Equilibrium constant for the reaction, `H_(2)O (g) + CO(g)` is 81. If the velocity constant of the forward reaction is 162 L mol `s^(-1)`, what is the velocity constant (in ` mol s^(-1)`) for the backward reaction?

Equilibrium constant for the reaction H_(2)O_((g))+CO_((g)) Leftrightarrow H_(2(g))+CO_(2(g)) is 81. If the rate constant of the forward reaction is 162 lit mol^(-1), sec^(-1) , what is the velocity constnat ("in lit." mole"^(-1) sec^(-1)) for the backward reaction?

The equilibrium constant for the reaction is H_(2)O_((l))+CO_((g)) Leftrightarrow H_(2(g))+CO_(2(g)) is 64. If the rate constant for the forward reaction is 160, the rate constant for the backward reaction is

The equilibrium constant for the reaction Zn(s)+CO_(2)(g)hArrZnO(s)+CO(g) is

At a particular temperature, the equilibrium constant of the reaction 2A+BhArr 2C is 8.0xx10^(4)L*mol^(-1) . If the rate constant of the reverse reaction be 1.24L*mol^(-1)*s^(-1) , then find the value of rate constant of the forward reaction at that temperature.

The equilibrium constant for the reaction 2x+y Leftrightarrow x_(2)y" is 10"L^(2) mol^(-2) . The rate constant for the back ward reaction 2.8 s^(-1) . What is the rate constant of the forward reaction?

The equilibrium constant for the reaction 2X+Y leftrightarrow X_2Y is 10 L^2 mol^-2 . The rate constant for the backward reaction 28s^-1 . What is the rate constant of the forward reaction.