(B) For Statement $I$:The rate law is $r = k[A]^2[B]$.When concentrations of $A$ and $B$ are doubled,the new rate $r'$ is:$r' = k[2A]^2[2B] = k(4[A]^2

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(B) For Statement $I$:The rate law is $r = k[A]^2[B]$.When concentrations of $A$ and $B$ are doubled,the new rate $r'$ is:$r' = k[2A]^2[2B] = k(4[A]^2)(2[B]) = 8k[A]^2[B] = 8r$.Thus,$x = 8$.For Statement $II$:The plot of concentration $[R]$ versus time $t$ is a straight line with a negative slope $-K$. This is characteristic of a zero-order reaction.Thus,$y = 0$.Therefore,$x + y = 8 + 0 = 8$.

Class 12 Chemistry Chemical Kinetics Mix Examples-Chemical Kinetics

Medium

Given below are two statements:
Statement $I$: The rate law for the reaction $A + B \rightarrow C$ is rate $(r) = k[A]^2[B]$. When the concentration of both $A$ and $B$ is doubled,the reaction rate is increased "$x$" times.
Statement $II$: The figure shows the variation in concentration against time plot for a "$y$" order reaction.
Concentration of $R$ vs Time plot: $A$ straight line with a negative slope equal to $-K$.
The value of $x + y$ is . . . . . .

JEE MAIN 2024 All JEE MAIN

A
$7$
B
$8$
C
$10$
D
$15$

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Chemical Kinetics

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Mix Examples-Chemical Kinetics

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