Reaction of H + ketene to formyl methyl and acetyl radicals and reverse dissociations

## Abstract Chemically activated acetyl radicals, with an excitation energy of 78 kJ/mole, were formed by the addition of methyl radicals to carbon monoxide. At 273·K the pressure required to stabilize one half of the excited radicals was 500 torr. From measurements of the acetyl radical yield at p

The kinetics of H abstraction by methyl and acetyl radicals from poly(vinyl acetophenone) (PVAP) tilms (4 x 10 ~ mm thick) have been investigated, both radicals being derived from the polymer by photolysis (2 > 300 nm) under high vacuum conditions (pressure < 10 a Pa). Differential equations have be

## Abstract The reaction of hydrogen atoms with diazomethane was used as a source of methyl radicals to study the reaction of oxygen atoms with methyl radicals. This investigation verifies directly the earlier results that formaldehyde is a major product and that the rate constant is greater than 3

The pyrolysis of ethylbenzene has been investigated in shock waves with the laser schlieren technique. Mixtures of 1 and 2% ethylbenzene in krypton were studied for reaction conditions of 1300-1800 K, 70-550 torr. At high temperatures, the initial rapid endothermic dissociation is followed by a regi

The flash photolysis of biacetyl produces CO, CZH6, and CH3COCH3 as main products, and in small amounts COz, CzH4, and CH3CHO. The rate constants of reactions ( 2) and of' thermally equilibrated radicals were calculated from the amounts of products: ) lo'\* dm3/mol. s k 3 = (2.43 f 0.14) 1O1O dm3/