For given two equilibria attained in a container which are correct if degree of dissociation of A and A' are `alpha` and `alpha'`.
`A(s) hArr 2B(g)+C(g), K_(p_(1))=8xx10^(-2)`
`A'(s) hArr 2B(g)+D(g), K_(P_(2))=2xx10^(-2)`

For given two equilibrium attained in a container which are correct if degree of dissociation of A and A' are alpha and alpha^(3) A_((s)) hArr 2 B_((g)) + C_((g)) , Kp_(1) = 8 xx 10^(-2) , A'_((s)) hArr 2B_((g)) + C_((g)) , K_(p_(2)) = 2 xx 10^(-2)

Calculate the partial pressure of carbon monoxide from the following data : CaCO_(3)overset(Delta)(hArr) CaO(s)+CO_(2) uarr ,K(p)=8xx10^(-2) CO_(2)(g)+C(s) hArr 2CO(g), K_(p)=2

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

Predict which of the following reaction will have appreciable concentration of reactants and product : (a) Cl_(2) (g) hArr 2 Cl (g), K_(c) = 5 xx 10^(-39) (b) Cl_(2) (g) = 2 NO (g) hArr 2 NOCl (g) , K_(c)= 3*7 xx 10^(8) ( c ) Cl_(2) (g) + 2 NO_(2) (g) hArr 2 NO_(2)Cl (g) , K_(c) = 1*8

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

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

Predict which of the following reactions will have appreciable concentration of rectants and products: a. Cl_(2)(g) hArr 2Cl(g), K_(c)=5xx10^(-39) b. Cl_(2)(g)+2NO(g) hArr 2NOCl(g), K_(c)=3.7xx10^(8) c. Cl_(2)(g)+2NO_(2)(g) hArr 2NO_(2)Cl(g), K_(c)=1.8