`2 Cl (g) hArr I_(2) (g) + Cl_(2) (g) ,` for this reaction `K_(c) = 0.14` . If the initial concentration of Icl be `0.78` (M) , then calculate equilibrium concentration of all species in the reaction mixture .

If for the reaction 2ICl toI_2+Cl_2,K_c=0.14 and initial concentration of ICl is 0.6 M then equilibriurn concentration of I2 is

The equilibrium constant at 298 K for a reaction, A+B⇌C+D is 100. If the initial concentration of all the four species were 1 M each, then equilibrium concentration of D (in mol L −1 ) will be:

The equilibrium constants at 298 K for a reaction A + B hArr C + D is 100 . If the initial concentration of all the four species were 1 M each , then equilibrium concentration of D ( in mol .L^(-1) ) will be -

PCl_(5)hArr PCl_(3)(g)+Cl_(2)(g) . For this reaction at the chemical equilibrium condition which of the following is correct-

The value of equilibrium constant for the reaction 2lCl(g)iffl_2(g)+Cl_2(g) is K_c = 0.14. If the initial reaction mixture. If the following reversible reaction is carried out at different concentrations of the reactant ,will there be any change in the value of K_c ?

PCl_5 (g) harr PCl_3 (g) + Cl_2 (g). For this reaction at the chemical equilibrium condition Which of the following relation is correct?

The reaction A(g)+2BhArr2C(g)+D(g) was studied using an initial concentration of B which was 1.5 times that of A. The equilibrium concentration of A and C were found to be equal. So, K_c for the equilibrium is-

In a system A(s) iff 2B(g) + 3C(g) , if the concentration of C at equilibrium is increased by a factor of 2, it will cause the equilibrium concentration of B to change to: