The reaction of O(3P) with propionaldehyde and acrolein in a fast-flow system

the formation of higher oxides of chlorine such as Cl 2 O 4 , Cl 2 O 6 , and Cl 2 O 7 has been observed [5 -8]. The reaction mechanisms are not understood but may involve the formation of ClO 3 which has recently been observed in an inert matrix [9]. In these systems, ClO 3 can be formed via the add

## Abstract The reaction of O(^3^__P__) atoms with propanehas been studied at temperatures near 300 K by using a discharge flow system. Oxygen atoms were generated in the absence of molecular oxygen by the reaction N + NO → N~2~ + O, nitrogen atoms having been generated in a microwave discharge. Ra

## Abstract The reaction of O(^3^__P__) atoms with isobutane has been studied by using the discharge‐flow system described previously [1]. The rate constant was measured from determinations of the isobutane concentration in the presence of an excess of O atoms and is given by __k__~1~ = (7.9 ± 1.4)

## Abstract The absolute rate constant of the reaction of O(^3^__P__) with toluene was measured by the microwave discharge‐fast‐flow method to obtain __k__~__T__~ = 10^9.7–2.7/2.303__RT__^ l./mole·sec at 100–375°C. This was in good agreement with the rate constant calculated from the combination of

## Abstract The flash photolysis–vacuum ultraviolet kinetic absorption spectroscopy technique has been used to measure the absolute rate constant for the reaction of ground state S(^3^__P__) atoms withnitric oxide,\documentclass{article}\pagestyle{empty}\begin{document}${\rm S}\left({^{\rm 3} P} \r