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 for, 2H_(2)S(g)hArr2H_(2)(g)+S_(2)(g) "is" 0.0118 "at" 1300 K while the heat of dissociation is 597.4KJ . The standard equilibrium constant of the reaction at 1200K is:

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 .

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 .

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 .

The equilibrium constant for the reaction NH_(4)NO_(2)(s)hArr N_(2)(g)+2H_(2)O(g) , is given by

The value of equilibrium constant for the reaction H_(2)(g)+ I_(2) (g) hArr 2HI (g) is 48 at 720 K What is the value of the equilibrium constant for the reaction 2HI (g) hArr H_(2) (g) + I_(2) (g)