The energy change accompanying the equilibrium reaction `A hArr B` is `-33.0 kJ mol^(-1)`.

Assuming that pre-exponential factor is same for forward and backward reaction answer the following:
The equilibrium constant `k` for the reaction at `300 K`

The energy change accompanying the equilibrium reaction A hArr B is -33.0 kJ mol^(-1) . Assuming that pre-exponential factor is same for forward and backward reaction answer the following: The threshold energy of the reaction is when PE of B is 30 kJ mol^(-1) . (a) 30 (b) 140 (c) 123 (d) 125

The energy change accompanying the equilibrium reaction A hArr B is -33.0 kJ mol^(-1) . Assuming that pre-exponential factor is same for forward and backward reaction answer the following: The energy of activation for forward and backward reactions ( E_(f) and E_(b) ) at 300 K . Given that E_(f) and E_(b) are in the ratio 20 : 31 ,

The energy change accompanying the equilibrium reaction A hArrB is -33.0kJ mol^(-1) . Calculate Equilibrium constant K_a for the reaction at 300 K

The energy change accompanying the equilibrium reaction A hArrB is -33.0kJ mol^(-1) . Calculate Energy of activation for forward and backward reaction (E_f and E_a) at 300 K. Given that E_f and E_b are in the ratio 20 : 31. Assume that pre-exponential factor is same for forward and backward reaction.

The unit of equilibrium constant K_(c) for the reaction A+B hArr C would be

For a reverisble reaction A hArr B , if pre-exponential factor is same for both forward and backward reactions, show that k_(eq) = e^(-DeltaH//RT) , where Delta H is the heat of reaction.

In a reaction A+BhArrC+D the rate constant of forward reaction & backward reaction is K_(1) and K_(2) then the equilibrium constant (K) for reaction is expressed as:

If the rate constant of forward reaction is triple rate constant of backward reaction under identical condition at equilibrium then K_(eq) for the reaction is

At equilibrium for a reaction A harr B . correct representation is { r_f = rate of forward reaction, r_b = rate of backward reaction}

The equilibrium constant for a reaction A+2B hArr 2C is 40 . The equilibrium constant for reaction C hArr B+1//2 A is