Answer:
The order of reaction is 2.
Rate constant is 0.0328 (M s)⁻¹
Explanation:
The rate of a reaction is inversely proportional to the time taken for the reaction.
As we are decreasing the concentration of the reactant the half life is increasing.
a) For zero order reaction: the half life is directly proportional to initial concentration of reactant
b) for first order reaction: the half life is independent of the initial concentration.
c) higher order reaction: The relation between half life and rate of reaction is:
Rate = [tex]\frac{1}{k[A_{0}]^{(n-1)}}[/tex]
Half life =[tex]K\frac{1}{[A_{0}]^{(n-1)} }[/tex]
[tex]\frac{(halflife_{1})}{(halflife_{2})}=\frac{[A_{2}]^{(n-1)}}{[A_{1}]^{(n-1)} }[/tex]
where n = order of reaction
Putting values
[tex]\frac{109}{231}=\frac{[0.132]^{(n-1)}}{[0.280]^{(n-1)}}[/tex]
[tex]0.472=(0.472)^{(n-1)}[/tex]
Hence n = 2
[tex]halflife=\frac{1}{k[A_{0}]}[/tex]
Putting values
[tex]231=\frac{1}{K(0.132)}[/tex]
K = 0.0328
