Consider a complex reaction taking place in three steps with rate constants , , and respectively. The overall rate constant is given by the expression . If the activation energies of the three steps are , , and respectively, then the overall energy of activation in is _____(Nearest integer).
JEE Chemistry 2025 Question with Solution
Answer
Correct answer:20
Step-by-step solution
Standard Method
Given: The overall rate constant is
and the activation energies are , , and .
Find: The overall activation energy.
Using Arrhenius form for each step,
So,
Taking logarithm in Arrhenius form, the exponent for the overall rate constant becomes
Hence,
Substituting the given values,
Therefore, the overall activation energy is .
Using logarithm of the Arrhenius expression
For the relation
write it as
Now substitute Arrhenius expressions:
Combining exponential terms,
Comparing with
we get
Thus,
So the numerical value answer is 20.
The solution contains inconsistent intermediate statements such as and another incorrect approximation, but its final conclusion is 20, which also matches the correct Arrhenius derivation.
Common mistakes
Using directly without accounting for the square root. This is wrong because the factor from must multiply the exponent. Rewrite the given rate constant as a power expression before comparing Arrhenius exponents.
Taking square root of activation energies, such as . This is wrong because Arrhenius combination occurs through exponents of rate constants, not through direct algebraic operations on the activation energies themselves.
Substituting the rate-constant relation numerically without first expressing each in Arrhenius form. This misses how activation energies combine. Always write and then compare the exponential term with .
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