For which of the following reaction the degree of dissociation `(alpha)` and equilibrium constant `(K_p)` are
related as `K_p =(4alpha^2P)/((1-alpha^2))` ?

The dissociation equilibrium of a gas AB, can be represented as The degree of dissociation is x and is small compared to 1. The expression relating the degree of dissociation (x) with equilibrium constant K,, and total pressure p is (a) (2K_(p)//p) (b) (2K_(p)//p)^(1//3) (c) (2K_(p)//p)^(1//2) (c) (K_(p)//p)

Consider the following equilibrium in a closed container: N_(2)O_(4)(g)hArr2NO_(2)(g) At a fixed temperature, the volume of the reaction container is halved. For this change which of the following statements holds true regarding the equilibrium constant (K_(p)) and the degree of dissociation (alpha) ?

Consider the following equilibrium in a closed container, N_(2)O_(4(g))hArr2NO_(2(g)) At a fixed temperature, the volume of the reaction container is halved. For this change which of the following statements holds true regarding the equilibrium constant (K_(p)) and degree of dissociation (alpha) ?

Consider the following equilibrium PCl_(5)(g) hArr PCl_(3)(g) + Cl_(2)(g) in a closed container. At a fixed temperature, the volume of the reaction container is halved. For this change, which of the following statements holds true regarding the equilibrium constant (K_(p)) and degree of dissocitation (alpha) ?

In which of the following equilibrium, (K_c = K_p) ?

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

For the reaction 2HI(g)hArrH_(2)(g)+I_(2)(g) The degree of dissociation (alpha) of HI(g) is related to equilibrium constant K_(p) by the expression a. (1+2sqrt(K_(p)))/2 , b. sqrt((1+2K_(p))/2) c. sqrt((2K_(p))/(1+2K_(p))) , d. (2sqrt(K_(p)))/(1+2sqrt(K_(p)))

For the reaction, N_(2)O_(4)(g)hArr 2NO_(2)(g) the reaction connecting the degree of dissociation (alpha) of N_(2)O_(4)(g) with eqilibrium constant K_(p) is where P_(tau) is the total equilibrium pressure.

For the reaction PCl_(5)(g)hArr PCl_(3)(g)+Cl_(2)(g) , the equation connecting the degree of dissociation (alpha) of PCl_(5)(g) with the equilibrium constant K_(p) is

For a given reversible reaction at a fixed temperature, equilibrium constants K_(p) and K_(c) are related by ………