Shock Waves in Chemical Kinetics: The Thermal Decomposition of NO 21a

The thermal decomposition of propane was studied behind reflected shock waves over the temperature range 1100-1450 K and the pressure range 1.5-2.6 atm, by both monitoring the time variations of absorption at 3.39 pm and analyzing the concentrations of the reacted gas mixtures. The rate constants of

The thermal decomposition of vinylacetylene ( C 4 H 4 ) was studied behind reflected shock waves using both a single-pulse method (reaction time between 0.8 and 3.3 ms) and a timeresolved UV-absorption method (230 nm). The studies were done over the temperature range of 1170-1690 K at the total pres

The thermal decomposition of ethane was studied behind reflected shock waves over the temperature range 1200-1700 K and over the pressure range 1.7-2.5 atm, by both tracing the time variation of absorption a t 3.39 Fm and analyzing the concentration of the reacted gas mixtures. The mechanism to inte

## Abstract The thermal decomposition of ammonia was studied by means of the shock‐tube and vacuum ultraviolet absorption spectroscopy monitoring the concentration of atomic hydrogen. The rate constants of both the initiation reaction equation image and the consecutive reaction equation image w