Absolute rate constants for radical-molecule reactions over a wide temperature range. The heat of formation and entropy of the methyl radical

Absolute rate constants. k2. for the reaction of OH radicals with 2-methyl-2-butene have been determined over the temperature range 297-425 K usinp P flash photolysis-resonance fluorescence technique. The Arrhenius expression obtained was & = 3.6 X lo-" exp [(450 +-400)/RTJ cm3 moleculeS1 ~8.

I%c rate conswnt for methyl rzdic;ll recombination has been measured over the rempcrature range 296-577 K and at pressures bcl\vcrn 5 and 500 Torr win: laser 5~11 photolysis. coupled with absorption spectroscopy at 216.36 nm. Analysis 01' lhC f~ll-ol'f curves gives k, = (1.78 2 0.18) x IO-" rsp( 151

Absolute rate constants have been measured for the reaction of the OH radical with diacetylene over the temperature range of 296-688K using a flash photolysis-resonance fluorescence technique. The best fit to the data is given by the following Arrhenius expression: k= 1.11 x 10 -II exp{410+3OO(cal/m

Absolute rate constants for the reaction of SiH4 with O(3P) atoms and OH radicals have been determined over the temperature range 297"438'K using flash photolysis-NO:! chemiluminescence and flash photolysis-resonance fluorescence techniques, respectively. The Arrhenius expressions obtained are wher

Measurements rate constants for abstraction of hydrogen from ethylene by methyl and ethyl radicals relative to the corresponding rate constants for abstraction from hydrogen, over the temperature range 650-770 K, are reported. The method is based on the effect of the addition of small quantities of