A study of the mechanism and kinetics of the reaction of O(3P) atoms with propane

## Abstract The kinetics of the reaction of O(^3^__P__) atoms with acetone were investigated using fast flow methods. The reaction was studied over a temperature range of 298 to 478°K. The specific rate constant obtained was (1.9 ± 0.4) × 10^12^ exp(—5040 ± 180/1.987 __T__) cm^3^/mol·sec. The obser

## 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 kinetics of the reactions of O(^3^__P__) and D atoms with cyclohexane have been investigated using fast‐flow techniques. The rates of reaction were computed by monitoring changes in both atom and cyclohexane concentrations using electron spin resonance and mass spectrometric methods

A laser flash photolysis-resonance fluorescence technique has been employed to study the kinetics of the reaction of O(3P) with CF3NO (kz) as a function of temperature. Our results are described by the Arrhenius expression k z ( T ) = (4.54 ? 0.70) X 10-12exp[(-560 i 46)/T] cm3molecule-'s-' (243 K 5

chlorine chemistry and hydrocarbon chemistry has taken on new importance in the last few years with the realization that chlorine chemistry may play a more important role in the marine troposphere than previously thought. Measurements of hydrocarbons in the Arctic troposphere in springtime have prov

## 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