Difficult
$A$ reaction is first order in $A$ and second order in $B$.
$(i)$ Write the differential rate equation.
$(ii)$ How is the rate affected on increasing the concentration of $B$ three times?
$(iii)$ How is the rate affected when the concentrations of both $A$ and $B$ are doubled?
$(i)$ Write the differential rate equation.
$(ii)$ How is the rate affected on increasing the concentration of $B$ three times?
$(iii)$ How is the rate affected when the concentrations of both $A$ and $B$ are doubled?
(N/A) $(i)$ The differential rate equation is $\text{Rate} = k[A][B]^2$.
$(ii)$ If the concentration of $B$ is increased $3$ times,the new rate is $\text{Rate}' = k[A][3B]^2 = 9k[A][B]^2 = 9 \times \text{Rate}$. Thus,the rate increases $9$ times.
$(iii)$ If the concentrations of both $A$ and $B$ are doubled,the new rate is $\text{Rate}'' = k[2A][2B]^2 = k[2A][4B^2] = 8k[A][B]^2 = 8 \times \text{Rate}$. Thus,the rate increases $8$ times.
$(ii)$ If the concentration of $B$ is increased $3$ times,the new rate is $\text{Rate}' = k[A][3B]^2 = 9k[A][B]^2 = 9 \times \text{Rate}$. Thus,the rate increases $9$ times.
$(iii)$ If the concentrations of both $A$ and $B$ are doubled,the new rate is $\text{Rate}'' = k[2A][2B]^2 = k[2A][4B^2] = 8k[A][B]^2 = 8 \times \text{Rate}$. Thus,the rate increases $8$ times.
Explore More
Similar Questions
At what concentration of the reactant (in $M$) are the rate constants for first-order,second-order,and third-order reactions equal?
Easy
View SolutionHalf-life periods for a reaction at initial concentrations of $0.1 \ M$ and $0.01 \ M$ are $5$ and $50$ minutes,respectively. The order of reaction is
DifficultTS EAMCET 2022
View SolutionFor the elementary reaction $M \rightarrow N$,the rate of disappearance of $M$ increases by a factor of $8$ upon doubling the concentration of $M$. The order of the reaction with respect to $M$ is :
MediumIIT 2014
View SolutionDifferential form of the rate equation is $\frac{dx}{dt} = k[P][Q]^{0.5}[R]^{0.5}$. Which statement about the above equation is wrong?
Medium
View SolutionInversion of cane sugar in dilute acid (conversion into glucose and fructose) is a:
Easy
View SolutionVedclass Products
For Students
Vedclass Test Series
Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.
Start Free TrialFor Teachers
Exam Paper Generator
Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.
Try FreeFor Institutes
Online Exam Module
Live online exams with unlimited students, 360° analytics & white-label branding.
See Demo