For a system, `A + 2B hArr C,` the equilibrium concentrations are `[A] = 0.06 [B] = 0.12 and [C] = 0. 216.` The value of K for the reaction is

In the chemical reaction A+2B iff 2C+D (all gases), the initial concentration of B was 1.5 times that of A, but the equilibrium ceocentrations of A and B were found to be equal. The equilibrium constant K_(c) of the reaction is

A+3B iff 4C . The initial concentration of A and B were equal. The equilibrium concentration of A and C also are equal. Hence the K_(c) of the reaction is

The standard Gibbs energy change at 300 K for the reaction 2A iff B+C is 4015 J. At a given instant, the composition of the reaction mixture is [A] = 0.5 M, [B] = 2M and [C] = 0.5 M. The reaction proceeds in the

In a system : .A(s) hArr 2B(g)+3 C(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 : 2 times, 2 sqrt2 times the original value, 1 / 2 of the original value 1/(2sqrt2) times the original value