Chemistry Raymond Chang 10 th edition Chapter 13

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Chemistry Raymond Chang 10 th edition Chapter 13 Chemical Kinetics Copyright © The Mc.

Chemistry Raymond Chang 10 th edition Chapter 13 Chemical Kinetics Copyright © The Mc. Graw-Hill Companies, Inc. Permission required for reproduction or display.

Question 1 For the reaction 2 A + B → C it is found

Question 1 For the reaction 2 A + B → C it is found that changing the concentration of A has no impact on the rate, but when B is doubled the rate doubles. The rate law is A) rate = k[A]2[B] B) rate = k[A][B]2 C) rate = k[B]2 D) none of the above.

Question 2 If the activation energy of a reaction is decreased, the reaction rate

Question 2 If the activation energy of a reaction is decreased, the reaction rate will increase. A) True B) False

Question 3 Which of the following is true? A) A catalyst is not consumed

Question 3 Which of the following is true? A) A catalyst is not consumed in the reaction. B) A catalyst speeds up the forward reaction. C) A catalyst speeds up the reverse reaction. D) A catalyst decreases the activation energy. E) All of the above.

Question 4 If a reaction is first order in one reactant and first order

Question 4 If a reaction is first order in one reactant and first order in the only other reactant, the units of the rate constant would be A) Ms-1. B) M-1 s. C) Ms. D) M-1 s-1. E) none of the above

Question 5 Which of the following will cause the reaction rate to increase? A)

Question 5 Which of the following will cause the reaction rate to increase? A) Increasing the temperature. B) Adding a catalyst. C) Reducing the concentration of reactants. D) Both A and B. E) Both B and C.

Question 6 Using the data below, determine the rate law for the reaction of

Question 6 Using the data below, determine the rate law for the reaction of A with B to produce C. Exp 1: 0. 100 M A, 0. 100 M B, rate 0. 120 M/s Exp 2: 0. 100 M A, 0. 200 M B, rate 0. 120 M/s Exp 3: 0. 200 M A, 0. 100 M B, rate 0. 480 M/s A) rate=k[A]2[B] B) rate=k[A]2 C) rate=k[B]2 D) rate=k[A][B]

Question 7 If a proposed mechanism is inconsistent with the experimentally determined rate law,

Question 7 If a proposed mechanism is inconsistent with the experimentally determined rate law, then the rate law must be inaccurate. A) True B) False

Question 8 If a proposed mechanism is consistent with the experimentally determined rate law,

Question 8 If a proposed mechanism is consistent with the experimentally determined rate law, then the mechanism must be correct. A) True B) False

Question 9 If a reaction is exothermic, then the activation energy for the forward

Question 9 If a reaction is exothermic, then the activation energy for the forward reaction is_____ the activation energy for the reverse reaction. A) greater than B) less than C) equal to D) none of the above--there is no relationship between the values

Question 10 Reactions rarely occur by mechanisms that include termolecular elementary steps because A)

Question 10 Reactions rarely occur by mechanisms that include termolecular elementary steps because A) the simultaneous collision of three molecules has a low probability. B) simpler reaction mechanisms can always support the same rate law. C) the math involved is too complicated. D) all of the above.

Question 11 Which of the following can be used to determine the rate of

Question 11 Which of the following can be used to determine the rate of a chemical reaction? A) Measuring a change in color B) Measuring a change in mass C) Measuring a change in concentration of a certain species D) All of the above E) None of the above

Question 12 The average rate of a reaction is the rate of reaction at

Question 12 The average rate of a reaction is the rate of reaction at any given time. A) True B) False

Question 13 The rate of a reaction A) is always dependent of the concentration

Question 13 The rate of a reaction A) is always dependent of the concentration of the reactants. B) may or may not depend on reactant concentration. C) is never constant throughout a reaction. D) can be calculated for first order and second order reactions only.

Question 14 For a first order reaction, a plot of the rate constant versus

Question 14 For a first order reaction, a plot of the rate constant versus time should be A) an exponential curve. B) a straight line going through the origin. C) a straight line parallel to the x axis. D) a straight line parallel to the y axis. E) none of the above.

Question 15 In the reaction N 2 + 3 H 2 → 2 NH

Question 15 In the reaction N 2 + 3 H 2 → 2 NH 3, the rate of formation of ammonia at a given moment is 0. 060 mol/s. What is the rate of reaction of hydrogen gas at the same moment? A) -0. 060 mol/s B) 0. 090 mol/s C) -0. 090 mol/s D) 0. 040 mol/s E) -0. 040 mol/s

Question 16 The reaction C 2 H 6 → 2 CH 3· is first

Question 16 The reaction C 2 H 6 → 2 CH 3· is first order with k = 2. 50 x 10 -3 s-1. How much time will be necessary for the concentration of C 2 H 6 to decrease to 20 % of the initial amount? A) 644 s B) 2. 80 x 102 s C) 0. 0025 s D) 0. 0005 s E) None of the above

Question 17 The reaction C 2 H 6 → 2 CH 3· is first

Question 17 The reaction C 2 H 6 → 2 CH 3· is first order with k = 2. 5 x 10 -3 s-1. Which of the following changes in concentration will take longer than the others? A) 2. 0 M → 1. 0 M B) 1. 0 M → 0. 50 M C) 0. 50 M → 0. 25 M D) 0. 80 M → 0. 40 M E) None of the above

Question 18 Which type of plot will be linear for a second order reaction?

Question 18 Which type of plot will be linear for a second order reaction? A) [A] vs time B) ln[A] vs time C) 1/[A] vs time D) [A]2 vs time E) None is linear

Question 19 How does a catalyst work? A) It increases the rate of reaction

Question 19 How does a catalyst work? A) It increases the rate of reaction proportionally with its concentration B) It decreases the half time of the reaction C) It decreases the activation energy of the reaction D) It slows down the reverse reaction E) None of the above

Question 20 A unimolecular reaction follows first order kinetics, and a bimolecular reaction follows

Question 20 A unimolecular reaction follows first order kinetics, and a bimolecular reaction follows second order kinetics. A) True B) False

Answer Key – Chapter 13 D 2. A 3. E 4. D 5. D

Answer Key – Chapter 13 D 2. A 3. E 4. D 5. D 6. B 7. B 8. B 9. B 10. A 1. D 12. B 13. B 14. C 15. C 16. A 17. E 18. C 19. C 20. B 11.