The total vapour pressure of a binary solution is gives by
P = (`100X_(A) + 260 X_(B)`)mm Hg
where,`X_(A)and X_(B)`are the molefractions of components A and B. This indicates that the:

Vapour pressure of a solution of heptane and octane is given by the equation: p(sol.)(mm Hg)=35+65x, where x is the mole fraction of heptane. vapour pressure of pure heptane is

An ideal solution has two components A is more volatile than B, i.e. P_A^(@)gtP_B^(@) and also p_A^(@) gt P_("total") . If X_(A) andY_(A) are mole fraction of components A in liquid and vapour phases, than :

P_A and P_B are the vapour pressure of pure liquid components A and B respectively of an ideal binary solution. If X_A represent the mole fraction of component A, then the total pressure of the solution will be

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

Total vapour pressure of mixture of 1 mole of volaile components A ( P_(a^(%) )=100 mm Hg) and 3 mole of volatile component B( P_B^(@) =80 mm Hg ) is 90 mm Hg. For such case:

The lquid A and B from ideal solutions. At 300 K, the vapour pressure of solution containing 1 mole of A and 3 mole of B is 550 mm Hg. At the same tempreature, if one more mole of B is added to this solution, the vapour pressure of the solution increases by 10 mm Hg. determinethe vapour pressure of A and B in their pure states (in mm Hg):

Vapour pressure of dilute aq. solution of glucose is 750 mm of Hg at 373 K. The mole fraction of the solute is ( p^@ water = 760 mm of Hg)

Benzene and toluene form ideal solution over the entire range of composition. The vapour pressure of pure benzene and toluene at 300 K are 50.71 mm Hg and 32.06 mm Hg respectively. Calculate the mole fraction of benzene in vapour phase if 80 g of benzene is mixed with 100 g of toluene.

At 20^@C the vapour pressure of pure liquid A is 22 mm Hg and that of pure liquid B is 75mm Hg. What is the composition of the solutions of these two components that has a vapour pressure of 48.5 mm Hg at this temperature?

At 100^@C , the vapour pressure of a solution of 6.5 g of solute in 100 g of water is 732 mm. If k_b is 0.52 klm, the boiling point of solution will be: