The following reaction is second order with respect to NO and zero order in O₂: 2NO+ O₂ → 2NO₂. If the rate constant is 4.67 x 10³ M¹s¹, find the following if the initial concentration of NO = 0.750 M: The concentration of NO after 500 s have passed. How much time has passed for the concentration to be reduced to ½ of the initial? The time when the [NO] will be 0.500 M. The initial reaction rate.
The following reaction is second order with respect to NO and zero order in O₂: 2NO+ O₂ → 2NO₂. If the rate constant is 4.67 x 10³ M¹s¹, find the following if the initial concentration of NO = 0.750 M: The concentration of NO after 500 s have passed. How much time has passed for the concentration to be reduced to ½ of the initial? The time when the [NO] will be 0.500 M. The initial reaction rate.
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![4) The following reaction is second order with respect to NO and zero order in O₂: 2NO+ O₂ → 2NO₂. If the rate
constant is 4.67 x 10³ M¹s¹, find the following if the initial concentration of NO = 0.750 M:
a. The concentration of NO after 500 s have passed.
b. How much time has passed for the concentration to be reduced to ½ of the initial?
C. The time when the [NO] will be 0.500 M.
d. The initial reaction rate.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9b0e7686-0c0d-4eba-ac81-54e736b47f2f%2F37086bab-e3b1-46c3-b488-6fe83346c2e5%2Ftp5ohu_processed.jpeg&w=3840&q=75)
Transcribed Image Text:4) The following reaction is second order with respect to NO and zero order in O₂: 2NO+ O₂ → 2NO₂. If the rate
constant is 4.67 x 10³ M¹s¹, find the following if the initial concentration of NO = 0.750 M:
a. The concentration of NO after 500 s have passed.
b. How much time has passed for the concentration to be reduced to ½ of the initial?
C. The time when the [NO] will be 0.500 M.
d. The initial reaction rate.
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