Question:
The activation energy for a reaction is 9.0 kcal/mol. The increase in the rate constant when its temperature is increased from 298 K to 308 K is:
The activation energy for a reaction is 9.0 kcal/mol. The increase in the rate constant when its temperature is increased from 298 K to 308 K is:
Updated On: Jun 22, 2024
- 0.63
- 0.5
- 1
- 0.1
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The Correct Option is A
Solution and Explanation
From Arrhenius equation, $ \log \frac{{{k}_{2}}}{{{k}_{1}}}=\frac{{{E}_{a}}}{2.303R}\left( \frac{{{T}_{2}}-{{T}_{1}}}{{{T}_{1}}{{T}_{2}}} \right) $ $ =\frac{9\times {{10}^{3}}}{2.303\times 2}\left( \frac{308-298}{308\times 298} \right)=0.2129 $ $ \therefore $ $ \frac{{{k}_{2}}}{{{k}_{1}}}=\text{antilog}\,\,\text{0}\text{.2129}\,\text{=}\,\text{1}\text{.632} $ $ \therefore $ $ {{k}_{2}}=1.632\,{{k}_{1}} $ Hence, increase in rate constant $ ={{k}_{2}}-{{k}_{1}} $ $ =1.632\,{{k}_{2}}-{{k}_{1}}=0.632\,{{k}_{1}} $ $ =\frac{0.632{{k}_{1}}}{{{k}_{1}}}\times 100=63.2%=63% $
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Concepts Used:
Rate of a Chemical Reaction
The rate of a chemical reaction is defined as the change in concentration of any one of the reactants or products per unit time.
Consider the reaction A → B,
Rate of the reaction is given by,
Rate = −d[A]/ dt=+d[B]/ dt
Where, [A] → concentration of reactant A
[B] → concentration of product B
(-) A negative sign indicates a decrease in the concentration of A with time.
(+) A positive sign indicates an increase in the concentration of B with time.
Factors Determining the Rate of a Reaction:
There are certain factors that determine the rate of a reaction:
- Temperature
- Catalyst
- Reactant Concentration
- Chemical nature of Reactant
- Reactant Subdivision rate