Two solid compounds X and Y dissociates at a certain temperature as follows
`X(s) hArr A(g)+2B(g),K_(p1)=9xx10^(-3)atm^(3)`
`Y(s) hArr 2B(g)+C(g),K_(p2)=4.5xx10^(-3)atm^(3)`
The total pressure of gases over a mixture of X and Y is `:`

Ammonium sulphide and ammonium selenide on heating dissociates as (NH_4)S(s) hArr 2NH_(3)(g) + H_(2)S(g) , k_(p1) = 9 xx 10^(-3) atm^(3) (NH_4)_(2) Se(s) hArr 2NH_(3)(g) + H_(2)Se(g), K_(p2) = 4.5 xx 10^(-3) atm^(3) . The total pressure over the solid mixture at equilibrium is

Ammonium sulphide and ammonium selenide on heating dissociates as (NH_4)S(s) hArr 2NH_(3)(g) + H_(2)S(g) , k_(p1) = 9 xx 10^(-3) atm^(3) (NH_4)_(2) Se(s) hArr 2NH_(3)(g) + H_(2)Se(g), K_(p2) = 4.5 xx 10^(-3) atm^(3) . The total pressure over the solid mixture at equilibrium is

Two solid compounds A "and" C dissociate into gaseous product at temperature T as follows: (i) A(s)hArrB(g)+D(g) K_(P_(1))=25(atm)^(2) (ii) C(s)hArrE(g)+D(g) K_(P_(2))=975(atm)^(2) Both solid are present in same container then calculate total pressure over the solid mixture.

Two solid compounds A "and" C dissociate into gaseous product at temperature T as follows: (i) A(s)hArrB(g)+D(g) K_(P_(1))=25(atm)^(2) (ii) C(s)hArrE(g)+D(g) K_(P_(2))=975(atm)^(2) Both solid are present in same container then calculate total pressure over the solid mixture.

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: Ratio of K_(p) for reaction (i) to that of reaction (ii), is:

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 solids A and D dissociates into gaseous products as follows C(s)hArrB(g)+C(g),K_(P_(1))=300 , D(s)hArrE(g)+C(g)K_(P_(2)=600 at 27^(@)C , then find the total pressure of the solid mixture.