The reaction of nitrogen dioxide with fluorine 2NO2+ F22NO₂F is first order in NO2 and first order in F2. Complete the rate law for this reaction in the box below. Use the form k[A] [B]", where '1' is understood for m, n ... (don't enter 1) and concentrations taken to the zero power do not appear. Rate = In art experiment to determine the rate law, the rate constant was determined to be 1.37 x 10-4 M¹s¹. Using this value for the rate constant, the rate of the reaction when [NO₂] = 1.04 M and [F₂] = 0.672 M would be M/s.
The reaction of nitrogen dioxide with fluorine 2NO2+ F22NO₂F is first order in NO2 and first order in F2. Complete the rate law for this reaction in the box below. Use the form k[A] [B]", where '1' is understood for m, n ... (don't enter 1) and concentrations taken to the zero power do not appear. Rate = In art experiment to determine the rate law, the rate constant was determined to be 1.37 x 10-4 M¹s¹. Using this value for the rate constant, the rate of the reaction when [NO₂] = 1.04 M and [F₂] = 0.672 M would be M/s.
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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![30
2
The reaction of nitrogen dioxide with fluorine
2NO2+ F2 → 2NO₂F
is first order in NO2 and first order in F2.
Complete the rate law for this reaction in the box below.
Use the form k[A] [B]", where '1' is understood for m, n ... (don't enter 1) and concentrations taken to the zero power do not appear.
W
Rate =
In an experiment to determine the rate law, the rate constant was determined to be 1.37 x 10-4 M¹s¹. Using this value for the rate constant, the rate of the reaction
when [NO₂] = 1.04 M and [F2] = 0.672 M would be
M/s.
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Transcribed Image Text:30
2
The reaction of nitrogen dioxide with fluorine
2NO2+ F2 → 2NO₂F
is first order in NO2 and first order in F2.
Complete the rate law for this reaction in the box below.
Use the form k[A] [B]", where '1' is understood for m, n ... (don't enter 1) and concentrations taken to the zero power do not appear.
W
Rate =
In an experiment to determine the rate law, the rate constant was determined to be 1.37 x 10-4 M¹s¹. Using this value for the rate constant, the rate of the reaction
when [NO₂] = 1.04 M and [F2] = 0.672 M would be
M/s.
Submit Answer
3
E
D
C
JAN
16
80
Retry Entire Group
$
R
V
Show Hint
B
0
%
5
T
G
9 more group attempts remaining
F5
B
Cengage Learning Cengage Technical Support
tv ♫ JON 1
6
Y
F6
H
&
7
1
N
F7
U
J
00 *
8
M
اله
DII
F8
I
K
ZA
9
D
F9
H
O
O
L
F10
P
W
DO
;
{
I
command option
[
1
F12
Previous
}
Email Instructor Save and Exit
Next
DOCX
delete
return
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