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Deck 16: Kinetics: Rates and Mechanisms of Chemical Reactions

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Question
A transition state is a species (or state) corresponding to an energy maximum on a reaction energy diagram.
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Question
An elementary reaction is a simple, one-step process.
Question
All bimolecular reactions are second-order reactions.
Question
All second-order reactions are bimolecular reactions.
Question
The half-life of a first-order reaction does not depend on the initial concentration of reactant.
Question
A reaction intermediate is a species corresponding to a local energy maximum on a reaction energy diagram.
Question
Chlorine atoms act as heterogeneous catalysts in the destruction of ozone in the stratosphere.
Question
The greater the energy of activation, Ea, the faster will be the reaction.
Question
Consider the following reaction 8A(g) + 5B(g) → 8C(g) + 6D(g)
If [C] is increasing at the rate of 4.0 mol L1s1, at what rate is [B] changing?

A)−0.40 mol L 1s 1
B)−2.5 mol L 1s 1
C)−4.0 mol L 1s 1
D)−6.4 mol L 1s 1
E)None of these choices are correct.
Question
The half-life of a second-order reaction does not depend on the initial concentration of reactant.
Question
In the lock and key model of enzyme action, the active site on the enzyme provides an exact fit for the substrate.
Question
Consider the reaction 2NH3(g) → N2(g) + 3H2(g)
If the rate Δ[H2]/Δt is 0.030 mol L1s1, then Δ[NH3 ]/Δt is

A)−0.045 mol L 1 s 1
B)−0.030 mol L 1 s 1
C)−0.020 mol L 1 s 1
D)−0.010 mol L 1 s 1
E)None of these choices are correct.
Question
Consider the general reaction 5Br(aq) + BrO3(aq) + 6H+(aq) → 3Br2(aq) + 3H2O(aq)
For this reaction, the rate when expressed as Δ[Br2]/Δt is the same as

A)−Δ[H 2O]/Δt
B)3Δ[BrO 3 ]/Δt
C)−5Δ[Br ]/Δt
D)−0.6Δ[Br ]/Δt
E)None of these choices are correct.
Question
The units of the rate constant depend on the order of the reaction.
Question
A catalyst lowers the activation energy but does not affect the mechanism of a reaction.
Question
The compound RX3 decomposes according to the equation 3RX3 → R + R2X3 + 3X2
In an experiment the following data were collected for the decomposition at 100°C. What is the average rate at which RX3 is disappearing over the entire experiment?
<strong>The compound RX<sub>3</sub> decomposes according to the equation 3RX<sub>3</sub> → R + R<sub>2</sub>X<sub>3 </sub>+ 3X<sub>2</sub> In an experiment the following data were collected for the decomposition at 100°C. What is the average rate at which RX<sub>3</sub> is disappearing over the entire experiment? </strong> A)0.011 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> B)0.019 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> C)0.044 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> D)0.049 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> E)0.069 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> <div style=padding-top: 35px>

A)0.011 mol L 1s 1
B)0.019 mol L 1s 1
C)0.044 mol L 1s 1
D)0.049 mol L 1s 1
E)0.069 mol L 1s 1
Question
The rate of a reaction is determined by the rate of the fastest step in the mechanism.
Question
In a reversible reaction, a catalyst will speed up the forward reaction but not affect the reverse reaction.
Question
The units of the rate of reaction depend on the order of the reaction.
Question
The rate law cannot be predicted from the stoichiometry of a reaction.
Question
Sucrose decomposes to fructose and glucose in acid solution. When ln [sucrose] is plotted vs. time, a straight line with slope of −0.208 hr1 results. What is the rate law for the reaction?

A)Rate = 0.208 hr 1 [sucrose] 2
B)Rate = 0.208 hr 1 [sucrose]
C)Rate = 0.0433 hr [sucrose] 2
D)Rate = 0.0433 hr [sucrose]
E)Rate = 0.208 mol L 1hr 1 [sucrose] 0
Question
Sulfur trioxide can undergo decomposition according to the equation 2SO3 → 2SO2 + O2
For this reaction, rate = −0.5Δ[SO3 ]/Δt = k[SO3]2. If the reaction rate is 1.75 × 107 mol L1 min1 when the concentration of sulfur trioxide is 5.4 × 103 mol L1, what is the value of the rate constant k?

A)3.2 × 10 5 L mol 1 min 1
B)1.6 × 10 5 L mol 1 min 1
C)6.0 × 10 3 L mol 1 min 1
D)3.0 × 10 3 L mol 1 min 1
E)1.6 × 10 2 L mol 1 min 1
Question
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 × 105s1. What is the order of the reaction?

A)Zero
B)First
C)Second
D)Third
E)More information is needed to determine the order.
Question
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.
<strong>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. </strong> A)Rate = k[A] [B] B)Rate = k[A] <sup>2 </sup>[B] C)Rate = k[A] [B] <sup>2</sup> D)Rate = k[A] E)Rate = k[A] <sup>3</sup> <div style=padding-top: 35px>

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
Question
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.
<strong>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. </strong> A)Rate = k[A] [B] B)Rate = k[A] <sup>2 </sup>[B] C)Rate = k[A] [B] <sup>2</sup> D)Rate = k[A] E)Rate = k[A] <sup>3</sup> <div style=padding-top: 35px>

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
Question
A study of the decomposition reaction 3RS2 → 3R + 6S yields the following initial rate data. <strong>A study of the decomposition reaction 3RS<sub>2 </sub>→ 3R + 6S yields the following initial rate data. What is the rate constant for the reaction?</strong> A)0.0103 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> B)0.263 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> C)0.571 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> D)1.17 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> E)1.75 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> <div style=padding-top: 35px> 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
Question
A reaction has the following rate law: Rate = k[A][B]2
In experiment 1, the concentrations of A and B are both 0.10 mol L1; in experiment 2, the concentrations are both 0.30 mol L1. If the temperature stays constant, what is the value of the ratio, Rate(2)/Rate(1)?

A)3.0
B)6.0
C)9.0
D)18
E)27
Question
Which of the following sets of units could be appropriate for a zero-order rate constant?

A)s 1
B)L mol 1s 1
C)L 2 mol 2s 1
D)L 3 mol 3s 1
E)mol L 1s 1
Question
Ammonium cyanate (NH4CNO) reacts to form urea (NH2CONH2). At 65°C the rate constant, k, is 3.60 L mol1s1. What is the rate law for this reaction?

A)Rate = 3.60 L mol 1s 1[NH 4CNO]
B)Rate = 3.60 L mol 1s 1[NH 4CNO] 2
C)Rate = 0.28 mol L 1 s 1[NH 4CNO]
D)Rate = 0.28 mol L 1 s 1[NH 4CNO] 2
E)Rate = 3.60 L mol 1s 1[NH 2CONH 2] 1
Question
Tetrafluoroethylene, C2F4, can be converted to octafluorocyclobutane which can be used as a refrigerant or an aerosol propellant. A plot of 1/[C2F4] vs. time gives a straight line with a slope of 0.0448 L mol1s1. What is the rate law for this reaction?

A)Rate = 0.0448 (L mol 1s 1)[C 2F 4]
B)Rate = 22.3 (mol L 1s)[C 2F 4]
C)Rate = 0.0448 (L mol 1s 1)[C 2F 4] 2
D)Rate = 22.3 (mol L 1s)[C 2F 4] 2
E)Rate = 0.0448 s 1 [C 2F 4]
Question
A reaction is second-order with respect to the reactant R. Which of the following plots will produce a straight line?

A)[R] vs. 1/time
B)1/[R] vs. time
C)[R] 2 vs. time
D)1/[R] 2 vs. time
E)ln[R] vs. time
Question
When the reaction A → B + C is studied, a plot of ln[A]t vs. time gives a straight line with a negative slope. What is the order of the reaction?

A)Zero
B)First
C)Second
D)Third
E)More information is needed to determine the order.
Question
Which one of the following sets of units is appropriate for a third-order rate constant?

A)s 1
B)mol L 1s 1
C)L mol 1s 1
D)L 2 mol 2s 1
E)L 3 mol 3s 1
Question
When the reaction A → B + C is studied, a plot 1/[A]t vs. time gives a straight line with a positive slope. What is the order of the reaction?

A)Zero
B)First
C)Second
D)Third
E)More information is needed to determine the order.
Question
Which one of the following sets of units is appropriate for a second-order rate constant?

A)s 1
B)mol L 1s 1
C)L mol 1s 1
D)mol 2 L 2s 1
E)L 2 mol 2s 1
Question
For the reaction 3A(g) + 2B(g) → 2C(g) + 2D(g)
The following data were collected at constant temperature. Determine the correct rate law for this reaction.
<strong>For the reaction 3A(g) + 2B(g) → 2C(g) + 2D(g) The following data were collected at constant temperature. Determine the correct rate law for this reaction. </strong> A)Rate = k[A][B] B)Rate = k[A][B] <sup>2</sup> C)Rate = k[A] <sup>3</sup>[B] <sup>2</sup> D)Rate = k[A] <sup>1.5</sup>[B] E)Rate = k[A] <sup>2</sup>[B] <div style=padding-top: 35px>

A)Rate = k[A][B]
B)Rate = k[A][B] 2
C)Rate = k[A] 3[B] 2
D)Rate = k[A] 1.5[B]
E)Rate = k[A] 2[B]
Question
2NOBr(g) → 2NO(g) + Br2(g) <strong>2NOBr(g) → 2NO(g) + Br<sub>2</sub>(g) Based on the initial rate data above, what is the value of the rate constant?</strong> A)0.0360 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> B)0.800 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> C)1.25 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> D)27.8 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> E)0.0360 s <sup>−</sup><sup>1</sup> <div style=padding-top: 35px> Based on the initial rate data above, what is the value of the rate constant?

A)0.0360 L mol 1s 1
B)0.800 L mol 1s 1
C)1.25 L mol 1s 1
D)27.8 L mol 1s 1
E)0.0360 s 1
Question
The reaction X → Y is first-order overall and first-order with respect to the reactant X. The result of doubling the initial concentration of X will be to

A)shorten the half-life of the reaction.
B)increase the rate constant of the reaction.
C)decrease the rate constant of the reaction.
D)shorten the time taken to reach equilibrium.
E)double the initial rate.
Question
For the reaction 2A + B + 2C → D + E
The following initial rate data were collected at constant temperature. Determine the correct rate law for this reaction. All units are arbitrary.
<strong>For the reaction 2A + B + 2C → D + E The following initial rate data were collected at constant temperature. Determine the correct rate law for this reaction. All units are arbitrary. </strong> A)Rate = k[A][B][C] B)Rate = k[A] <sup>2</sup>[B][C] C)Rate = k[A] <sup>2</sup>[B][C] <sup>−</sup><sup>1</sup> D)Rate = k[A][B] <sup>2</sup>[C] <sup> </sup><sup>−</sup><sup>1</sup> E)None of these choices are correct. <div style=padding-top: 35px>

A)Rate = k[A][B][C]
B)Rate = k[A] 2[B][C]
C)Rate = k[A] 2[B][C] 1
D)Rate = k[A][B] 2[C] 1
E)None of these choices are correct.
Question
A reaction is first-order with respect to the reactant R. Which of the following plots will produce a straight line?

A)[R] vs. 1/time
B)1/[R] vs. time
C)[R] 2 vs. time
D)1/[R] 2 vs. time
E)ln[R] vs. time
Question
The reaction CH3NC(g) → CH3CN(g) is first-order with respect to methyl isocyanide, CH3NC. If it takes 10.3 minutes for exactly one quarter of the initial amount of methyl isocyanide to react, what is the rate constant in units of min1?

A)−0.135 min 1
B)0.0279 min 1
C)0.089 min 1
D)0.135 min 1
E)35.8 min 1
Question
A first-order reaction has a half-life of 20.0 minutes. Starting with 1.00 × 1020 molecules of reactant at time t = 0, how many molecules remain unreacted after 100.0 minutes?

A)1.00 × 10 4 molecules
B)2.00 × 10 19 molecules
C)3.20 × 10 16 molecules
D)5.00 × 10 20 molecules
E)None of these choices are correct.
Question
Dinitrogen tetraoxide, N2O4, decomposes to nitrogen dioxide, NO2, in a first-order process. If k = 2.5 × 103 s1 at −5°C and k = 3.5 × 104 s1 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
Question
The radioactive isotope tritium decays with a first-order rate constant k of 0.056 year1. What fraction of the tritium initially in a sample is still present 30 years later?

A)0.19
B)0.60
C)0.15
D)2.8 × 10 38
E)None of these choices are correct.
Question
The rate constant for the reaction 3A → 4B is 6.00 × 103 L mol1min1. 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 × 10 2 min
Question
If the activation energy of a reaction decreases by 10.0 kJ/mol, from 100.0 to 90.0 kJ/mol, what effect will this have on the rate of reaction at 298K?

A)The rate will increase, by a factor of more than 50.
B)The rate will decrease, by a factor of more than 50.
C)The rate will increase, by a factor of less than 50.
D)The rate will decrease, by a factor of less than 50.
E)The rate will not change unless temperature changes.
Question
Cyclopropane is converted to propene in a first-order process. The rate constant is 5.4 × 102 hr1. If the initial concentration of cyclopropane is 0.150 M, what will its concentration be after 22.0 hours?

A)0.0457 M
B)0.105 M
C)0.127 M
D)0.492 M
E)None of these choices are correct.
Question
The decomposition of hydrogen peroxide is a first-order process with a rate constant of 1.06 × 103 min1. 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
Question
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 years1?

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 × 10 3 years 1
Question
The active ingredient in an over the counter pain killer analgesic decomposes with a rate constant, k = 9.05 × 104 day1. How many days does it take for 15% of the original ingredient to decompose?

A)730 days
B)414 days
C)365 days
D)180 days
E)78 days
Question
A gas-phase decomposition is first-order with respect to the reactant, R. If the initial concentration of R is 1.0 × 104 mol L1and the rate constant k = 1.08 × 106 s1, what concentration of R remains after 25 days?

A)1.0 × 10 3 mol L 1
B)1.0 × 10 4 mol L 1
C)9.6 × 10 5 mol L 1
D)4.3 × 10 5 mol L 1
E)9.7 × 10 6 mol L 1
Question
Ammonia will react with oxygen in the presence of a copper catalyst to form nitrogen and water. From 164.5°C to 179.0°C, the rate constant increases by a factor of 4.27. What is the activation energy of this oxidation reaction?

A)24.5 kJ/mol
B)165 kJ/mol
C)242 kJ/mol
D)1630 kJ/mol
E)> 10 4 kJ/mol
Question
The rate law for the reaction 3A → C is Rate = 4.36 × 102 L mol1 hr1 [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
Question
The rate law for the rearrangement of CH3NC to CH3CN at 800 K is Rate = (1300 s1)[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
Question
The rate law for the reaction 3A → 2B is rate = k[A] with a rate constant of 0.0447 hr1. 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
Question
The decomposition of SOCl2 is first-order in SOCl2. If the half-life for the reaction is 4.1 hr, how long would it take for the concentration of SOCl2 to drop from 0.36 M to 0.045 M?

A)0.52 hr
B)1.4 hr
C)12 hr
D)33 hr
E)> 40 hr
Question
A reactant R is being consumed in a first-order reaction. What fraction of the initial R is consumed in 4.0 half-lives?

A)0.94
B)0.87
C)0.75
D)0.13
E)0.063
Question
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
Question
In going from room temperature (25.0°C) to 10°C above room temperature, the rate of a reaction doubles. Calculate the activation energy for the reaction.

A)157.2 kJ/mol
B)103.8 kJ/mol
C)52.9 kJ/mol
D)6.4 kJ/mol
E)<1 kJ/mol
Question
Butadiene, C4H6 (used to make synthetic rubber and latex paints) reacts to C8H12 with a rate law of rate = 0.014 L/(mol·s) [C4H6]2. What will be the concentration of C4H6 after 3.0 hours if the initial concentration is 0.025 M?

A)0.0052 M
B)0.024 M
C)43 M
D)190 M
E)0.0000 M
Question
The decomposition of dinitrogen pentaoxide to nitrogen dioxide and oxygen follows first-order kinetics and has an activation energy of 102 kJ/mol. By what factor will the fraction of collisions with energy greater than or equal to the activation energy increase if the reaction temperature goes from 30°C to 60°C?

A)1.00
B)1.10
C)2.00
D)4.00
E)38.4
Question
The decomposition of dinitrogen pentaoxide has an activation energy of 102 kJ/mol and ΔH°rxn = + 55 kJ/mol. What is the activation energy for the reverse reaction?

A)27 kJ/mol
B)47 kJ/mol
C)55 kJ/mol
D)102 kJ/mol
E)More information is needed, since this is a Hess's law calculation.
Question
Consider the reaction 2A + 2B + C → 2D + E
If the rate law for this reaction is Rate = k[A][B]2, what will be the effect on the rate if the concentrations of A, B and C are all doubled at the same time?

A)The rate will increase by a factor of 2.
B)The rate will increase by a factor of 4.
C)The rate will increase by a factor of 6.
D)The rate will increase by a factor of 8.
E)More information is needed before this question can be answered.
Question
The kinetics of the decomposition of dinitrogen pentaoxide is studied at 50°C and at 75°C. Which of the following statements concerning the studies is correct?

A)The rate at 75°C will be greater than the rate at 50°C because the activation energy will be lower at 75°C than at 50°C.
B)The rate at 75°C will be greater than the rate at 50°C because the activation energy will be higher at 75°C than at 50°C.
C)The rate at 75°C will be less than the rate at 50°C because the molecules at higher speeds do not interact as well as those at lower speeds.
D)The rate at 75°C will be greater than at 50°C because the concentration of a gas increases with increasing temperature.
E)The rate at 75°C will be greater than the rate at 50°C because the number of molecules with enough energy to react increases with increasing temperature.
Question
When a catalyst is added to a reaction mixture, it

A)increases the rate of collisions between reactant molecules.
B)provides reactant molecules with more energy.
C)slows down the rate of the back reaction.
D)provides a new pathway (mechanism)for the reaction.
E)None of these choices are correct.
Question
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.
Question
What is the molecularity of the following elementary reaction? NH2Cl(aq) + OH (aq) → NHCl (aq) + H2O(l)

A)Unimolecular
B)Bimolecular
C)Termolecular
D)Tetramolecular
E)Need to know the reaction order before molecularity can be determined.
Question
In order to obtain the activation energy of a reaction using a graphical method, __________ is plotted against __________, giving a straight line whose slope is equal to __________.

A)k; T; −E a
B)k; 1/T; −E a
C)lnk; T; −E a/R
D)k; 1/T; −E a/R
E)lnk; 1/T; −E a/R
Question
The reaction of ethylene (C2H4) with butadiene (C4H6) to form cyclohexene (C6H10) has an activation energy (Ea) of 115 kJ/mol. The reverse reaction (decomposition of cyclohexene to ethylene and butadiene) has an activation energy of 287 kJ/mol. What is the heat of reaction, Δ Hrxn, for the forward reaction?

A)+115 kJ/mol
B)+287 kJ/mol
C)−287 kJ/mol
D)+172 kJ/mol
E)−172 kJ/mol
Question
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.
Question
A catalyst accelerates a reaction because

A)it increases the number of molecules with energy equal to or greater than the activation energy.
B)it lowers the activation energy for the reaction.
C)it increases the number of collisions between molecules.
D)it increases the temperature of the molecules in the reaction.
E)it supplies energy to reactant molecules.
Question
A reaction has an activation energy of 195.0 kJ/mol. When the temperature is increased from 200°C to 220°C, the rate constant will increase by a factor of

A)1.1.
B)4.3 × 10 4.
C)3.2.
D)7.5.
E)None of these choices are correct.
Question
Consider the following mechanism for the oxidation of bromide ions by hydrogen peroxide in aqueous acid solution. H+ + H2O2 ⇄ H2O+−OH (rapid equilibrium)H2O+−OH + Br → HOBr + H2O (slow)HOBr + H+ + Br → Br2 + H2O (fast)
What is the overall reaction equation for this process?

A)2H 2O +−OH + 2Br → H 2O 2 + Br 2 + 2H 2O
B)2H + + 2Br + H 2O 2 → Br 2 + 2H 2O
C)2H + + H 2O 2 + Br + HOBr → H 2O +−OH + Br 2 + H 2O
D)H 2O +−OH + Br + H + → Br 2 + H 2O
E)None of these choices are correct.
Question
Which of the following affects the activation energy of a reaction?

A)Temperature of the reactants
B)Concentrations of reactants
C)Presence of a catalyst
D)Surface area of reactants
E)Reaction progress
Question
The gas-phase reaction CH3NC → CH3CN has been studied in a closed vessel, and the rate equation was found to be: Rate = −Δ[CH3NC]/Δt = k[CH3NC]. Which one of the following actions is least likely to cause a change in the rate of the reaction?

A)Lowering the temperature
B)Adding a catalyst
C)Using a larger initial amount of CH 3NC in the same vessel
D)Using a bigger vessel, but the same initial amount of CH 3NC
E)Continuously removing CH 3CN as it is formed
Question
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.
Question
Consider the following mechanism for the oxidation of bromide ions by hydrogen peroxide in aqueous acid solution. H+ + H2O2 ⇄ H2O+−OH (rapid equilibrium)H2O+−OH + Br → HOBr + H2O (slow)HOBr + H+ + Br → Br2 + H2O (fast)
Which of the following rate laws is consistent with the mechanism?

A)Rate = k[H 2O 2][H +] 2[Br ]
B)Rate = k[H 2O +−OH][Br ]
C)Rate = k[H 2O 2][H +][Br ]
D)Rate = k[HOBr][H +][Br ][H 2O 2]
E)Rate = k[Br ]
Question
A rate constant obeys the Arrhenius equation, the factor A being 2.2 ×1013 s1 and the activation energy being 150. kJ mol1. What is the value of the rate constant at 227°C, in s1?

A)2.1 × 10 13 s 1
B)6.7 × 10 22 s 1
C)1.5 × 10 11 s 1
D)4.7 × 10 3 s 1
E)None of these choices are correct.
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Deck 16: Kinetics: Rates and Mechanisms of Chemical Reactions
1
A transition state is a species (or state) corresponding to an energy maximum on a reaction energy diagram.
True
2
An elementary reaction is a simple, one-step process.
True
3
All bimolecular reactions are second-order reactions.
True
4
All second-order reactions are bimolecular reactions.
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5
The half-life of a first-order reaction does not depend on the initial concentration of reactant.
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6
A reaction intermediate is a species corresponding to a local energy maximum on a reaction energy diagram.
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7
Chlorine atoms act as heterogeneous catalysts in the destruction of ozone in the stratosphere.
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8
The greater the energy of activation, Ea, the faster will be the reaction.
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9
Consider the following reaction 8A(g) + 5B(g) → 8C(g) + 6D(g)
If [C] is increasing at the rate of 4.0 mol L1s1, at what rate is [B] changing?

A)−0.40 mol L 1s 1
B)−2.5 mol L 1s 1
C)−4.0 mol L 1s 1
D)−6.4 mol L 1s 1
E)None of these choices are correct.
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10
The half-life of a second-order reaction does not depend on the initial concentration of reactant.
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11
In the lock and key model of enzyme action, the active site on the enzyme provides an exact fit for the substrate.
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12
Consider the reaction 2NH3(g) → N2(g) + 3H2(g)
If the rate Δ[H2]/Δt is 0.030 mol L1s1, then Δ[NH3 ]/Δt is

A)−0.045 mol L 1 s 1
B)−0.030 mol L 1 s 1
C)−0.020 mol L 1 s 1
D)−0.010 mol L 1 s 1
E)None of these choices are correct.
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13
Consider the general reaction 5Br(aq) + BrO3(aq) + 6H+(aq) → 3Br2(aq) + 3H2O(aq)
For this reaction, the rate when expressed as Δ[Br2]/Δt is the same as

A)−Δ[H 2O]/Δt
B)3Δ[BrO 3 ]/Δt
C)−5Δ[Br ]/Δt
D)−0.6Δ[Br ]/Δt
E)None of these choices are correct.
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14
The units of the rate constant depend on the order of the reaction.
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15
A catalyst lowers the activation energy but does not affect the mechanism of a reaction.
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16
The compound RX3 decomposes according to the equation 3RX3 → R + R2X3 + 3X2
In an experiment the following data were collected for the decomposition at 100°C. What is the average rate at which RX3 is disappearing over the entire experiment?
<strong>The compound RX<sub>3</sub> decomposes according to the equation 3RX<sub>3</sub> → R + R<sub>2</sub>X<sub>3 </sub>+ 3X<sub>2</sub> In an experiment the following data were collected for the decomposition at 100°C. What is the average rate at which RX<sub>3</sub> is disappearing over the entire experiment? </strong> A)0.011 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> B)0.019 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> C)0.044 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> D)0.049 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> E)0.069 mol L <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup>

A)0.011 mol L 1s 1
B)0.019 mol L 1s 1
C)0.044 mol L 1s 1
D)0.049 mol L 1s 1
E)0.069 mol L 1s 1
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17
The rate of a reaction is determined by the rate of the fastest step in the mechanism.
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18
In a reversible reaction, a catalyst will speed up the forward reaction but not affect the reverse reaction.
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19
The units of the rate of reaction depend on the order of the reaction.
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20
The rate law cannot be predicted from the stoichiometry of a reaction.
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21
Sucrose decomposes to fructose and glucose in acid solution. When ln [sucrose] is plotted vs. time, a straight line with slope of −0.208 hr1 results. What is the rate law for the reaction?

A)Rate = 0.208 hr 1 [sucrose] 2
B)Rate = 0.208 hr 1 [sucrose]
C)Rate = 0.0433 hr [sucrose] 2
D)Rate = 0.0433 hr [sucrose]
E)Rate = 0.208 mol L 1hr 1 [sucrose] 0
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22
Sulfur trioxide can undergo decomposition according to the equation 2SO3 → 2SO2 + O2
For this reaction, rate = −0.5Δ[SO3 ]/Δt = k[SO3]2. If the reaction rate is 1.75 × 107 mol L1 min1 when the concentration of sulfur trioxide is 5.4 × 103 mol L1, what is the value of the rate constant k?

A)3.2 × 10 5 L mol 1 min 1
B)1.6 × 10 5 L mol 1 min 1
C)6.0 × 10 3 L mol 1 min 1
D)3.0 × 10 3 L mol 1 min 1
E)1.6 × 10 2 L mol 1 min 1
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23
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 × 105s1. What is the order of the reaction?

A)Zero
B)First
C)Second
D)Third
E)More information is needed to determine the order.
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24
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.
<strong>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. </strong> A)Rate = k[A] [B] B)Rate = k[A] <sup>2 </sup>[B] C)Rate = k[A] [B] <sup>2</sup> D)Rate = k[A] E)Rate = k[A] <sup>3</sup>

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
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25
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.
<strong>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. </strong> A)Rate = k[A] [B] B)Rate = k[A] <sup>2 </sup>[B] C)Rate = k[A] [B] <sup>2</sup> D)Rate = k[A] E)Rate = k[A] <sup>3</sup>

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
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26
A study of the decomposition reaction 3RS2 → 3R + 6S yields the following initial rate data. <strong>A study of the decomposition reaction 3RS<sub>2 </sub>→ 3R + 6S yields the following initial rate data. What is the rate constant for the reaction?</strong> A)0.0103 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> B)0.263 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> C)0.571 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> D)1.17 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> E)1.75 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> 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
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27
A reaction has the following rate law: Rate = k[A][B]2
In experiment 1, the concentrations of A and B are both 0.10 mol L1; in experiment 2, the concentrations are both 0.30 mol L1. If the temperature stays constant, what is the value of the ratio, Rate(2)/Rate(1)?

A)3.0
B)6.0
C)9.0
D)18
E)27
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28
Which of the following sets of units could be appropriate for a zero-order rate constant?

A)s 1
B)L mol 1s 1
C)L 2 mol 2s 1
D)L 3 mol 3s 1
E)mol L 1s 1
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29
Ammonium cyanate (NH4CNO) reacts to form urea (NH2CONH2). At 65°C the rate constant, k, is 3.60 L mol1s1. What is the rate law for this reaction?

A)Rate = 3.60 L mol 1s 1[NH 4CNO]
B)Rate = 3.60 L mol 1s 1[NH 4CNO] 2
C)Rate = 0.28 mol L 1 s 1[NH 4CNO]
D)Rate = 0.28 mol L 1 s 1[NH 4CNO] 2
E)Rate = 3.60 L mol 1s 1[NH 2CONH 2] 1
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30
Tetrafluoroethylene, C2F4, can be converted to octafluorocyclobutane which can be used as a refrigerant or an aerosol propellant. A plot of 1/[C2F4] vs. time gives a straight line with a slope of 0.0448 L mol1s1. What is the rate law for this reaction?

A)Rate = 0.0448 (L mol 1s 1)[C 2F 4]
B)Rate = 22.3 (mol L 1s)[C 2F 4]
C)Rate = 0.0448 (L mol 1s 1)[C 2F 4] 2
D)Rate = 22.3 (mol L 1s)[C 2F 4] 2
E)Rate = 0.0448 s 1 [C 2F 4]
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31
A reaction is second-order with respect to the reactant R. Which of the following plots will produce a straight line?

A)[R] vs. 1/time
B)1/[R] vs. time
C)[R] 2 vs. time
D)1/[R] 2 vs. time
E)ln[R] vs. time
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32
When the reaction A → B + C is studied, a plot of ln[A]t vs. time gives a straight line with a negative slope. What is the order of the reaction?

A)Zero
B)First
C)Second
D)Third
E)More information is needed to determine the order.
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33
Which one of the following sets of units is appropriate for a third-order rate constant?

A)s 1
B)mol L 1s 1
C)L mol 1s 1
D)L 2 mol 2s 1
E)L 3 mol 3s 1
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34
When the reaction A → B + C is studied, a plot 1/[A]t vs. time gives a straight line with a positive slope. What is the order of the reaction?

A)Zero
B)First
C)Second
D)Third
E)More information is needed to determine the order.
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35
Which one of the following sets of units is appropriate for a second-order rate constant?

A)s 1
B)mol L 1s 1
C)L mol 1s 1
D)mol 2 L 2s 1
E)L 2 mol 2s 1
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36
For the reaction 3A(g) + 2B(g) → 2C(g) + 2D(g)
The following data were collected at constant temperature. Determine the correct rate law for this reaction.
<strong>For the reaction 3A(g) + 2B(g) → 2C(g) + 2D(g) The following data were collected at constant temperature. Determine the correct rate law for this reaction. </strong> A)Rate = k[A][B] B)Rate = k[A][B] <sup>2</sup> C)Rate = k[A] <sup>3</sup>[B] <sup>2</sup> D)Rate = k[A] <sup>1.5</sup>[B] E)Rate = k[A] <sup>2</sup>[B]

A)Rate = k[A][B]
B)Rate = k[A][B] 2
C)Rate = k[A] 3[B] 2
D)Rate = k[A] 1.5[B]
E)Rate = k[A] 2[B]
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37
2NOBr(g) → 2NO(g) + Br2(g) <strong>2NOBr(g) → 2NO(g) + Br<sub>2</sub>(g) Based on the initial rate data above, what is the value of the rate constant?</strong> A)0.0360 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> B)0.800 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> C)1.25 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> D)27.8 L mol <sup>−</sup><sup>1</sup>s <sup>−</sup><sup>1</sup> E)0.0360 s <sup>−</sup><sup>1</sup> Based on the initial rate data above, what is the value of the rate constant?

A)0.0360 L mol 1s 1
B)0.800 L mol 1s 1
C)1.25 L mol 1s 1
D)27.8 L mol 1s 1
E)0.0360 s 1
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38
The reaction X → Y is first-order overall and first-order with respect to the reactant X. The result of doubling the initial concentration of X will be to

A)shorten the half-life of the reaction.
B)increase the rate constant of the reaction.
C)decrease the rate constant of the reaction.
D)shorten the time taken to reach equilibrium.
E)double the initial rate.
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39
For the reaction 2A + B + 2C → D + E
The following initial rate data were collected at constant temperature. Determine the correct rate law for this reaction. All units are arbitrary.
<strong>For the reaction 2A + B + 2C → D + E The following initial rate data were collected at constant temperature. Determine the correct rate law for this reaction. All units are arbitrary. </strong> A)Rate = k[A][B][C] B)Rate = k[A] <sup>2</sup>[B][C] C)Rate = k[A] <sup>2</sup>[B][C] <sup>−</sup><sup>1</sup> D)Rate = k[A][B] <sup>2</sup>[C] <sup> </sup><sup>−</sup><sup>1</sup> E)None of these choices are correct.

A)Rate = k[A][B][C]
B)Rate = k[A] 2[B][C]
C)Rate = k[A] 2[B][C] 1
D)Rate = k[A][B] 2[C] 1
E)None of these choices are correct.
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40
A reaction is first-order with respect to the reactant R. Which of the following plots will produce a straight line?

A)[R] vs. 1/time
B)1/[R] vs. time
C)[R] 2 vs. time
D)1/[R] 2 vs. time
E)ln[R] vs. time
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41
The reaction CH3NC(g) → CH3CN(g) is first-order with respect to methyl isocyanide, CH3NC. If it takes 10.3 minutes for exactly one quarter of the initial amount of methyl isocyanide to react, what is the rate constant in units of min1?

A)−0.135 min 1
B)0.0279 min 1
C)0.089 min 1
D)0.135 min 1
E)35.8 min 1
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42
A first-order reaction has a half-life of 20.0 minutes. Starting with 1.00 × 1020 molecules of reactant at time t = 0, how many molecules remain unreacted after 100.0 minutes?

A)1.00 × 10 4 molecules
B)2.00 × 10 19 molecules
C)3.20 × 10 16 molecules
D)5.00 × 10 20 molecules
E)None of these choices are correct.
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43
Dinitrogen tetraoxide, N2O4, decomposes to nitrogen dioxide, NO2, in a first-order process. If k = 2.5 × 103 s1 at −5°C and k = 3.5 × 104 s1 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
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44
The radioactive isotope tritium decays with a first-order rate constant k of 0.056 year1. What fraction of the tritium initially in a sample is still present 30 years later?

A)0.19
B)0.60
C)0.15
D)2.8 × 10 38
E)None of these choices are correct.
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45
The rate constant for the reaction 3A → 4B is 6.00 × 103 L mol1min1. 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 × 10 2 min
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46
If the activation energy of a reaction decreases by 10.0 kJ/mol, from 100.0 to 90.0 kJ/mol, what effect will this have on the rate of reaction at 298K?

A)The rate will increase, by a factor of more than 50.
B)The rate will decrease, by a factor of more than 50.
C)The rate will increase, by a factor of less than 50.
D)The rate will decrease, by a factor of less than 50.
E)The rate will not change unless temperature changes.
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47
Cyclopropane is converted to propene in a first-order process. The rate constant is 5.4 × 102 hr1. If the initial concentration of cyclopropane is 0.150 M, what will its concentration be after 22.0 hours?

A)0.0457 M
B)0.105 M
C)0.127 M
D)0.492 M
E)None of these choices are correct.
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48
The decomposition of hydrogen peroxide is a first-order process with a rate constant of 1.06 × 103 min1. 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
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49
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 years1?

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 × 10 3 years 1
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50
The active ingredient in an over the counter pain killer analgesic decomposes with a rate constant, k = 9.05 × 104 day1. How many days does it take for 15% of the original ingredient to decompose?

A)730 days
B)414 days
C)365 days
D)180 days
E)78 days
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51
A gas-phase decomposition is first-order with respect to the reactant, R. If the initial concentration of R is 1.0 × 104 mol L1and the rate constant k = 1.08 × 106 s1, what concentration of R remains after 25 days?

A)1.0 × 10 3 mol L 1
B)1.0 × 10 4 mol L 1
C)9.6 × 10 5 mol L 1
D)4.3 × 10 5 mol L 1
E)9.7 × 10 6 mol L 1
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52
Ammonia will react with oxygen in the presence of a copper catalyst to form nitrogen and water. From 164.5°C to 179.0°C, the rate constant increases by a factor of 4.27. What is the activation energy of this oxidation reaction?

A)24.5 kJ/mol
B)165 kJ/mol
C)242 kJ/mol
D)1630 kJ/mol
E)> 10 4 kJ/mol
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53
The rate law for the reaction 3A → C is Rate = 4.36 × 102 L mol1 hr1 [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
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54
The rate law for the rearrangement of CH3NC to CH3CN at 800 K is Rate = (1300 s1)[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
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55
The rate law for the reaction 3A → 2B is rate = k[A] with a rate constant of 0.0447 hr1. 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
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56
The decomposition of SOCl2 is first-order in SOCl2. If the half-life for the reaction is 4.1 hr, how long would it take for the concentration of SOCl2 to drop from 0.36 M to 0.045 M?

A)0.52 hr
B)1.4 hr
C)12 hr
D)33 hr
E)> 40 hr
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57
A reactant R is being consumed in a first-order reaction. What fraction of the initial R is consumed in 4.0 half-lives?

A)0.94
B)0.87
C)0.75
D)0.13
E)0.063
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58
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
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59
In going from room temperature (25.0°C) to 10°C above room temperature, the rate of a reaction doubles. Calculate the activation energy for the reaction.

A)157.2 kJ/mol
B)103.8 kJ/mol
C)52.9 kJ/mol
D)6.4 kJ/mol
E)<1 kJ/mol
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60
Butadiene, C4H6 (used to make synthetic rubber and latex paints) reacts to C8H12 with a rate law of rate = 0.014 L/(mol·s) [C4H6]2. What will be the concentration of C4H6 after 3.0 hours if the initial concentration is 0.025 M?

A)0.0052 M
B)0.024 M
C)43 M
D)190 M
E)0.0000 M
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61
The decomposition of dinitrogen pentaoxide to nitrogen dioxide and oxygen follows first-order kinetics and has an activation energy of 102 kJ/mol. By what factor will the fraction of collisions with energy greater than or equal to the activation energy increase if the reaction temperature goes from 30°C to 60°C?

A)1.00
B)1.10
C)2.00
D)4.00
E)38.4
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62
The decomposition of dinitrogen pentaoxide has an activation energy of 102 kJ/mol and ΔH°rxn = + 55 kJ/mol. What is the activation energy for the reverse reaction?

A)27 kJ/mol
B)47 kJ/mol
C)55 kJ/mol
D)102 kJ/mol
E)More information is needed, since this is a Hess's law calculation.
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63
Consider the reaction 2A + 2B + C → 2D + E
If the rate law for this reaction is Rate = k[A][B]2, what will be the effect on the rate if the concentrations of A, B and C are all doubled at the same time?

A)The rate will increase by a factor of 2.
B)The rate will increase by a factor of 4.
C)The rate will increase by a factor of 6.
D)The rate will increase by a factor of 8.
E)More information is needed before this question can be answered.
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64
The kinetics of the decomposition of dinitrogen pentaoxide is studied at 50°C and at 75°C. Which of the following statements concerning the studies is correct?

A)The rate at 75°C will be greater than the rate at 50°C because the activation energy will be lower at 75°C than at 50°C.
B)The rate at 75°C will be greater than the rate at 50°C because the activation energy will be higher at 75°C than at 50°C.
C)The rate at 75°C will be less than the rate at 50°C because the molecules at higher speeds do not interact as well as those at lower speeds.
D)The rate at 75°C will be greater than at 50°C because the concentration of a gas increases with increasing temperature.
E)The rate at 75°C will be greater than the rate at 50°C because the number of molecules with enough energy to react increases with increasing temperature.
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65
When a catalyst is added to a reaction mixture, it

A)increases the rate of collisions between reactant molecules.
B)provides reactant molecules with more energy.
C)slows down the rate of the back reaction.
D)provides a new pathway (mechanism)for the reaction.
E)None of these choices are correct.
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66
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.
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67
What is the molecularity of the following elementary reaction? NH2Cl(aq) + OH (aq) → NHCl (aq) + H2O(l)

A)Unimolecular
B)Bimolecular
C)Termolecular
D)Tetramolecular
E)Need to know the reaction order before molecularity can be determined.
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68
In order to obtain the activation energy of a reaction using a graphical method, __________ is plotted against __________, giving a straight line whose slope is equal to __________.

A)k; T; −E a
B)k; 1/T; −E a
C)lnk; T; −E a/R
D)k; 1/T; −E a/R
E)lnk; 1/T; −E a/R
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69
The reaction of ethylene (C2H4) with butadiene (C4H6) to form cyclohexene (C6H10) has an activation energy (Ea) of 115 kJ/mol. The reverse reaction (decomposition of cyclohexene to ethylene and butadiene) has an activation energy of 287 kJ/mol. What is the heat of reaction, Δ Hrxn, for the forward reaction?

A)+115 kJ/mol
B)+287 kJ/mol
C)−287 kJ/mol
D)+172 kJ/mol
E)−172 kJ/mol
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70
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.
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71
A catalyst accelerates a reaction because

A)it increases the number of molecules with energy equal to or greater than the activation energy.
B)it lowers the activation energy for the reaction.
C)it increases the number of collisions between molecules.
D)it increases the temperature of the molecules in the reaction.
E)it supplies energy to reactant molecules.
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72
A reaction has an activation energy of 195.0 kJ/mol. When the temperature is increased from 200°C to 220°C, the rate constant will increase by a factor of

A)1.1.
B)4.3 × 10 4.
C)3.2.
D)7.5.
E)None of these choices are correct.
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73
Consider the following mechanism for the oxidation of bromide ions by hydrogen peroxide in aqueous acid solution. H+ + H2O2 ⇄ H2O+−OH (rapid equilibrium)H2O+−OH + Br → HOBr + H2O (slow)HOBr + H+ + Br → Br2 + H2O (fast)
What is the overall reaction equation for this process?

A)2H 2O +−OH + 2Br → H 2O 2 + Br 2 + 2H 2O
B)2H + + 2Br + H 2O 2 → Br 2 + 2H 2O
C)2H + + H 2O 2 + Br + HOBr → H 2O +−OH + Br 2 + H 2O
D)H 2O +−OH + Br + H + → Br 2 + H 2O
E)None of these choices are correct.
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74
Which of the following affects the activation energy of a reaction?

A)Temperature of the reactants
B)Concentrations of reactants
C)Presence of a catalyst
D)Surface area of reactants
E)Reaction progress
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75
The gas-phase reaction CH3NC → CH3CN has been studied in a closed vessel, and the rate equation was found to be: Rate = −Δ[CH3NC]/Δt = k[CH3NC]. Which one of the following actions is least likely to cause a change in the rate of the reaction?

A)Lowering the temperature
B)Adding a catalyst
C)Using a larger initial amount of CH 3NC in the same vessel
D)Using a bigger vessel, but the same initial amount of CH 3NC
E)Continuously removing CH 3CN as it is formed
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76
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.
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77
Consider the following mechanism for the oxidation of bromide ions by hydrogen peroxide in aqueous acid solution. H+ + H2O2 ⇄ H2O+−OH (rapid equilibrium)H2O+−OH + Br → HOBr + H2O (slow)HOBr + H+ + Br → Br2 + H2O (fast)
Which of the following rate laws is consistent with the mechanism?

A)Rate = k[H 2O 2][H +] 2[Br ]
B)Rate = k[H 2O +−OH][Br ]
C)Rate = k[H 2O 2][H +][Br ]
D)Rate = k[HOBr][H +][Br ][H 2O 2]
E)Rate = k[Br ]
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78
A rate constant obeys the Arrhenius equation, the factor A being 2.2 ×1013 s1 and the activation energy being 150. kJ mol1. What is the value of the rate constant at 227°C, in s1?

A)2.1 × 10 13 s 1
B)6.7 × 10 22 s 1
C)1.5 × 10 11 s 1
D)4.7 × 10 3 s 1
E)None of these choices are correct.
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