Determine the Activation Energy for the reaction in both Joules per mole and Kilojoules per mole *Determine the frequency factor (A) for the reaction *Determine the rate constant at 10.0ºC, *Determine the rate constant at 30.0ºC. *If you start the reaction with [C2H5Br] = 0.155M and [OH-] = 0.250M what is the initial rate of the reaction at 10.0ºC and at 30.0ºC.
Determine the Activation Energy for the reaction in both Joules per mole and Kilojoules per mole *Determine the frequency factor (A) for the reaction *Determine the rate constant at 10.0ºC, *Determine the rate constant at 30.0ºC. *If you start the reaction with [C2H5Br] = 0.155M and [OH-] = 0.250M what is the initial rate of the reaction at 10.0ºC and at 30.0ºC.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter11: Chemical Kinetics: Rates Of Reactions
Section11.7: Reaction Mechanisms
Problem 11.12E
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Question
*Determine the Activation Energy for the reaction in both Joules per mole and Kilojoules per mole
*Determine the frequency factor (A) for the reaction
*Determine the rate constant at 10.0ºC, *Determine the rate constant at 30.0ºC.
*If you start the reaction with [C2H5Br] = 0.155M and [OH-] = 0.250M what is the initial
![Organic Chemistry is replete with reactions that
are first order in two reactants, second order
overall. One such reaction is shown below:
C2H5Br(aq) + OH (aq)
whose rate law is Rate = k[C2H5B1]'[OH¯]'
→ C2H5OH(aq)
+ Br (aq)
The temperature and rate constant data for this
reaction is given in the table below. Based on that
data: Determine the Activation Energy for the
reaction in both Joules per mole and Kilojoules per
mole, Determine the frequency factor (A) for the
reaction, Determine the rate constant at 10.0°C,
Determine the rate constant at 30.0°C. If you start
the reaction with [C2H5B1] = 0.155M and [OH¯] =
0.250M what is the initial rate of the reaction at
10.0°C and at 30.0°C.
Rate
Temperature
(°C)
Constant,
k (M-'s)
25.0
0.0000881
35.0
0.000285
45.0
0.000854
55.0
0.00239
65.0
0.00633](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3985ca39-7e0d-49a8-a07a-039cb9f3706f%2Ff61347b7-74d8-48ba-b360-58a316fd290b%2Fe7wr79p_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Organic Chemistry is replete with reactions that
are first order in two reactants, second order
overall. One such reaction is shown below:
C2H5Br(aq) + OH (aq)
whose rate law is Rate = k[C2H5B1]'[OH¯]'
→ C2H5OH(aq)
+ Br (aq)
The temperature and rate constant data for this
reaction is given in the table below. Based on that
data: Determine the Activation Energy for the
reaction in both Joules per mole and Kilojoules per
mole, Determine the frequency factor (A) for the
reaction, Determine the rate constant at 10.0°C,
Determine the rate constant at 30.0°C. If you start
the reaction with [C2H5B1] = 0.155M and [OH¯] =
0.250M what is the initial rate of the reaction at
10.0°C and at 30.0°C.
Rate
Temperature
(°C)
Constant,
k (M-'s)
25.0
0.0000881
35.0
0.000285
45.0
0.000854
55.0
0.00239
65.0
0.00633
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