For the first-order reaction , the half-life is . The time taken for completion of the reaction is _____ (Nearest integer).
JEE Chemistry 2023 Question with Solution
Answer
Correct answer:60
Step-by-step solution
Standard Method
Given: First-order reaction with half-life .
Find: Time required for completion.
For a first-order reaction,
For completion, the reactant left is , so
Substituting,
Now use the half-life relation for a first-order reaction,
Substituting and ,
Therefore, the time taken is .
Using successive half-lives
Given: The half-life is .
Find: Time for completion.
In a first-order reaction, after one half-life, of the reactant remains. After two half-lives, remains, which means completion.
So the required time is
Therefore, the required time is .
Common mistakes
Using of as the remaining concentration is incorrect. For completion, the remaining concentration is of the initial value, so use .
Confusing completion with number of half-lives is a common error. In first-order kinetics, completion means two half-lives have passed because the concentration goes from to to .
Using a zero-order or second-order formula here is wrong because the reaction is explicitly first-order. Use either or for a first-order reaction.
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