`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

For the reaction (1)and(2) A(g)hArrB(g)+C(g) X(g) hArr2Y(g) Given , K_(p1):K_(p2)=9:1 If the degree of dissociation of A(g) and X(g) be same then the total pressure at equilibrium (1) and (2) are in the ratio:

For the equilibrium reaction NH_4Cl hArr NH_3(g)+HCl(g), K_P=81 "atm"^2 .The total pressure at equilibrium is 'X' times the pressure of NH_3 .The value of X will be

The Kp of the reaction is NH_4HS(s)⇌NH_3(g)+H_2S( g) . If the total pressure at equilibrium is 30 atm.

The Kp of the reaction is NH_4HS(s)⇌NH_3(g)+H_2S( g) . If the total pressure at equilibrium is 42 atm.

At 1090K, K_(p) for the reaction CO_(2)(g) +C(s) rarr 2CO(g) is 10 atm, At the constant temperature ,Equilibrium position will shift, when pressure change occurs. In the above reaction, if we use catalyst. Equilibrium constant value :

In the reaction AB(g) hArr A(g) + B(g) at 30^(@)C, k_(p) for the dissociation equilibrium is 2.56xx10^(-2) atm . If the total pressure at equilibrium is 1 atm, then the percentage dissociation of AB is

Ammonium carbamate decomposes as : NH_(2)COONH_(4) (s) rarr 2NH_(3)(g) + CO_(2)(g) For the reaction, K_(P) = 2.9 xx 10^(-5) atm^(3) If we start with 1 mole of the compound, the total pressure at equilibrium would be

Solid NH_(4)HS(s) (ammonium hydrogen sulphate) dissociates to give NH_(3)(g) and H_(2)S(g) and is allowed to attain equilibrium at 100^(@)C . If the value of K_(p) for its dissociation is found to be 0.34 , find the total pressure at equilibrium at 100^(@)C . If the value of K_(p) for its dissociation is found to be 0.34 , find the total pressure at equilibrium and partial pressure of each component.

For the decomposition reaction NH_2COONH_4 (s) hArr 2NH_3(g) +CO_2(g) The K_p=2.9 xx 10^(-5) atm^3 . The total pressure of gases at equilibrium when 1 mole of NH_2COONH_4 (s) was taken to start with would be

For the reaction AB_(2)(g) rarr AB(g) + B(g) , the initial pressure of AB_(2)(g) was 6 atm and at equilibrium, total pressure was found to be 8 atm at 300 K. The equilibrium constant of the reaction at 300 K is……