High temperature rate coefficient for the reaction of O(3P) with H2 obtained by the resonance absorption of O and H atoms

The rate coefficient, k , of the reaction H,O + CN + HCN + OH has been determined in the temperature range 2460-2840 K using a shock tube technique. C2N2-H20-Ar mixtures were heated behind incident shock waves and the CN and OH concentration time histories were monitored simultaneously using broad-b

The O(3P) + CION reaction has been studicd in a fast flow system over the temperature range from 213 to 295 K, using the air-aftereIow technique for the detection of oxygen atoms under pseudo first order conditions. A value of (3.4 z 0.6) x 10-" exp[(-840 + 60)/T] cm3 molecule-' s-' has been obtaine

The absolute second-order rate coefficient for the reaction, O(3P) + CH300H + products, was measured to be ki = (1.06 ? 0.26) x cm3 molec-' s-l at 297 K, where the quoted error is 2 a including precision and estimated systematic errors. The possible presence of (CH3CHp),0 in our sample of CH,OOH lea

Ra?e constants for the reaction of 0(3P) atoms with CaH4, CaHB and NO(M = NpO) have been measured over the temperature range 300-392°K using a modulation-phase shifi technique. The Arrhenius expressions obtained are: C2H4, k2 = 3.37 X 10' exp[-(1270 -f 200)/RT] liter mole-' see-', CJH~, kz = 2.08 x

## Abstract The rate coefficient of the reaction has been determined in the temperature range of 2700–3500 K using a shock tube technique. C~2~N~2~H~2~Ar mixtures were heated behind incident shock waves and the early‐time CN history was monitored using broad‐band absorption spectroscopy. The ra