A molecule undergoes two independent first-order reactions whose respective half-lives are and . If both reactions are occurring, the time taken for consumption of the reactant is:
JEE Chemistry 2023 Question with Solution
Answer
Correct answer:2
Step-by-step solution
Standard Method
Given: The molecule undergoes two independent first-order reactions with half-lives and .
Find: The time taken for consumption of the reactant when both reactions occur simultaneously.
For independent first-order reactions, the effective rate constant is
The effective half-life is therefore related to the individual half-lives by
Substitute and :
Using a common denominator,
Hence,
Rounding to the nearest integer gives
Therefore, the time taken for consumption of the reactant is .
Common mistakes
Adding the half-lives directly as is incorrect because parallel first-order processes add through their rate constants, not through their half-lives. Convert the problem into the effective reciprocal-half-life relation and then solve for the combined half-life.
Using only the smaller half-life is incorrect because both independent reactions contribute to the disappearance of the reactant. Include both channels through .
Stopping at without checking the required answer format can cause a mismatch. Since the extracted solution concludes with rounding to the nearest integer for the numerical answer, report the final answer as .
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