The data shown below were collected for the following first-order reaction: N2O(g)→N2(g)+O(g)N2O(�)→N2(�)+O(�) Temperature (K)(K) Rate Constant (s−1)(s−1) 800800 3.24×10−53.24×10−5 900900 0.002140.00214 10001000 0.06140.0614 11001100 0.9550.955 Use an Arrhenius plot to determine the activation barrier for the reaction. Use an Arrhenius plot to determine frequency factor for the reaction.
The data shown below were collected for the following first-order reaction: N2O(g)→N2(g)+O(g)N2O(�)→N2(�)+O(�) Temperature (K)(K) Rate Constant (s−1)(s−1) 800800 3.24×10−53.24×10−5 900900 0.002140.00214 10001000 0.06140.0614 11001100 0.9550.955 Use an Arrhenius plot to determine the activation barrier for the reaction. Use an Arrhenius plot to determine frequency factor for the reaction.
Chemistry: Matter and Change
1st Edition
ISBN:9780078746376
Author:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom
Publisher:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom
Chapter16: Reaction Rates
Section: Chapter Questions
Problem 70A
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The data shown below were collected for the following first-order reaction:
N2O(g)→N2(g)+O(g)N2O(�)→N2(�)+O(�)
Temperature (K)(K) | Rate Constant (s−1)(s−1) |
800800 | 3.24×10−53.24×10−5 |
900900 | 0.002140.00214 |
10001000 | 0.06140.0614 |
11001100 |
0.9550.955 |
Use an Arrhenius plot to determine the activation barrier for the reaction.
Use an Arrhenius plot to determine frequency factor for the reaction.
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