , while that in vapour phase are Y_(A) and Y_(B) . The slope and intercept of plot of (1)/(Y_(A)) " vs " (1)/(X_(A)) will be