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The rate law for the reaction 3A → C is Rate = 4.36 × 10-2 L mol-1 hr-1 [A]2 What is the half-life for the reaction if the initial concentration of A is 0.250 M?


A) 0.0109 hr
B) 0.0629 hr
C) 15.9 hr
D) 23.9 hr
E) 91.7 hr

F) B) and E)
G) A) and C)

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In a reversible reaction, a catalyst will speed up the forward reaction but not affect the reverse reaction.

A) True
B) False

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Carbon-14 is a radioactive isotope which decays with a half-life of 5730 years. What is the first-order rate constant for its decay, in units of years-1?


A) 5.25 × 10-5 years-1
B) 1.21 × 10-4 years-1
C) 1.75 × 10-4 years-1
D) 3.49 × 10-4 years-1
E) 3.97 × 103 years-1

F) A) and B)
G) B) and E)

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All second-order reactions are bimolecular reactions.

A) True
B) False

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Reaction intermediates differ from activated complexes in that


A) they are stable molecules with normal bonds and are frequently isolated.
B) they are molecules with normal bonds rather than partial bonds and can occasionally be isolated.
C) they are intermediate structures which have characteristics of both reactants and products.
D) they are unstable and can never be isolated.
E) all reactions involve reaction intermediates, but not all have activated complexes.

F) All of the above
G) B) and C)

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In an exothermic reaction,


A) the forward reaction is slower than the reverse reaction.
B) the reaction rate will speed up with time.
C) the collision energy of the reactants will be greater than that of the products.
D) the forward reaction will have a lower activation energy than the reverse reaction.
E) the activation energy will change as the reaction progresses.

F) A) and B)
G) D) and E)

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The rate law for the rearrangement of CH3NC to CH3CN at 800 K is Rate = (1300 s-1) [CH3NC]. What is the half-life for this reaction?


A) 7.69 × 10-4 s
B) 5.3 × 10-4 s
C) 1.9 × 10-3 s
D) 520 s
E) 1920 s

F) B) and D)
G) A) and B)

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The greater the energy of activation, Ea, the faster will be the reaction.

A) True
B) False

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A study of the decomposition reaction 3RS2 → 3R + 6S yields the following initial rate data. [RS2](mol L-1) Rate (mol/(L·s) ) 0) 150 0.0394 0) 250 0.109 0) 350 0.214 0) 500 0.438 What is the rate constant for the reaction?


A) 0.0103 L mol-1s-1
B) 0.263 L mol-1s-1
C) 0.571 L mol-1s-1
D) 1.17 L mol-1s-1
E) 1.75 L mol-1s-1

F) All of the above
G) A) and B)

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For the reaction A(g) + 2B(g) → 2C(g) + 2D(g) The following data were collected at constant temperature. Determine the correct rate law for this reaction. Trial Initial [A] Initial [B] Initial Rate (mol/L) (mol/L) (mol/(L·min) ) 1 0) 125 0.200 7.25 2 0) 375 0.200 21.75 3 0) 250 0.400 14.50 4 0) 375 0.400 21.75


A) Rate = k[A] [B]
B) Rate = k[A]2 [B]
C) Rate = k[A] [B]2
D) Rate = k[A]
E) Rate = k[A]3

F) All of the above
G) None of the above

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In the lock and key model of enzyme action, the active site on the enzyme provides an exact fit for the substrate.

A) True
B) False

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A boiled egg can be cooked at 100.0°C in exactly 5 minutes. At an altitude of around 2000 m where the boiling point of water is 93.0°C, it takes exactly 7.5 minutes to cook the egg to the same amount. What is the activation energy for the reaction involved when an egg is boiled?


A) 0.5 kJ/mol
B) 4.5 kJ/mol
C) 7.9 kJ/mol
D) 66 kJ/mol
E) >100 kJ/mol

F) A) and D)
G) All of the above

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The half-life of a second-order reaction does not depend on the initial concentration of reactant.

A) True
B) False

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The decomposition of hydrogen peroxide is a first-order process with a rate constant of 1.06 × 10-3 min-1. How long will it take for the concentration of H2O2 to drop from 0.0200 M to 0.0120 M?


A) < 1 min
B) 7.55 min
C) 481 min
D) 4550 min
E) 31,400 min

F) All of the above
G) A) and B)

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An increase in temperature increases the reaction rate because


A) a greater fraction of the collisions have the correct orientation of molecules.
B) the activation energy of the reaction will increase.
C) the activation energy of the reaction will decrease.
D) temperature acts as a catalyst in chemical reactions.
E) more collisions will have enough energy to exceed the activation energy.

F) B) and C)
G) A) and E)

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All bimolecular reactions are second-order reactions.

A) True
B) False

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The rate law for the reaction 3A → 2B is rate = k[A] with a rate constant of 0.0447 hr-1. What is the half-life of the reaction?


A) 0.0224 hr
B) 0.0645 hr
C) 15.5 hr
D) 22.4 hr
E) 44.7 hr

F) C) and D)
G) B) and C)

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The rate constant for the reaction 3A → 4B is 6.00 × 10-3 L mol-1min-1. How long will it take the concentration of A to drop from 0.75 M to 0.25 M?


A) 2.2 × 10-3 min
B) 5.5 × 10-3 min
C) 180 min
D) 440 min
E) 5.0 × 102 min

F) A) and D)
G) None of the above

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Sulfuryl chloride, SO2Cl2(g) , decomposes at high temperature to form SO2(g) and Cl2(g) . The rate constant at a certain temperature is 4.68 × 10-5s-1. What is the order of the reaction?


A) Zero
B) First
C) Second
D) Third
E) More information is needed to determine the order.

F) D) and E)
G) None of the above

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Dinitrogen tetraoxide, N2O4, decomposes to nitrogen dioxide, NO2, in a first-order process. If k = 2.5 × 103 s-1 at -5°C and k = 3.5 × 104 s-1 at 25°C, what is the activation energy for the decomposition?


A) 0.73 kJ/mol
B) 58 kJ/mol
C) 140 kJ/mol
D) 580 kJ/mol
E) > 1000 kJ/mol

F) C) and D)
G) A) and D)

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