The rate constant for a first order reaction is . The time required for the initial concentration of the reactant to reduce to its level is _____ . (Nearest integer) (Given: , )
JEE Chemistry 2023 Question with Solution
Answer
Correct answer:17
Step-by-step solution
Standard Method
Given: The reaction is first order with rate constant .
The concentration falls to of its initial value, so
Find: The value of time in the form _____ .
For a first-order reaction, the integrated rate law is
Substituting gives
Now,
Therefore,
So, the nearest integer is 17.
Using half-life idea
Given: A first-order reaction with .
Find: Time to reach of the initial concentration.
Since
the concentration becomes one-half of itself 5 times. Hence,
For a first-order reaction,
Therefore,
Thus, the required nearest integer is 17.
Common mistakes
Using the first-order formula incorrectly as a linear decrease. The concentration does not drop uniformly with time; use the integrated law instead.
Writing incorrectly. Since , we must use , not or .
Stopping at and entering 0.17325 as the answer. The question asks for the coefficient of , so convert it to and then take the nearest integer.
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