1. For a reaction where the general form of the rate law is rate = [A] [B]", the following data were collected. What is the order of the reaction with respect to A? What is the order of the reaction with respect to B? What would be the initial rate of the reaction if [A] = 0.050 M and [B] = 0.075 M? Initial Rate 0.01 M/s 0.02 M/s 0.09 M/s [A] 0.025 M 0.025 M 0.075 M [B] 0.025 M 0.050 M 0.025 M

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Answer two questions
1. For a reaction where the general form of the rate law is rate = [A] [B]", the following data were
collected. What is the order of the reaction with respect to A? What is the order of the reaction
with respect to B? What would be the initial rate of the reaction if [A] = 0.050 M and [B] = 0.075
M?
Initial Rate
0.01 M/s
2. The rate law for this
0.02 M/s
0.09 M/s
[A]
0.025 M
0.025 M
0.075 M
[B]
0.025 M
0.050 M
0.025 M
reaction measured at a different temperature was found to be:
rate = 7.0 M¹-s¹ [A]¹ [B]¹
Like during your Intro Activity, the rate was determined to be the time that it took to totally
consume a third component that had an initial concentration = 0.020 M. If a student were trying
to get the color of the reaction to change in 30 seconds, and they started with a concentration of
component A = 0.0050 M, what would the concentration of component B need to be?
Transcribed Image Text:1. For a reaction where the general form of the rate law is rate = [A] [B]", the following data were collected. What is the order of the reaction with respect to A? What is the order of the reaction with respect to B? What would be the initial rate of the reaction if [A] = 0.050 M and [B] = 0.075 M? Initial Rate 0.01 M/s 2. The rate law for this 0.02 M/s 0.09 M/s [A] 0.025 M 0.025 M 0.075 M [B] 0.025 M 0.050 M 0.025 M reaction measured at a different temperature was found to be: rate = 7.0 M¹-s¹ [A]¹ [B]¹ Like during your Intro Activity, the rate was determined to be the time that it took to totally consume a third component that had an initial concentration = 0.020 M. If a student were trying to get the color of the reaction to change in 30 seconds, and they started with a concentration of component A = 0.0050 M, what would the concentration of component B need to be?
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