(5) Given the following reaction and experimental data at 25 °C: A + B reaction: 1 2 23 [A] [B] 0.10 0.10 0.25 0.10 0.25 0.04 a. What is the order of this reaction with respect to reactant A? 3 Products c. What is the OVERALL reaction order? Rate: 1.56 x 108 M/s 2.4375 x 10-7 M/s 3.90 x 10-8 M/s b. What is the order of this reaction with respect to reactant B? e. Write the correct RATE LAW for this reaction: d. What is the value of the specific rate constant (with UNITS)?

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(5) (6) Given the following reaction and experimental data at 25 °C: A + B reaction: 1 2 3 a. What C. f. [A] 0.10 0.25 0.25 b. What is the order of this reaction with respect to reactant B? [B] 0.10 0.10 0.04 e. Write the correct RATE LAW for this reaction: a. d. What is the value of the specific rate constant (with UNITS)? b. Products the order of this reaction with respect to reactant A? What is the OVERALL reaction order? C. Rate: 1.56 x 10-8 M/s 2.4375 x 10-7 M/s 3.90 x 10-8 M/s g. You are a chemical manufacturer for the above product. You have only enough money to purchase additional A OR additional B. Would increasing the concentration of A to 3.0 M or increasing the concentration of B to 3.0 M cause you to produce product at a greater rate? EXPLAIN YOUR ANSWER. By what factor does the rate change in each of the following cases, assuming that temperature is held constant? A reaction is first order with respect to reactant A, and [A] is doubled. A reaction is second order with respect to reactant B, and [B] is halved. A reaction is second order with respect to reactant C, and [C] is tripled. What would be the rate of the forward reaction if the concentration of A is changed to 1.75 M and the concentration of B is changed to 0.25 M?