Two solids dissociates as follows
`A(s) rarr B(g) + C(g), K_(P_(1)) = x atm^(2)`
`D(s) rarr C(g) + E(g), K_(P_(2)) = y atm^(2)`
The total pressure when both the solids dissociate simultaneously 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.

Solid A "and" B are taken in a closed container at a certain temperature. These two solids decompose are following equilibria are established simultaneously A(s)hArrX(g)+Y(g) K_(P_(1)=250atm^(2) B(s)hArrY(g)+Z(g) K_(P_(2)=? If the total pressure developed over the solid mixture is 50 atm . Then the value of K_(P) for the 2^(nd) reaction

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 :

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 :

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.

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

For given simultaneous reaction : X(s)hArrA(g)+B(s)+C(g) K_(P_(1))=500 atm Y(s)hArrD(g)+A(g)+E(s) K_(P_(2))=2000 atm If total pressure =x , then write your answer after dividing by 25.

K_p for the equation A(s)⇋ B(g) + C(g) + D(s) is 9 atm^2 . Then the total pressure at equilibrium will be

Two solids dissociates as follows . The total pressure when both the solids dissociate simultaneously is : 1. 2 (sqrt(x+y)) atm 2. (x+y) atm 3. sqrt(x+y) atm 4. x^2+y^2 .

For NH_(4)HS(s)hArr NH_(3)(g)+H_(2)S(g) If K_(p)=64atm^(2) , equilibrium pressure of mixture is