(C) For a first-order reaction,the concentration decreases from $0.8 \text{ M}$ to $0.2 \text{ M}$ in two half-lives $(2 \times t_{1/2})$: $0.8 \text{

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(C) For a first-order reaction,the concentration decreases from $0.8 \text{ M}$ to $0.2 \text{ M}$ in two half-lives $(2 \times t_{1/2})$: $0.8 \text{ M}$ $\xrightarrow{t_{1/2}} 0.4 \text{ M}$ $\xrightarrow{t_{1/2}} 0.2 \text{ M}$ Given that the total time taken is $12 \text{ hours}$. Therefore,$2 \times t_{1/2} = 12 \text{ hours}$. $t_{1/2} = \frac{12}{2} = 6 \text{ hours}$.

Class 12 Chemistry Chemical Kinetics First Order reaction

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What is the half-life of a first-order reaction if the time required to decrease the concentration of the reactant from $0.8 \text{ M}$ to $0.2 \text{ M}$ is $12 \text{ hours}$ (in $\text{ hours}$)?

MHT CET 2024 All MHT CET

A
$1.5$
B
$3$
C
$6$
D
$12$

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What is the half-life of a first-order reaction if the time required to decrease the concentration of the reactant from $0.8 \text{ M}$ to $0.2 \text{ M}$ is $12 \text{ hours}$ (in $\text{ hours}$)?

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Derive the equation showing the relation between the concentration $[R]_1$ and $[R]_2$ at time $t_1$ and $t_2$ for a first-order reaction.

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