1. a) Starting with the second order rate law d[A] dt = -k[A]² derive the integrated rate law in the form below: [A] = [

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1 A Starting With The Second Order Rate Law D A Dt K A Derive The Integrated Rate Law In The Form Below A 1 (109.03 KiB) Viewed 56 times

1. a) Starting with the second order rate law d[A] dt = -k[A]² derive the integrated rate law in the form below: [A] = [A]o 1+kt [A]o (10 Marks) b) Explain how the integrated rate law for first order and second order reactions can be used to determine whether the reaction is first or second order. (5 Marks) c) Given the second order reaction. A → P If the initial concentration of reactant "A" was 2.5M, determine the rate constant for this second order reaction if after 2 minutes the concentration of A was reduced to 0.667 of its initial concentration. (10 Marks)