Kinetics of the thermal gas phase reactions of 1,2-epoxy-2-methylpropane

## Abstract The kinetics of the gas‐phase decomposition of 1,2‐epoxycyclohexane has been studied over the temperature range 680–740 K at pressures between 1.6 and 6 torr. Isomerization to cyclohexanone and 2‐cyclohexen‐1‐ol accounts for ca. 97% of the primary reaction products and occurs by first‐o

The kinetics of the gas phase reaction between NOz and CFzCCIz has been investigated in the temperature range from 50 to 80°C. The reaction is homogeneous. Three prod- and equimolecular amounts of ClNO and of OZNCFZC(O)CI. The rate of consumption of the reactants is independent of the total pressur

The gas-phase reaction kinetics of 1,1,2-trimethylcyclopropane have been studied in First-order unimolecular rate constants for overthe temperature range of 70Cb755"K. all reactant disappearance fit the Arrhenius equation 61.08 f 0.51 log ko (sec-l) = 14.47e Reaction products and the relative rates

## Abstract The cyclic sulfenic ester 1,2‐oxathiolane (**1**) decomposes thermally (400 – 450 K) exclusively to give acrolein (**3**) __via__ 3‐mercaptopropanal (**2**) by loss of hydrogen sulfide. Isotopic labelling experiments reveal the presence of a 1,2‐oxathiolane‐thietane 1‐oxide equilibrium

## Abstract Rates of thermal gas‐phase elimination of eleven 2‐aryloxyacetic acid have been measured over a 45°C temperature range for each compound. Hammett correlation of the present kinetic data with the literature σ^0^ values of the given substituents gave a reaction ρ constant of 0.69 at 600 K

## Abstract The gas phase elimination kinetics of 2‐bromopropene was studied over the temperature range of 571–654 K and pressure range of 12–46 Torr using the seasoned static reaction system. Propyne was the only olefinic product formed and accounted for >98% of the reaction. This product was form