Volume 9, Issue 2, April 1980
Index of content:
9(1980); http://dx.doi.org/10.1063/1.555619View Description Hide Description
This paper contains a critical evaluation of the kinetics and photochemistry of gas phase chemical reactions of neutral species involved in middle atmosphere chemistry (10–55 km altitude). The work has been carried out by the authors under the auspices of the CODATA Task Group on Chemical Kinetics. Data sheets have been prepared for 148 thermal and photochemical reactions, containing summaries of the available experimental data with notes giving details of the experimental procedures. For each reaction a preferred value of the rate coefficient at 298 K is given together with a temperature dependency where possible. The selection of the preferred value is discussed, and estimates of the accuracies of the rate coefficients and temperature coefficients have been made for each reaction. The data sheets are intended to provide the basic physical chemical data needed as input for calculations which model atmospheric chemistry. A table summarizing the preferred rate data is provided, together with an Appendix listing the available data on enthalpies of formation of the reactant and product species.
9(1980); http://dx.doi.org/10.1063/1.555620View Description Hide Description
The energy levels of the scandium atom in all of its stages of ionization, as derived from the analyses of atomic spectra, have been critically compiled. In cases where only line classifications are reported in the literature, level values have been derived. Electron configurations, term designations, J‐values, experimental g‐values, and ionization energies are included. Calculated percentages of the two leading components of the eigenvectors of the levels are given, where available.
Revised values of the osmotic coefficients and mean activity coefficients of sodium nitrate in water at 25 °C9(1980); http://dx.doi.org/10.1063/1.555621View Description Hide Description
9(1980); http://dx.doi.org/10.1063/1.555622View Description Hide Description