The rate of a reaction depends upon the
- AVolume
- BForce
- CPressure
- DConcentration of reactant
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For the reaction $2A + B \to C$,the values of initial rate at different reactant concentrations are given in the table below: The rate law for the reaction is
$[A] \ (mol \ L^{-1})$ $[B] \ (mol \ L^{-1})$ Initial Rate $(mol \ L^{-1} \ s^{-1})$ $0.05$ $0.05$ $0.045$ $0.10$ $0.05$ $0.090$ $0.20$ $0.10$ $0.72$
| $[A] \ (mol \ L^{-1})$ | $[B] \ (mol \ L^{-1})$ | Initial Rate $(mol \ L^{-1} \ s^{-1})$ |
| $0.05$ | $0.05$ | $0.045$ |
| $0.10$ | $0.05$ | $0.090$ |
| $0.20$ | $0.10$ | $0.72$ |
DifficultJEE MAIN 2019
View SolutionThe reaction $2N_2O_5 \rightleftharpoons 4NO_2 + O_2$ follows first order kinetics. Hence,the molecularity of the reaction is
Easy
View Solution$100 \text{ cm}^3$ of $1 \text{ M } CH_3COOH$ was mixed with $100 \text{ cm}^3$ of $2 \text{ M } CH_3OH$ to form an ester. The change in the initial rate if each solution is diluted with an equal volume of water would be: (in $\text{times}$)
MediumKCET 2015
View SolutionFrom the rate expression for the following reaction,determine its order of reaction and the dimensions of the rate constant.
$(i)$ $3 NO_{(g)} \rightarrow N_2O_{(g)}$ Rate $= k[NO]^2$
$(i)$ $3 NO_{(g)} \rightarrow N_2O_{(g)}$ Rate $= k[NO]^2$
Medium
View SolutionWhich of the following for a chemical reaction can never be a fraction?
Easy
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