Answer:
The rate of the over all reaction is ;
[tex]R=K[A_2]^{1/2}[B][/tex]
Explanation:
Step 1 : [tex]A_2\rightleftharpoons 2 A[/tex] fast
Step 2 : [tex]A + B\rightarrow AB[/tex] slow
Equilibrium constant of the reaction in step 1:
[tex]K_1=\frac{[A]^2}{[A_2]}[/tex]....[1]
Overall reaction:
[tex]A_2 + 2 B \rightarrow 2 AB[/tex]
When there is a chemical reaction which taking place in more than 1 step than the rate of the over all reaction is determined by the slowest step occurring during that process;
Here step 2 is slow step, so the rate of the reaction will be;
[tex]R=k[A][B][/tex]..[2]
Putting value of [A] from [1] in [2]:
[tex]R=k\times \sqrt{K_1\times [A_2]}\times [B][/tex]
[tex]K=k\times (K_1)^{1/2}[/tex]
K = rate constant of the reaction
The rate of the over all reaction is ;
[tex]R=K[A_2]^{1/2}[B][/tex]
