This reaction plays a significant role in the chemistry of the earth's atmosphere by eventually converting OH to HO, through the subsequent reaction of H with O2. HO2 is involved in the destruction of stratospheric ozone (J. Phys. Chem. A, 2006, 110, 6978). Determine the activation energy for the reaction of OH with H, reaction. O 16.4 kJ mol The rate constants for the reaction of OH with H2 were found to be 1.83x10 L mol -1 s'at 107. °C and 5.68x10° L mol' s' at 37. "c. O -85.9 kJ mol 1 O -18.4 kJ mol O 54.8 kJ mol O 65.0 kJ mol

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The overall reaction of hydroxide radical with hydrogen gas occurs as follows:
OH (g) + H2(g) – H20(g) + H'(g)
Part A
This reaction plays a significant role in the chemistry of the earth's atmosphere by
eventually converting OH to HO, through the subsequent reaction of H with O2. HO2
is involved in the destruction of stratospheric ozone (J. Phys. Chem. A, 2006, 110.
6978).
Determine the activation energy for the reaction of OH with H, reaction.
O 16.4 kJ mol
The rate constants for the reaction of OH with H2 were found to be 1.83x10' L mol
s'at 107. °C and 5.68×10° L mol's at 37. C.
-1
O -85.9 kJ mol
-1
O -16.4 kJ mol
O 54.8 kJ mol
O 65.9 kJ mol
Transcribed Image Text:The overall reaction of hydroxide radical with hydrogen gas occurs as follows: OH (g) + H2(g) – H20(g) + H'(g) Part A This reaction plays a significant role in the chemistry of the earth's atmosphere by eventually converting OH to HO, through the subsequent reaction of H with O2. HO2 is involved in the destruction of stratospheric ozone (J. Phys. Chem. A, 2006, 110. 6978). Determine the activation energy for the reaction of OH with H, reaction. O 16.4 kJ mol The rate constants for the reaction of OH with H2 were found to be 1.83x10' L mol s'at 107. °C and 5.68×10° L mol's at 37. C. -1 O -85.9 kJ mol -1 O -16.4 kJ mol O 54.8 kJ mol O 65.9 kJ mol
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