The mechanism for the reaction of nitrogen dioxide with carbon monoxide to form nitric oxide and carbon dioxide is thought to be: NO2 + NO2 NO3 + NO (???) NO3 + CO NO2 + CO₂ (???) It has not yet been determined which step is fast and which is slow. Which experimental design would permit you to determine the relative speeds of the steps? Select all that apply. You may assume that all fast steps are equilibrium teps Increase or decrease the concentration of NO Increase or decrease the concentration of CO Increase or decrease the concentration of NO₂ Increase or decrease the concentration of CO2 Change the temperature
The mechanism for the reaction of nitrogen dioxide with carbon monoxide to form nitric oxide and carbon dioxide is thought to be: NO2 + NO2 NO3 + NO (???) NO3 + CO NO2 + CO₂ (???) It has not yet been determined which step is fast and which is slow. Which experimental design would permit you to determine the relative speeds of the steps? Select all that apply. You may assume that all fast steps are equilibrium teps Increase or decrease the concentration of NO Increase or decrease the concentration of CO Increase or decrease the concentration of NO₂ Increase or decrease the concentration of CO2 Change the temperature
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter11: Chemical Kinetics: Rates Of Reactions
Section: Chapter Questions
Problem 70QRT
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Explain why the only correct answers are the ones chosen.
Transcribed Image Text:The mechanism for the reaction of nitrogen dioxide
with carbon monoxide to form nitric oxide and carbon
dioxide is thought to be:
NO₂ + NO2
NO3 + NO (???)
NO3 + CO
NO₂ + CO₂ (???)
It has not yet been determined which step is fast and
which is slow. Which experimental design would
permit you to determine the relative speeds of the
steps? Select all that apply.
You may assume that all fast steps are equilibrium
steps.
Increase or decrease the concentration of NO
Increase or decrease the concentration of CO
Increase or decrease the concentration of NO₂
Increase or decrease the concentration of CO2
Change the temperature
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