(B) The given reaction is $2 N_2O_{5(g)} \longrightarrow 4 NO_{2(g)} + O_{2(g)}$.Since the unit of the rate constant is $s^{-1}$,it is a first-order r

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(B) The given reaction is $2 N_2O_{5(g)} \longrightarrow 4 NO_{2(g)} + O_{2(g)}$.Since the unit of the rate constant is $s^{-1}$,it is a first-order reaction.The rate law expression is given by: $\text{Rate} = k[N_2O_5]$.Substituting the given values: $1.02 \times 10^{-4} = 3.4 \times 10^{-5} \times [N_2O_5]$.Therefore,$[N_2O_5] = \frac{1.02 \times 10^{-4}}{3.4 \times 10^{-5}} = 3.0 \ mol \ L^{-1}$.

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

Medium

For the reaction $2 N_2O_{5(g)} \longrightarrow 4 NO_{2(g)} + O_{2(g)}$,the rate and rate constant are $1.02 \times 10^{-4} \ mol \ L^{-1} \ s^{-1}$ and $3.4 \times 10^{-5} \ s^{-1}$ respectively. What is the concentration of $N_2O_5$?

MHT CET 2024 All MHT CET

A
$1.7 \ mol \ L^{-1}$
B
$3.0 \ mol \ L^{-1}$
C
$3.4 \ mol \ L^{-1}$
D
$5.1 \ mol \ L^{-1}$

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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

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For the hypothetical reaction $2X + G \to Q + 2M$,the rate expression is $\frac{d[Q]}{dt} = k[X]^2$. Which of the following is the most likely mechanism?

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In the reaction $X \to Y$,if the concentration of reactant $X$ is increased by $1.5$ times,the rate of reaction increases by $1.837$ times. Determine the order of the reaction with respect to $X$.

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For the reaction $A + B \to \text{products}$,what will be the order of reaction with respect to $A$ and $B$?

$Exp.$ $[A] \ (mol \ L^{-1})$ $[B] \ (mol \ L^{-1})$ Initial rate $(mol \ L^{-1} \ s^{-1})$

$1$ $2.5 \times 10^{-4}$ $3 \times 10^{-5}$ $5 \times 10^{-4}$

$2$ $5 \times 10^{-4}$ $6 \times 10^{-5}$ $4 \times 10^{-3}$

$3$ $1 \times 10^{-3}$ $6 \times 10^{-5}$ $1.6 \times 10^{-2}$

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For a reaction,$I^{-} + OCl^{-} \to IO^{-} + Cl^{-}$ in an aqueous medium,the rate of reaction is given by $\frac{d[IO^{-}]}{dt} = k[I^{-}][OCl^{-}]$. The overall order of reaction is

Medium

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Match List-$I$ with List-$II$:
List-$I$ (Order of Reaction) List-$II$ (Unit of rate constant)
$A$. Zero order $I$. $mol^{-1} L s^{-1}$
$B$. First order $II$. $mol^{-2} L^{2} s^{-1}$
$C$. Second order $III$. $s^{-1}$
$D$. Third order $IV$. $mol L^{-1} s^{-1}$

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$Exp.$	$[A] \ (mol \ L^{-1})$	$[B] \ (mol \ L^{-1})$	Initial rate $(mol \ L^{-1} \ s^{-1})$
$1$	$2.5 \times 10^{-4}$	$3 \times 10^{-5}$	$5 \times 10^{-4}$
$2$	$5 \times 10^{-4}$	$6 \times 10^{-5}$	$4 \times 10^{-3}$
$3$	$1 \times 10^{-3}$	$6 \times 10^{-5}$	$1.6 \times 10^{-2}$

List-$I$ (Order of Reaction)	List-$II$ (Unit of rate constant)
$A$. Zero order	$I$. $mol^{-1} L s^{-1}$
$B$. First order	$II$. $mol^{-2} L^{2} s^{-1}$
$C$. Second order	$III$. $s^{-1}$
$D$. Third order	$IV$. $mol L^{-1} s^{-1}$

For the reaction $2 N_2O_{5(g)} \longrightarrow 4 NO_{2(g)} + O_{2(g)}$,the rate and rate constant are $1.02 \times 10^{-4} \ mol \ L^{-1} \ s^{-1}$ and $3.4 \times 10^{-5} \ s^{-1}$ respectively. What is the concentration of $N_2O_5$?

Similar Questions

For the hypothetical reaction $2X + G \to Q + 2M$,the rate expression is $\frac{d[Q]}{dt} = k[X]^2$. Which of the following is the most likely mechanism?

In the reaction $X \to Y$,if the concentration of reactant $X$ is increased by $1.5$ times,the rate of reaction increases by $1.837$ times. Determine the order of the reaction with respect to $X$.

For a reaction,$I^{-} + OCl^{-} \to IO^{-} + Cl^{-}$ in an aqueous medium,the rate of reaction is given by $\frac{d[IO^{-}]}{dt} = k[I^{-}][OCl^{-}]$. The overall order of reaction is

Match List-$I$ with List-$II$:List-$I$ (Order of Reaction)List-$II$ (Unit of rate constant)$A$. Zero order$I$. $mol^{-1} L s^{-1}$$B$. First order$II$. $mol^{-2} L^{2} s^{-1}$$C$. Second order$III$. $s^{-1}$$D$. Third order$IV$. $mol L^{-1} s^{-1}$

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Match List-$I$ with List-$II$:
List-$I$ (Order of Reaction) List-$II$ (Unit of rate constant)
$A$. Zero order $I$. $mol^{-1} L s^{-1}$
$B$. First order $II$. $mol^{-2} L^{2} s^{-1}$
$C$. Second order $III$. $s^{-1}$
$D$. Third order $IV$. $mol L^{-1} s^{-1}$