1. The data below show the concentration of N₂O5 versus time for the following reaction: N₂O5(9) → NO3(9) + NO₂(g) Time (s) [N₂O5], M 0 1.000 25 0.822 50 75 100 125 150 175 200 0.677 0.557 0.458 0.377 0.310 0.255 0.210 a. Determine the order of the reaction by constructing zeroth-, first-, and second-order plots. b. Determine the value of the rate constant. C. Predict the concentration of N₂O5 at 250 s.
1. The data below show the concentration of N₂O5 versus time for the following reaction: N₂O5(9) → NO3(9) + NO₂(g) Time (s) [N₂O5], M 0 1.000 25 0.822 50 75 100 125 150 175 200 0.677 0.557 0.458 0.377 0.310 0.255 0.210 a. Determine the order of the reaction by constructing zeroth-, first-, and second-order plots. b. Determine the value of the rate constant. C. Predict the concentration of N₂O5 at 250 s.
Chemistry by OpenStax (2015-05-04)
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Chapter12: Kinetics
Section: Chapter Questions
Problem 25E: Nitrogen monoxide reacts with chlorine according to the equation: 2NOCI(g)2NOCI(g) The following...
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Hello please someone help me with this chemistry problem
![1. The data below show the concentration of N₂O5 versus time for the following reaction:
N₂O5(9) → NO3(9) + NO₂(g)
Time (s)
[N₂O5], M
0
1.000
25
0.822
50
75
100
125
150
175
200
0.677
0.557
0.458
0.377
0.310
0.255
0.210
a. Determine the order of the reaction by constructing zeroth-, first-, and second-order plots.
b. Determine the value of the rate constant.
C. Predict the concentration of N₂O5 at 250 s.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1c6ca1ad-ca89-4b04-801a-8f57fb8c7bca%2F51964d96-0672-436f-9834-8403fe6d19c8%2Fkq3k37_processed.png&w=3840&q=75)
Transcribed Image Text:1. The data below show the concentration of N₂O5 versus time for the following reaction:
N₂O5(9) → NO3(9) + NO₂(g)
Time (s)
[N₂O5], M
0
1.000
25
0.822
50
75
100
125
150
175
200
0.677
0.557
0.458
0.377
0.310
0.255
0.210
a. Determine the order of the reaction by constructing zeroth-, first-, and second-order plots.
b. Determine the value of the rate constant.
C. Predict the concentration of N₂O5 at 250 s.
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