Molecular conformation and electronic structure of 1,1'-bipyrrole. an ab initio approach

The bond Zen#hs and angles obtained by means of a 4-31G basis agee aith electron diffraction ddtd\_ The calculated Si-0-Si bending potenti& shoning a minimum for the linear xrangement. is discussed \\ith regard to avadsble experimental information. Calcutated dipole moments and ionization potenti&

The predicted structures of the 1-and 2-hydrotrioxy radical are similar at the Brueckner doubles and density functional (B-LYP) levels of theory, but differ from those found using ab initio methods employing a lower level of electron correlation.

## Abstract __Ab initio__ computations indicate the existence of several stable and some unstable conformers in isolated α and β glucose molecules. All of the lower‐energy conformers exhibit a strikingly regular pattern of internal hydrogen bonding. Five such stable structures have been identified

Two LCGO minimal basis (7/3/3) calculations are reported using best atom and scaled gaussian functions. The electron spectrum (ESCA) of the core and wlency shell orbit& is obtained, for the title compound norbornadiene. '.

## Abstract The calculated result obtained with MM2(87) for the rotation of the isopropyl group in 3‐methyl‐1‐butene is not in agreement with experimental data. In order to reparametrize the C~__sp__~2‐C~__sp__~3‐C~__sp__~‐C~__sp__~3 torsional angle, 3‐methyl‐1‐butene and 1‐butene have been studied