Abstract

A method has been developed for following the kinetics of fast atomic reactions with a mass spectrometer. The method has been used to determine separately the rate constants for the following reactions which are relevant to an atomic nitrogen-ozone system. N+O3→NO+O2k1=(5.7±1.4)×10−13 cm3molec−1sec−1N+NO→N2+Ok2=(2.2±0.6)×10−11 cm3molec−1sec−1O3+NO→NO2+O2k3=(2.1±0.5)×10−14 cm3molec−1sec−1O3+O→2O2k4=(2.5±0.5)×10−14 cm3molec−1sec−1O+NO2→O2+NOk5=(2.5±0.6)×10−12 cm3molec−1sec−1These reactions have been used to interpret the observed changes of concentration with time for reactants and products of the N–O3 reaction. The concentrations of N2O and NO2 in the system were below the detection limits of the mass spectrometer, which is consistent with predictions based on the above rate constants. Evidence was obtained for the production by reaction (2) of vibrationally excited N2 molecules having energies greater than 23.4 kcal/mole. Such energetic molecules are not present in significant quantities in discharged O2 or N2.