Absolute rate constants for the reaction of Br atoms with i–C4H10

## Abstract The rate constant for the reaction of Br + O~3~ → BrO + O~2~ has been measured at four temperatures from 234 to 360 K by the technique of discharge flow coupled with resonance‐fluorescence detection of bromine atoms. The measured rate constants obey the Arrhenius expression __k__ = (9.4

## Abstract The overall rate constant for hydrogen‐atom addition to isobutene has been measured in the temperature range of 298–563 K in a flow discharge system coupled to a quadrupole mass spectrometer. Previously published results allow the determination of where the error limits are 95% confid

The Arrhenius parameters for the title reaction have been measured in a very-low-pressure pyrolysis apparatus in the temperature range 644-722 K and are given by log kZ (A4-I. sec-I) = 9.68 -2.12/8, where 0 = 2.303RT in kcal/mol. Together with the published Arrhenius parameters for the reverse react

Absolute rate constants for the reaction of SiH4 with O(3P) atoms and OH radicals have been determined over the temperature range 297"438'K using flash photolysis-NO:! chemiluminescence and flash photolysis-resonance fluorescence techniques, respectively. The Arrhenius expressions obtained are wher

Rate constants have been measured at room temperature for the reactions of Cl atoms with formic acid and with the HOCO radical: Cl ϩ HCOOH !: HCl ϩ HOCO (R1) Cl ϩ HOCO !: HCl ϩ CO (R2) 2 Cl atoms were generated by flash photolysis of Cl 2 and the progress of reaction was followed by time-resolved i