Time required for completion of of a first-order reaction is times of half life () of the reaction:
JEE Chemistry 2024 Question with Solution
Answer
Correct answer:10
Step-by-step solution
Standard Method
Given: A first-order reaction and the required extent of completion is .
Find: Time required in terms of the half-life .
For a first-order reaction,
where is the initial concentration and is the concentration at time .
For half-life,
So,
Thus,
For completion, only reactant remains, so
Hence,
Therefore,
Using ,
Now compare with half-life:
Therefore, the required time is times the half-life, so the answer is .
Logarithmic Formula Method
Given: A first-order reaction with completion.
Find: The multiple of half-life required.
Use the first-order relation
For completion,
So,
Since
we get
Also, for a first-order reaction,
Thus,
This works because completion means only of the reactant remains. Therefore, the answer is .
Common mistakes
Assuming completion means remains is incorrect. It means only remains, so use .
Using a zero-order or second-order half-life formula is wrong because the question is specifically about a first-order reaction. Use the first-order relation between concentration and time.
Forgetting to compare the final time with can lead to stopping at . The required answer is the multiple of half-life, so divide by .
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