The Reaction Rate Constant of Chlorine Nitrate Hydrolysis

The pulsed laser photolysis-resonance fluorescence technique has been used to determine the absolute rate coefficient for the Cl atom reaction with a series of ketones, at room temperature (298 Ϯ 2) K and in the pressure range 15-60 Torr. The rate coefficients obtained (in units of cm 3 molecule Ϫ1

This article is concerned with the application of a new method to recover the rate constants in chemical reactions. The method is based on treating the unknown parameters as time dependent. With appropriate experimental data the unknown rate constants are guided from an arbitrary initial condition t

## Abstract A hybrid experimental/computer‐aided methodology for the design of solvents for reactions is presented. It is based on the use of a few reaction rate measurements to build a reaction model, followed by the formulation and solution of an optimal computer‐aided molecular design problem (C

The relative rate technique has been used to measure the rate coefficient for the reaction of the hydroxyl radical (OH) with methyl isobutyrate (MIB, (CH 3 ) 2 CHC(ϭO)-O-CH 3 ) to be (1.7 Ϯ 0.4) ϫ 10 Ϫ12 cm 3 molecule Ϫ1 s Ϫ1 at 297 Ϯ 3 K and 1 atmosphere total pressure. To more clearly define MIB's

Rate coefficients for the reaction of Cl atoms with CH 3 Cl (k 1 ), CH 2 Cl 2 (k 2 ), and CHCl 3 (k 3 ) have been determined over the temperature range 222-298 K using standard relative rate techniques. These data, when combined with evaluated data from previous studies, lead to the following Arrhen