Artículos de revistas
PRINCIPAL COMPONENT ANALYSIS OF DIPOLE-MOMENT DERIVATIVE SIGNS OF CHLOROFORM
Registro en:
Journal Of Computational Chemistry. John Wiley & Sons Inc, v. 12, n. 7, n. 885, n. 890, 1991.
0192-8651
WOS:A1991GD15800014
10.1002/jcc.540120715
Autor
SUTO, E
FERREIRA, MMC
BRUNS, RE
Institución
Resumen
The use of principal components as a basis for a graphical procedure to analyze polar tensor data is proposed. Molecular orbital and experimental polar tensor data for all possible sign combinations of the partial derivative p/partial derivative Q(j) of CHCl3 and CDCl3 are represented graphically as principal component scores facilitating sign selection for the partial derivative p/partial derivative Q(j). The graphs are particularly useful in analyzing an apparent conflict in partial derivative p/partial derivative Q(j) sign choices based on the isotopic invariance criterion and molecular orbital results for the A1 symmetry species of these molecules. The numerical impacts of individual sign ambiguities for the partial derivative p/partial derivative Q(j) on the polar tensor data are measured by the variances associated with the principal components. Assuming the partial derivative p/partial derivative Q(j) sign sets with indeterminate signs provide replicated results for the polar tensor elements, their errors are estimated and compared with errors obtained previously by propagating intensity uncertainties through the polar tensor equations. 12 7 885 890