A certain endothermic reaction: `Ararr` Product, `DeltaH=+ve` proceeds in a sequence of three elementary steps with the rate constants `K_(1), K_(2)` and `K_(3)` and each one having energy of activation `E_(a), E_(2)` and `E_(3)` respectively at `25^(@)C`. The observed rate constant for the reaction is equal to `K_(3) sqrt(K_(1)/K_(2)). A_(1), A_(2)` and `A_(3)` are Arrhenius parameters respectively. Presence of a catalyst decreases the energy of activation of each path by half the value of `E_(1)`. Assuming the order actors same, the observed energy of activation would be:A. (a) `E_(3)-E_(2)/2`B. (b) `2E_(3)-E_(2)`C. (c ) `E_(2)-E_(3)/2`D. (d) `E_(1)/2+E_(2)/2+E_(3)`

A certain endothermic reaction: `Ararr` Product, `DeltaH=+ve` proceeds

1.	A certain endothermic reaction: `Ararr` Product, `DeltaH=+ve` proceeds in a sequence of three elementary steps with the rate constants `K_(1), K_(2)` and `K_(3)` and each one having energy of activation `E_(a), E_(2)` and `E_(3)` respectively at `25^(@)C`. The observed rate constant for the reaction is equal to `K_(3) sqrt(K_(1)/K_(2)). A_(1), A_(2)` and `A_(3)` are Arrhenius parameters respectively. Presence of a catalyst decreases the energy of activation of each path by half the value of `E_(1)`. Assuming the order actors same, the observed energy of activation would be:A. (a) `E_(3)-E_(2)/2`B. (b) `2E_(3)-E_(2)`C. (c ) `E_(2)-E_(3)/2`D. (d) `E_(1)/2+E_(2)/2+E_(3)`
Answer» Correct Answer - a `E_(obs)=(E_(1)-E_(2)+2E_(3))/(2)` if each is lowered by `E_(1)//2`, then `E_(obs)=(E_(1)-E_(1)/2-(E_(2)-E_(1)/2)+2(E_(3)-E_(1)/2))/(2)` `=E_(3)-E_(2)/2`

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