In a 0.25 L tube dissociation of 4 mol of NO is taking place. If its degree of dissociation is 10%. The value of K​P​ for the reaction `2NO_((g)) to N_(2(g)) + O_(2(g)) ` is :-

Ina 0.25 litre tube dissociation of 4 moles of NO takes place. If its degree of dissociation is 10% . The value of K_(p) for reaction 2NO hArrN_(2) + O_(2) is:

The degree of dissociation alpha of the reaction" N_(2)O_(4(g))hArr 2NO_(2(g)) can be related to K_(p) as:

Calculate the precentage dissociation of H_(2)S(g) if 0.1 mol of H_(2)S is kept in a 0.5 L vessel at 1000 K . The value of K_(c ) for the reaction 2H_(2)ShArr2H_(2)(g)+S_(2)(g) is 1.0xx10^(-7).

Calculate the precentage dissociation of H_(2)S(g) if 0.1 mol of H_(2)S is kept in a 0.5 L vessel at 1000 K . The value of K_(c ) for the reaction 2H_(2)ShArr2H_(2)(g)+S_(2)(g) is 1.0xx10^(-7).

The degree of dissociation of SO_(3) at equilibrium pressure is: K_(p) for 2SO_(3) (g)hArr2SO_(2)(g) + O_(2) (g)

At 318K and 2 atm total pressure the degree of dissociation (alpha) is 28% at the equilibrium condition for the reaction N_(2)O_(4)(g)hArr 2NO_(2)(g) . Calculate K_(p) & K_(c) .

The degree of dissociation of SO_(3) is alpha at equilibrium pressure P_(0) . K_(P) for 2SO_(3)(g)hArr2SO_(2)(g)+O_(2)(g) is