Question:
Which of the following represents the rate equation for a zero-order reaction?
Which of the following represents the rate equation for a zero-order reaction?
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In a zero-order reaction, the rate does not depend on the concentration of the reactant.
Updated On: Jan 12, 2026
- \( \text{Rate} = k[A] \)
- \( \text{Rate} = k[A]^2 \)
- \( \text{Rate} = k \)
- \( \text{Rate} = k[A]^n \)
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The Correct Option is C
Solution and Explanation
In a zero-order reaction, the rate of reaction is independent of the concentration of the reactants. The rate law for a zero-order reaction is simply:
\[
\text{Rate} = k
\]
where \( k \) is the rate constant. This means that no matter how much of the reactant is present, the rate of the reaction remains constant over time.
For the other options:
- Option (1) represents a first-order reaction.
- Option (2) represents a second-order reaction.
- Option (4) represents a general order reaction, where \( n \) can be any value.
Therefore, the correct answer is \( \text{Rate} = k \), representing a zero-order reaction.
- Option (1) represents a first-order reaction.
- Option (2) represents a second-order reaction.
- Option (4) represents a general order reaction, where \( n \) can be any value.
Therefore, the correct answer is \( \text{Rate} = k \), representing a zero-order reaction.
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