The time required for `10%` completion of a first order reaction at `298 K` is equal to that required for its `25%` completion at `308 K`. If the pre-exponential factor for the reaction is `3.56 xx 10^(9) s^(-1)`, calculate its rate constant at `318 K` and also the energy of activation.

The time required for 10% completion of a first order reaction at 298K is equal to that required for its 25% completion at 308K. If the pre-exponential factor for the reaction is 3.56xx10^(9)s^(-1) , calculate it's rate constant at 318k and also the energy of activation.

The time required of 10% completion of a first order reaction at 298K is equal to that required for its 25% completion at 308K. If the pre-exponential factor for the reaction is 3.56xx10^9 S^(-1) . Calculate. Its rate constant at 318K and also the energy of activiation. [R=8.314 JK^(-1) mol^(-1) .

The time required for 10% completion of a first order reaction at 298 K is equal to that required for its 25% completion at 308 K. If the value of A is 4xx10^10 s^-1 . Calculate k at 318 K and E_a .

The time required for 10% completion of a first order reaction at 298 K is equal to that required for its 25% completion at 308 K. If the value of A is 4 xx 10^(10)" s"^(-1) . Calculate k at 318 K and E_(a) .

The time required for 10% completion of a first order reaction at 298K is equal to that required for its 25% completion at 308K. If the value of A is 4xx10^(10)s^(-1) Calculate k at 318 and E_(a)

The time required for 10% completion of a first order reaction at 298K is equal to that required for its 25% completion at 308K . If the value of A is 4xx10^(10)s^(-1) , calculate k at 318K and E_(a) .