Ammonium carbamate decomposes as :
`NH_(2)COONH_(4) 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

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

NH_(4)COONH_(4)(s) hArr 2NH_(3)(g)+CO_(2)(g) . for the above reaction, K_(p) is 4, K_c will be

For the reaction NH_(2)COONH_(4)(g)hArr 2NH_(3)(g)+CO_(2)(g) the equilibrium constant K_(p)=2.92xx10^(-5)atm^(3) . The total pressure of the gaseous products when 1 mole of reactant is heated, will be

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 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 decomposition reaction NH_(2)COONH_(4)(s) hArr2NH_(3)(g)+CO_(2)(g) , the K_(p)=3.2xx10^(-5)atm^(3) . The total pressure of gases at equilibrium when 1.0 mol of NH_(2)COONH_(4)(s) was taken to start with will be:

NH_(4)COONH_(4)(s) hArr 2NH_(3)(g)+CO_(2)(g) . If equilibrium pressure is 3 atm for the above reaction, K_(p) will be

Solid Ammonium carbamate dissociates as: NH_(2)COONH_(4)(s)hArr2NH_(3)(g)+CO_(2)(g). In a closed vessel, solid ammonium carbamate is in equilibrium with its dissociation products. At equilibrium, ammonia is added such that the partial pressure of NH_(3) at new equilibrium now equals the original total pressure. Calculate the ratio of total pressure at new equilibrium to that of original total pressure.

Solid Ammonium carbamate dissociates as: NH_(2)COONH_(4)(s)hArr2NH_(3)(g)+CO_(2)(g). In a closed vessel, solid ammonium carbonate is in equilibrium with its dissociation products. At equilibrium, ammonia is added such that the partial pressure of NH_(3) at new equilibrium now equals the original total pressure. Calculate the ratio of total pressure at new equilibrium to that of original total pressure. Also find the partial pressure of ammonia gas added.

The equilibrium pressure of NH_(4)CN(s) hArr NH_(3)(g)+HCN(g) is 2.98 atm. Calculate K_(p)