Chemical Kinetics - Result Question 6

####6. The given plots represent the variation of the concentration of a reaction $R$ with time for two different reactions (i) and (ii). The respective orders of the reactions are

(2019 Main, 9 April I)

(a) 1,1

(b) 0,2

(c) 0,1

(d) 1,0

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Answer:

Correct Answer: 6. (b)

Solution:

  1. In first order reaction, the rate expression depends on the concentration of one species only having power equal to unity.

$$ n R \longrightarrow \text { products } $$

$$ \frac{-d[R]}{d t}=k[R] $$

On integration, $-\ln [R]=k t-\ln \left[R _0\right]$

or

$$ \begin{aligned} \ln (R) & =\ln \left(R _0\right)-k t \ y & =c+m x \ m= & \text { slope }=-k(\text { negative }) \ c= & \text { intercept }=\ln \left(r _0\right) \end{aligned} $$

The graph for first order reactions is

In zero order reaction,

$$ \begin{array}{cc} {[R] \longrightarrow \text { product }} \ \therefore \quad & \frac{-d[R] _t}{d t}=k \text { or }-d[R] _t=k d t \end{array} $$

On integrating, $-[R] _t=k t+c$

$$ \begin{array}{ll} \text { If } & t=0,[R] _t=[R] _0 \ \therefore & -[R] _t=k t-[R] _0 \ & {[R] _t=[R] _0-k t} \end{array} $$

Thus, the graph plotted between $[r] _t$ and $t$ gives a straight line with negative slope $(-k)$ and intercept equal to $[R] _0$.

The graph for zero order reaction is



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