A reaction of importance in the formation of smog is that between onone and nitrogen monotide descnbed by 0,+ NO(2) 0,R} + NO,(2) The rate law for this reaction is rate of reaction = A (0,1[NO]| Given that A 4.43 x 10 M ata certain lemperature, calculate the initial reaction rate when [0,1 and (NOJ remain esentially constant at the values (0,b-1.22 x 10* M and [NO = 765 x 10 M, owing to continuoun production from separate sources M initial reaction rate: Calculate the number of moles of NO, produced per hour per liter of air. mol h NO, produced

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A reaction of importance in the farmation of smog is that between ozone and nitrogen monoxide described by
0,+ NO(g) - 0,) + NO, ()
The rate law for this reaction is
rata of reaction = A (0,I[NO]
Given that A4.43 x 10 Ms at a certain lenmperature, caleulate the initial reaction rate when (0,1 and (NOJ remain
essentially constant at the values 10,- 1.22 x 10M and [NOlo = 7.65 x 10 M, owing to continuous production from
separate sources
initial reaction rate:
M
Calculate the number of moles of NO, () produced per hour per liter of air.
NO, produced:
mol hL
Transcribed Image Text:A reaction of importance in the farmation of smog is that between ozone and nitrogen monoxide described by 0,+ NO(g) - 0,) + NO, () The rate law for this reaction is rata of reaction = A (0,I[NO] Given that A4.43 x 10 Ms at a certain lenmperature, caleulate the initial reaction rate when (0,1 and (NOJ remain essentially constant at the values 10,- 1.22 x 10M and [NOlo = 7.65 x 10 M, owing to continuous production from separate sources initial reaction rate: M Calculate the number of moles of NO, () produced per hour per liter of air. NO, produced: mol hL
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