The rate constant of a reaction depends upon
- AExtent of reaction
- BTime of reaction
- CTemperature of the system
- DConcentration of the system
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Similar Questions
For a first order reaction,the rate of reaction is $2.4 \times 10^{-3} \ mol \ L^{-1} \ s^{-1}$ at $27 \ ^\circ C$. The activation energy of the reaction is $24.942 \ kJ \ mol^{-1}$. The rate of reaction at $327 \ ^\circ C$ is ....... $mol \ L^{-1} \ s^{-1}$ [Take $e^5 = 150$,$e^{0.005} = 1$,$e^4 = 55$].
Medium
View SolutionReactant $A$ converts to product $D$ through the given mechanism (with the net evolution of heat) :
$A \rightarrow B$ $slow ; \Delta H=+ve$ $B \rightarrow C$ $fast ; \Delta H=-ve$ $C \rightarrow D$ $fast ; \Delta H=-ve$
Which of the following represents the above reaction mechanism ?
| $A \rightarrow B$ | $slow ; \Delta H=+ve$ |
| $B \rightarrow C$ | $fast ; \Delta H=-ve$ |
| $C \rightarrow D$ | $fast ; \Delta H=-ve$ |
Which of the following represents the above reaction mechanism ?
DifficultJEE MAIN 2025
View SolutionSubtract $(i)$ $\ln \, k_1 = - \frac{E_a}{R T_1} + \ln A$ and $(ii)$ $\ln \, k_2 = - \frac{E_a}{R T_2} + \ln A$ and write the resulting equation.
Easy
View SolutionDefine the following terms:
$1.$ Collision
$2.$ Frequency of collision
$1.$ Collision
$2.$ Frequency of collision
Medium
View SolutionIf we plot a graph between $\log \, K$ and $\frac{1}{T}$ by Arrhenius equation,the slope is
Easy
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