For the equilibrium
`NH_2CONH_4(s) hArr 2NH_3(g) +CO_2(g)`
`P_(CO_2)= 1` atm at `100^@C` . What will be the equilibrium constant at `100^@C` in atm.

The equilibrium constant K_(p) , for the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) is 1.6xx10^(-4) at 400^(@)C . What will be the equilibrium constant at 500^(@)C if the heat of reaction in this temperature range is -25.14 kcal?

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

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

In the equilibrium NH_(4) HS_(s) hArr NH_(3(g)) + H_(2) S_((g)) . the forward reaction can be favoured by

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 :-

Solid ammonium carbamate NH_(2)COONH_(4) was taken in excess in closed container according to the following reaction NH_(2)COONH_(4)(s)hArr2NH_(3)(g)+CO_(2)(g) . If equilibrium pressure is 4 atm, it's equilibrium constnat K_(P) is ?

Solid ammonium carbamate (NH_(4)COONH__(4)) was taken in excess in closed container according to the following reaction NH_(2)COONH_(4)(s)hArr2NH_(3)(g)+CO_(2)(g). If equilibrium pressure is 4 atm, it's equilibrium constnat K_(P) is ?

On decomposition of NH_(4)HS , the following equilibrium is estabilished: NH_(4) HS(s)hArrNH_(3)(g) + H_(2)S(g) If the total pressure is P atm, then the equilibrium constant K_(p) is equal to

NH_(3) at 10 atm and CO_(2) at 20 atm pressure are introduced in an evacuated chamber. If K_(p) for the reaction: NH_(2)COONH_(4)(s) hArr 2NH_(3) (g) +CO_(2)(g) is 2000 "atm"^(3) at 400K, then the final pressure in the reaction chamber will 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