For an equilibrium reaction, the rate constants for the forward and the backward reaction are `2.38xx10^(-4)` and `8.15xx10^(-5)`, respectively. Calculate the equilibrium constant for the reaction.

For the reaction , A+2B hArr 2C , the rate constant for the forward and the backward reactions are 1xx10^(-4) and 2.5xx10^(-2) respectively.The value of equilibrium constant, K, for the reaction would be :

Find the value of equilibrium constant if the rate constante for the forward and backward reactions are , 2.38 xx 10^(-4) " and " 8.15 xx 10^(-4) respetively.

For the reaction A+B hArr C , the rate constants for the forward and the reverse reactions are 4xx10^(2) and 2xx10^(2) respectively. The value of equilibrium constant K for the reaction would be

The rate constans of forward and backward reactions are 8.5 xx 10^(-5) and 2.38 xx 10^(-4) respectively. The equilibrium constant if

For the reaction, A(g)+2B(g) hArr 2C(g) , the rate constant for forward and the reverse reactions are 1xx10^(-4) and 2.5xx10^(-2) respectively. The value of equilibrium constant, K for the reaction would be

The rate constant for forward and backward reactions of hydrolysis of ester are 1.1xx10^(-2) and 1.5xx10^(-3) per minute respectively. Equilibrium constant for the reaction is

The rate constant of forward and backward reactions for certain hypothetical reaction are 1.1 xx 10^(-2) and 1.5 xx 10^(-3) , respectively. The equilibrium constant of the reaction is