The tabulated data shown here were collected for the following first-order reaction: AB(g)→A(g)+A(g) AB(g)→A(g)+A(g) Temperature (K)(K) Rate constant (1/s)(1/s) 800 7.00×10−57.00×10−5 900 0.00316 1000 0.0664 1100 0.804 Part A Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer in kilojoules per mole to three significant figures. Part B Use an Arrhenius plot to determine the frequency factor for the reaction. Express your answer in reciprocal seconds to three significant figures.
The tabulated data shown here were collected for the following first-order reaction: AB(g)→A(g)+A(g) AB(g)→A(g)+A(g) Temperature (K)(K) Rate constant (1/s)(1/s) 800 7.00×10−57.00×10−5 900 0.00316 1000 0.0664 1100 0.804 Part A Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer in kilojoules per mole to three significant figures. Part B Use an Arrhenius plot to determine the frequency factor for the reaction. Express your answer in reciprocal seconds to three significant figures.
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
Section: Chapter Questions
Problem 39QRT
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The tabulated data shown here were collected for the following first-order reaction: AB(g)→A(g)+A(g) AB(g)→A(g)+A(g)
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Part AUse an Arrhenius plot to determine the activation barrier for the reaction.
Express your answer in kilojoules per mole to three significant figures.
Part BUse an Arrhenius plot to determine the frequency factor for the reaction.
Express your answer in reciprocal seconds to three significant figures.
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Expert Solution
Step 1
Arrhenius equation: An equation which gives relationship between rate constant of a reaction, its frequency factor, activation energy and temperature. It is widely use to find the change in rate of reaction with temperature change.
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