Consider the reaction: A → B. Use the below data to determine the first half-life for experiment 1. Please answer in seconds. Initial Rate [M/s] 0.0025 Experiment 4,000 1 2 Incorrect. [A] 0.1 M 0.2 M 0.01 When we double the concentration of A, the rate quadruples. This means that this reaction is second order. Make sure you are using the correct half-life equation! *Check to make sure you are using the data from Experiment #1.

Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Consider the reaction: A → B.
Use the below data to determine the first half-life for experiment 1. Please answer in seconds.
[A]
Experiment
4,000
1
2
Incorrect.
0.1 M
0.2 M
Initial Rate [M/S]
0.0025
0.01
When we double the concentration of A, the rate quadruples. This means that this reaction is second order. Make sure you are using
the correct half-life equation!
*Check to make sure you are using the data from Experiment #1.
Transcribed Image Text:Consider the reaction: A → B. Use the below data to determine the first half-life for experiment 1. Please answer in seconds. [A] Experiment 4,000 1 2 Incorrect. 0.1 M 0.2 M Initial Rate [M/S] 0.0025 0.01 When we double the concentration of A, the rate quadruples. This means that this reaction is second order. Make sure you are using the correct half-life equation! *Check to make sure you are using the data from Experiment #1.
Consider the reaction: A → B.
Use the below data to determine the first half-life for experiment 2. Please answer in seconds.
Experiment
1
500
2
[A]
0.1 M
0.2 M
Initial Rate [M/S]
0.0025
0.01
Incorrect. In the last problem, we learned that the reaction is second order and k = 0.25 M-¹ s²¹.
Now we can use the second order half-life equation to solve for the first half-life for Experiment #2.
*Check to make sure you are using the data from Experiment #2.
Transcribed Image Text:Consider the reaction: A → B. Use the below data to determine the first half-life for experiment 2. Please answer in seconds. Experiment 1 500 2 [A] 0.1 M 0.2 M Initial Rate [M/S] 0.0025 0.01 Incorrect. In the last problem, we learned that the reaction is second order and k = 0.25 M-¹ s²¹. Now we can use the second order half-life equation to solve for the first half-life for Experiment #2. *Check to make sure you are using the data from Experiment #2.
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