Nitrogen monoxide reacts with oxygen to give nitrogen dioxide. 2NO(9) + 02 (9) → 2NO: (9) The rate law is A[NO] At - k[NO]°[02] where the rate constant is 1.16 x 10-5 L/(mol? . s) at 339°C. A vessel contains NO and Oz at 339°C. The initial partial pressures of NO and Oz are 157 mmHg and 348 mmHg, respectively. What is the rate of decrease of partial pressure of NO? (Hint: From the ideal gas law, obtain an expression for the molar concentration of a particular gas in terms of its partial pressure.) Rate =
Nitrogen monoxide reacts with oxygen to give nitrogen dioxide. 2NO(9) + 02 (9) → 2NO: (9) The rate law is A[NO] At - k[NO]°[02] where the rate constant is 1.16 x 10-5 L/(mol? . s) at 339°C. A vessel contains NO and Oz at 339°C. The initial partial pressures of NO and Oz are 157 mmHg and 348 mmHg, respectively. What is the rate of decrease of partial pressure of NO? (Hint: From the ideal gas law, obtain an expression for the molar concentration of a particular gas in terms of its partial pressure.) Rate =
General Chemistry - Standalone book (MindTap Course List)
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Chapter13: Rates Of Reaction
Section: Chapter Questions
Problem 13.151QP: Nitrogen monoxide reacts with oxygen to give nitrogen dioxide. 2NO(g)+O2(g)2NO2(g) The rate law is...
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![Nitrogen monoxide reacts with oxygen to give nitrogen dioxide.
2NO(9) + 02 (9) → 2NO: (9)
The rate law is
A[NO]
At
- k[NO]°[02]
where the rate constant is 1.16 x 10-5 L/(mol? . s) at 339°C. A vessel contains NO and Oz at 339°C. The initial partial pressures of NO and Oz are 157 mmHg and 348 mmHg, respectively.
What is the rate of decrease of partial pressure of NO? (Hint: From the ideal gas law, obtain an expression for the molar concentration of a particular gas in terms of its partial pressure.)
Rate =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fec9ffd77-167a-4277-8553-3a52bbff1fe0%2Fdcba67fe-2f5c-408a-b206-be56dd54c0c0%2Fiumc7m.jpeg&w=3840&q=75)
Transcribed Image Text:Nitrogen monoxide reacts with oxygen to give nitrogen dioxide.
2NO(9) + 02 (9) → 2NO: (9)
The rate law is
A[NO]
At
- k[NO]°[02]
where the rate constant is 1.16 x 10-5 L/(mol? . s) at 339°C. A vessel contains NO and Oz at 339°C. The initial partial pressures of NO and Oz are 157 mmHg and 348 mmHg, respectively.
What is the rate of decrease of partial pressure of NO? (Hint: From the ideal gas law, obtain an expression for the molar concentration of a particular gas in terms of its partial pressure.)
Rate =
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