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Science Chemistry Chemistry (AP Edition)

Consider the following reaction: CH 3 X + Y → CH 3 Y + X At 25°C, the following two experiments were run, yielding the following data: Experiment 1: [Y] 0 = 3.0 M [CH 3 X] (mol/L) Time(h) 7.08 × 10 −3 1.0 4.52 × 10 −3 1.5 2.23 × 10 −3 2.3 4.76 × 10 −4 4.0 8.44 × l0 −5 5.7 2.75 × l0 −5 7.0 Experiment 2: [Y] 0 = 4.5 M [CH 3 X] (mol/L) Time(h) 4.50 × 10 −3 0 1.70 × 10 −3 1.0 4.19 × 10 −4 2.5 1.11 × 10 −4 4.0 2.81 × l0 −5 5.5 Experiments also were run at 85°C. The value of the rate constant at 85°C was found to be 7.88 × 10 8 (with the time in units of hours), where [CH 3 X] 0 = 1.0 × 10 −2 M and [Y] 0 = 3.0 M. a. Determine the rate law and the value of k for this reaction at 25°C. b. Determine the half-life at 85°C. c. Determine E a for the reaction. d. Given that the C8X bond energy is known to be about 325 kJ/mol, suggest a mechanism that explains the results in parts a and c.

Consider the following reaction: CH 3 X + Y → CH 3 Y + X At 25°C, the following two experiments were run, yielding the following data: Experiment 1: [Y] 0 = 3.0 M [CH 3 X] (mol/L) Time(h) 7.08 × 10 −3 1.0 4.52 × 10 −3 1.5 2.23 × 10 −3 2.3 4.76 × 10 −4 4.0 8.44 × l0 −5 5.7 2.75 × l0 −5 7.0 Experiment 2: [Y] 0 = 4.5 M [CH 3 X] (mol/L) Time(h) 4.50 × 10 −3 0 1.70 × 10 −3 1.0 4.19 × 10 −4 2.5 1.11 × 10 −4 4.0 2.81 × l0 −5 5.5 Experiments also were run at 85°C. The value of the rate constant at 85°C was found to be 7.88 × 10 8 (with the time in units of hours), where [CH 3 X] 0 = 1.0 × 10 −2 M and [Y] 0 = 3.0 M. a. Determine the rate law and the value of k for this reaction at 25°C. b. Determine the half-life at 85°C. c. Determine E a for the reaction. d. Given that the C8X bond energy is known to be about 325 kJ/mol, suggest a mechanism that explains the results in parts a and c.

Solution Summary: The author explains that the rate law for the given reaction is to be determined by the use of the concentration verses time data.

Chemistry (AP Edition)

Chemistry (AP Edition)

9th Edition

ISBN: 9781133611103

Author: Steven S. Zumdahl, Susan A. Zumdahl

Publisher: Brooks Cole

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Textbook Question

Chapter 12, Problem 116MP

Consider the following reaction:

CH 3 X + Y → CH 3 Y + X

At 25°C, the following two experiments were run, yielding the following data:

Experiment 1: [Y]₀ = 3.0 M

[CH₃X] (mol/L)	Time(h)
7.08 × 10⁻³	1.0
4.52 × 10⁻³	1.5
2.23 × 10⁻³	2.3
4.76 × 10⁻⁴	4.0
8.44 × l0⁻⁵	5.7
2.75 × l0⁻⁵	7.0

Experiment 2: [Y]₀ = 4.5 M

[CH₃X] (mol/L)	Time(h)
4.50 × 10⁻³	0
1.70 × 10⁻³	1.0
4.19 × 10⁻⁴	2.5
1.11 × 10⁻⁴	4.0
2.81 × l0⁻⁵	5.5

Experiments also were run at 85°C. The value of the rate constant at 85°C was found to be 7.88 × 10⁸ (with the time in units of hours), where [CH₃X]₀ = 1.0 × 10⁻² M and [Y]₀ = 3.0 M.

a. Determine the rate law and the value of k for this reaction at 25°C.

b. Determine the half-life at 85°C.

c. Determine E_a for the reaction.

d. Given that the C8X bond energy is known to be about 325 kJ/mol, suggest a mechanism that explains the results in parts a and c.

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Chapter 12, Problem 115IP

Chapter 13, Problem 1RQ

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Chapter 12 Solutions

Chemistry (AP Edition)

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