Derivation of the chemical-equilibrium rate coefficient using scattering theory

The present paper considers a detailed analysis of the nonequilibrium effects for a model reactive system with the Chapman-Eskog (CE) solution of the Boltzmann equation as well as an explicit time dependent solution. The elastic cross sections employed are a hard sphere cross section and the Maxwell

The rate coefficient for the reaction of the peroxypropionyl radical (C 2 H 5 C(O)O 2 ) with NO was measured with a laminar flow reactor over the temperature range 226-406 K. The C 2 H 5 C(O)O 2 reactant was monitored with chemical ionization mass spectrometry. The measured rate coefficients are k(T

The thermochemical kinetics formulation of conventional transition state theory for bimolecular reactions allows for a separate contribution from each degree of freedom (translation, rotation, vibration, etc.) in the activated complex to the entropy and heat capacity of activation, and thus to the p

An error was discovered in the method used for calculating the moments of inertia for the internal rotations in the activated complex. In order to retain good agreement between theory and experiment, it was necessary to change some other molecular parameters of the activated complex. The following c

The thermochemical kinetics formulation of conventional transition state theory has been applied to metathesis reactions of H atoms with a series of alkanes in order to provide a sound framework for the intercomparison of experimental data, and also to extrapolate rate coefficients to temperature re