a) Use simple linear regression to determine the activation energy of ozone decay, from the Arrhenius equation Catalyst NO 03+0 ➜ 202 Temperature Speed constant (Kelvin) 600 3.37E3 700 4.85E4 1000 5.90E6 1400 1.45E8 1600 3.93E8 1900 1.19E9 b) Use simple linear regression to determine the frequency factor A of ozone decay, from the Arrhenius equation NO + 03 NO₂ +0 NO2 + O2 0₂ + NO

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linear regression
a) Use simple linear regression to determine the activation energy of ozone decay, from the
Arrhenius equation
Catalyst NO
NO + 03
NO2 + O2
NO₂ + 0 ➜ O₂ + NO
03+0 ➜ 202
Temperature
Speed constant
(Kelvin)
600
3.37E3
700
4.85E4
1000
5.90E6
1400
1.45E8
1600
3.93E8
1900
1.19E9
b) Use simple linear regression to determine the frequency factor A of ozone decay, from the
Arrhenius equation
Transcribed Image Text:a) Use simple linear regression to determine the activation energy of ozone decay, from the Arrhenius equation Catalyst NO NO + 03 NO2 + O2 NO₂ + 0 ➜ O₂ + NO 03+0 ➜ 202 Temperature Speed constant (Kelvin) 600 3.37E3 700 4.85E4 1000 5.90E6 1400 1.45E8 1600 3.93E8 1900 1.19E9 b) Use simple linear regression to determine the frequency factor A of ozone decay, from the Arrhenius equation
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