A) Activation energy for the forward reaction is equals to activation energy for the reverse reaction
B) For a reversible reaction, an increase in temperature increases the reaction rate for both the forward and the backward reaction
C) The larger the initial reactant concentration for a second order reaction, the shorter is its half-life.
D) When \[\Delta t\] is infinitesimally small, the average rate equals the instantaneous rate
Correct Answer: A
Solution :
[a] \[{{E}_{a}}(F.R.)\ne (B.R.){{E}_{a}}\] can be calculated.You need to login to perform this action.
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