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d. There is too little information to assess the change. 8. If a reaction is first order with respect to [A], doubling the concentration of [A] will: a. double the rate of the reaction. b. increase the rate of the reaction fourfold. c. increase the rate of the reaction eightfold. d. not affect the rate of the reaction. 207 9. If a reaction is zero order with respect to [C], tripling the concentration of [C] will: a. triple the rate of the reaction. b. result in a fourfold increase in the rate of the reaction. c. result in a ninefold increase in the rate of the reaction. d. no impact on the rate of the reaction. 10. If a reaction is second order with respect to [B], doubling the concentration of [B] will: a. double the rate of the reaction. b. result in a fourfold increase in the rate of the reaction. c. result in an eightfold increase in the rate of the reaction. d. not affect the rate of the reaction. 11. For a second-order reaction, the plot of 1/[concentration] with respect to time is a. linear; m = +k b. hyperbolic c. parabolic d. linear; m = -k 0200 12. Consider the following elementary step: A+B+C →D. What type of an elementary step is this? a. Unimolecular b. Bimolecular c. Termolecular d. None of these 6000.0