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.

A(s)hArr2B(g)+C(g) The above equilibrium was established by initially taking A(s) only. At equilibrium, B is removed so that its partial pressure at new equilibrium becomes 1//3^(rd) of original total pressure. Ratio of total pressure at new equilibrium and at initial equilibrium will be :

Solid ammonium carbamate dissociated according to the given reaction NH_2COONH_4(s) hArr 2NH_3(g) +CO(g) Total pressure of the gases in equilibrium is 5 atm. Hence K_p .

Solid ammonium carbamate dissociate to give ammonia and carbon dioxide as follows NH_(2)COONH_(4)(s)hArr2NH_(3)(g)+CO_(2)(g) which of the following graph correctly represents the equilibrium.

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

The value of K_(P) for NH_(2)COONH_(4(s))hArr 2NH_(3(g))+CO_(2(g)) if the total pressure at equilibrium is P :-

NH_(4)HS(s) hArr NH_(3)(g)+H_(2)S(g) In the above reaction, if the pressure at equilibrium and at 300K is 100atm then what will be equilibrium constant K_(p) ?

NH_(4)HS(s) hArr NH_(3)(g)+H_(2)S(g) In the above reaction, if the pressure at equilibrium and at 300K is 100atm then what will be equilibrium constant K_(p) ?

An equilibrium PCl_5(g) dissociate 50% ,then the value of (P +K_p) is (where P = total pressure at equilibrium)

NH_(4)COONH_(2)(s)hArr2NH_(3)(g)+CO_(2)(g) If equilibrium pressure is 3 atm for the above reaction, then K_(p) for the reaction is