Consider the proposed mechanism for the formation of N₂05: Step1: NO₂ + 03 → NO3 + O₂ Step2: NO₂ + NO3 → N₂O5 (a) Write the overall process (Use notation like 5 H_20 + H^+ -> H_30^+ etc) If step 1 is slow and step 2 fast, what is the rate law of the overall process? Use concentrations even if we are dealing with gases, and use notation like k 1*[A] for step 1 etc.
Consider the proposed mechanism for the formation of N₂05: Step1: NO₂ + 03 → NO3 + O₂ Step2: NO₂ + NO3 → N₂O5 (a) Write the overall process (Use notation like 5 H_20 + H^+ -> H_30^+ etc) If step 1 is slow and step 2 fast, what is the rate law of the overall process? Use concentrations even if we are dealing with gases, and use notation like k 1*[A] for step 1 etc.
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
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![Consider the proposed mechanism for the formation of N₂O5:
Step1:
NO₂ + 03 → NO3 + 0₂
Step2:
NO₂ + NO3 → N₂O5
(a) Write the overall process (Use notation like 5 H_20 + H^+ -> H_30^+ etc )
If step 1 is slow and step 2 fast, what is the rate law of the overall process? Use concentrations even if we
are dealing with gases, and use notation like k_1*[A] for step 1 etc.
R = k_1*[NO2]*[03]
X](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fad552993-88b6-44ed-a617-80aa5a4d7a33%2F5c984d66-d665-4209-815e-c0285a9fc05d%2Fvp2if1c_processed.png&w=3840&q=75)
Transcribed Image Text:Consider the proposed mechanism for the formation of N₂O5:
Step1:
NO₂ + 03 → NO3 + 0₂
Step2:
NO₂ + NO3 → N₂O5
(a) Write the overall process (Use notation like 5 H_20 + H^+ -> H_30^+ etc )
If step 1 is slow and step 2 fast, what is the rate law of the overall process? Use concentrations even if we
are dealing with gases, and use notation like k_1*[A] for step 1 etc.
R = k_1*[NO2]*[03]
X
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