The pressure at equilibrium over solid A is 50 atm and over solid D is 68 atm if both solid A and D are heated simultaneously .Find: relative number of moles of A ′and B in the vapour phase over a mixture of the solids A and B.

Two solid compounds A and B dissociate into gaseous products at 20^@C as (i) A(s) hArr A'(g) +H_2S(g) (ii) B(s) hArr B'(g) +H_2S(g) At 20^@C pressure over excess solid A is 50 mm and that over excess solid B is 68 mm. Find (a) The dissociation constants of A and B (b) Relative number of mole of A' and B' in the vapour phase over a mixture of the solids A and B .

Two solid compounds A and B dissociate into gaseous products at 20^(@)C as a. A(s) hArr A'(s)+H_(2)S(g) b. B(s) hArr B'(g)+H_(2)S(g) At 20^(@)C pressure over excess solid A is 50 mm and that over excess solid B is 68 mm. Find: a. The dissociation constant of A and B b. Relative number of moles of A' and B' in the vapour phase over a mixture of the solids A and B. c. Show that the total pressure of gas over the solid mixture would be 84.4 mm.

Two solids X and Y dissociate into gaseous products at a certain temperature as follows: i. X(s) hArr A(g)+C(g) and ii. Y(s) hArr B(g)+C(g) At a given temperature, pressure over excess solid 'X' is 40 mm of Hg and total pressure over solid 'Y(s)' is 60 mm of Hg. Now, answer the following questions: The ratio of moles of A and B in the vapour state over a mixture of solids X and Y, is:

Two solid X and Y dissociate into gaseous products at a certain temperature as followas: X(s)hArrA(g)+C(g) , and Y(s)hArrB(g)+C(g) At a given temperature, the pressure over excess solid X is 40 mm and total pressure over solid Y is 80 mm . Calculate a. The value of K_(p) for two reactions. b. The ratio of moles of A and B in the vapour state over a mixture of X and Y . c. The total pressure of gases over a mixture of X and Y .

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

A mixture of two miscible liquids A and B is distilled under equilibrium conditions at 1 atm pressure. The mole fraction of A in solution and vapour phase are 0.30 and 0.60 respectively. Assuming ideal behaviour of the solution and the vapour, calculate the ratio of the vapour pressure of pure A to that of pure B.

The pressure -temperature (P-T) phase diagram shown below corresponds to the a. Curve of fusion of solids that expand on solidification. b. Curve of sublimation of solides that directly go over to the vapour phase.