Consider the following mechanism for the formation of nitryl fluoride: NO2(9) + F2(9) NO,F(9) + F(9) (1) F(g) + NO2(9) → NO,F(9) (2)

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Chapter1: Chemical Foundations
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Consider the following mechanism for the formation of nitryl fluoride:
NO,(g) + F2(9)
NO,F(g) + F(g)
(1)
F(g) + NO2(g) -
NO,F(9)
(2)
→
Write the chemical equation of
the overall reaction:
yes
0,0,..
Are there any intermediates in
this mechanism?
no
If there are intermediates, write
down their chemical formulas.
Put a comma between each
chemical formula, if there's more
than one.
O O
Transcribed Image Text:Consider the following mechanism for the formation of nitryl fluoride: NO,(g) + F2(9) NO,F(g) + F(g) (1) F(g) + NO2(g) - NO,F(9) (2) → Write the chemical equation of the overall reaction: yes 0,0,.. Are there any intermediates in this mechanism? no If there are intermediates, write down their chemical formulas. Put a comma between each chemical formula, if there's more than one. O O
Identify the molecularity of each elementary reaction in the table below.
elementary reaction
molecularity
unimolecular
termolecular
H, (g) + 21(g)
- 2HI8)
bimolecular
quadrimolecular
Cannot be determined.
unimolecular
termolecular
NO, (g) + co(g) → No, (8) + Co,(8)
bimolecular
quadrimolecular
2
2
Cannot be determined.
unimolecular
termolecular
NO,CI(g) → NO,(g) + C1 (g)
bimolecular
quadrimolecular
Cannot be determined.
OO OO O 00 0 0
Transcribed Image Text:Identify the molecularity of each elementary reaction in the table below. elementary reaction molecularity unimolecular termolecular H, (g) + 21(g) - 2HI8) bimolecular quadrimolecular Cannot be determined. unimolecular termolecular NO, (g) + co(g) → No, (8) + Co,(8) bimolecular quadrimolecular 2 2 Cannot be determined. unimolecular termolecular NO,CI(g) → NO,(g) + C1 (g) bimolecular quadrimolecular Cannot be determined. OO OO O 00 0 0
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