Class 12 Chemistry Chemical Kinetics Rate law , Rate constant , Order of Reaction and Molecularity

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Write the formula for the rate of reaction $R \to P$ for zero-order and first-order reactions.

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(N/A) For a reaction $R \to P$:
$1$. For a zero-order reaction,the rate is independent of the concentration of the reactant. The rate law is given by: $\text{Rate} = k[R]^0 = k$.
$2$. For a first-order reaction,the rate is directly proportional to the concentration of the reactant. The rate law is given by: $\text{Rate} = k[R]^1 = k[R]$.

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Class 12

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Chemical Kinetics

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Rate law , Rate constant , Order of Reaction and Molecularity

What is a pseudo first order reaction? Give an example of a pseudo first order reaction.

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If a reaction occurs in the following two steps:
$i) \ 2 ClO^{-} \rightarrow ClO_2^{-} + Cl^{-}$
$ii) \ ClO_2^{-} + ClO^{-} \rightarrow ClO_3^{-} + Cl^{-}$
Find the reaction intermediate.

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For the catalytic decomposition of $AB_3$, the half-life period is $4 \, \text{hours}$ at $50 \, \text{mm}$ and $2 \, \text{hours}$ at $100 \, \text{mm}$. What is the order of the reaction?

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The rate constant for the reaction $A \longrightarrow B$ is $2 \times 10^{-4} \ L \ mol^{-1} \ min^{-1}$. The concentration of $A$ at which the rate of the reaction is $(1 / 12) \times 10^{-5} \ M \ sec^{-1}$ is :-

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The unit of rate constant for a second-order reaction is usually expressed as:

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Write the formula for the rate of reaction $R \to P$ for zero-order and first-order reactions.

Similar Questions

What is a pseudo first order reaction? Give an example of a pseudo first order reaction.

If a reaction occurs in the following two steps:$i) \ 2 ClO^{-} \rightarrow ClO_2^{-} + Cl^{-}$$ii) \ ClO_2^{-} + ClO^{-} \rightarrow ClO_3^{-} + Cl^{-}$Find the reaction intermediate.

For the catalytic decomposition of $AB_3$, the half-life period is $4 \, \text{hours}$ at $50 \, \text{mm}$ and $2 \, \text{hours}$ at $100 \, \text{mm}$. What is the order of the reaction?

The rate constant for the reaction $A \longrightarrow B$ is $2 \times 10^{-4} \ L \ mol^{-1} \ min^{-1}$. The concentration of $A$ at which the rate of the reaction is $(1 / 12) \times 10^{-5} \ M \ sec^{-1}$ is :-

The unit of rate constant for a second-order reaction is usually expressed as:

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If a reaction occurs in the following two steps:
$i) \ 2 ClO^{-} \rightarrow ClO_2^{-} + Cl^{-}$
$ii) \ ClO_2^{-} + ClO^{-} \rightarrow ClO_3^{-} + Cl^{-}$
Find the reaction intermediate.