The bimolecular reaction of chlorine monoxide can result in the formation of three different combinations of products or product channels (the rate constant for each reaction is indicated): ClO(g) + ClO(g)→ Cl2(g) + O2(g) k= 2.9 × 106 CIO(g) + ClO(g) → CIOO(g) + Cl(g) CIO(g) + CIO(g) → OCIO(g)+Cl(g) k= 7.0 × 106 k= 2.1 × 106 By using 1.00 bar chlorine monoxide, what would be the partial pressure yield of chlorine atom? A) 0.38 bar B) 0.12 bar C) 0.58 bar D) 0.18 bar E) 0.70 bar
The bimolecular reaction of chlorine monoxide can result in the formation of three different combinations of products or product channels (the rate constant for each reaction is indicated): ClO(g) + ClO(g)→ Cl2(g) + O2(g) k= 2.9 × 106 CIO(g) + ClO(g) → CIOO(g) + Cl(g) CIO(g) + CIO(g) → OCIO(g)+Cl(g) k= 7.0 × 106 k= 2.1 × 106 By using 1.00 bar chlorine monoxide, what would be the partial pressure yield of chlorine atom? A) 0.38 bar B) 0.12 bar C) 0.58 bar D) 0.18 bar E) 0.70 bar
Chemistry
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Chapter1: Chemical Foundations
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Transcribed Image Text:The bimolecular reaction of chlorine monoxide can result in the formation
of three different combinations of products or product channels (the rate
constant for each reaction is indicated):
ClO(g) + ClO(g)→ Cl2(g) + O2(g)
k= 2.9 × 106
CIO(g) + ClO(g) → CIOO(g) + Cl(g)
CIO(g) + CIO(g) → OCIO(g)+Cl(g)
k= 7.0 × 106
k= 2.1 × 106
By using 1.00 bar chlorine monoxide, what would be the partial pressure
yield of chlorine atom?
A) 0.38 bar
B) 0.12 bar
C) 0.58 bar
D) 0.18 bar
E) 0.70 bar
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