The activation energy of the reaction, `A+BtoC+D+38` kcal is 20 kcal. What would be the activation energy pof the following reaction.
`C+DtoA+B`

The activation energy of the reaction, A+BtoC+D+38 kcal is 20 kcal. What would be the activation energy of the following reaction. C+DtoA+B

Activation energy of the reaction AtoB+38KCal is 20KCal. Then activation energy of reaction BtoA will be :-

Activation energy of the reaction AtoB+38KCal is 20KCal. Then activation energy of reaction BtoA bill be :-

N_2(g) + 3H_2(g) iff 2NH,(g) + 22 kcal The activation energy for the forward reaction is 50 kcal. What is the activation energy for the backward reaction ?

Consider the following reaction, N_(2)(g)+3H_(2)(g)hArr 2NH_(3)(g)+22kcal" mol"^(-1) The activation energy for the forward reaction is 50 kcal. What is the activation energy for the backward reaction?

The activation energy of a non–catalysed reaction at 37^@C is 200 kcal/mol and the activation energy of the same reaction when catalysed decreases to only 60.0 kcal/mol. Calculate the ratio of rate constants of the two reactions.

The activation energy of a non-catalysed reaction at 37^(@)C is 200 kcal/mol and the activation energy of the same reaction when catalysed decreases to only 6.0 kcal/mol. Calculate the ratio of rate constants of the two reactions.

The activation energy of a non–catalysed reaction at 37^@C is 200 kcal/mol and the activation energy of the same reaction when catalysed decreases to only 60.0 kcal/mol. Calculate the ratio of rate constants of the two reactions.