Equilibrium constant `(K_(p))` for `2H_(2)S_((g))hArr2H_(2(g))+S_(2(g))` is `0.0118 atm` at `1065^(@)C` and heat of dissociation is `42.4 kcal`. Find equilibrium constant at `1132^(@)C`.

Equilibrium constant K_(p) for H_(2)S(g) hArr 2H_(2)(g)+S_(2)(g) is 0.0118 atm at 1065^(@)C and heat of dissociation is 42.4 Kcal. Find equilibrium constant at 1132^(@)C .

The equilibrium constant for, 2H_(2)S (g)hArr 2H_(2)(g) + S_(2)(g) is 0.0118 at 1300 K while the heat of dissociation is 597.4 kJ. The standard equilibrium constant of the reaction at 1200 K is

The equilibrium constant K_(p) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) changes if:

" The equilibrium constant "Kp" for the reaction NH_(4)HS_((s))to NH_(3(g))+H_(2)S_((g)) is

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?

The equilibrium constant (K_(c)) for the reaction 2HCl(g)hArrH_(2)(g)+CL_(2)(g) is 4xx10^(-34) at 25^(@)C .what is the equilibrium constant for the reaction ? (1)/(2)H_(2)(g)+(1)/(2)Cl_(2)(g)hArrHCl(g)

The equilibrium constant Kp for the reaction NH_(4)HS_((s)) Leftrightarrow NH_(3(g))+H_(2)S_((g)) is