Nuclear magnetic resonance studies of internal rotation. V—Rotational barriers of acetylenic amides

## Abstract The rotational barriers about the CN bond of the N,N,N′,N′‐tetramethyldiamides of phthalic, isophthalic and terephthalic acids have been determined by the iterative total line shape NMR method. Some evidence about the conformation of these compounds in solution has also been obtained b

## Abstract The barrier to internal rotation in a series of __p__‐substituted acetophenones has been determined by means of low temperature carbon‐13 n.m.r. and total bandshape analysis, resulting in: Δ__G__ = 5·4 ± 0·1 kcal mol^−1^ (22·4 ± 0·4 kJ mol^−1^) for the unsubstituted acetophenone. The su

## Abstract The temperature dependence of the carbon‐13 NMR signals in three completely substituted 1,3,5‐trineopentylbenzenes has been studied by the Fourier transform technique. The assignment of all peaks was based on studies of 1,3,5‐trineopentylbenzene and some of its mono‐ and disubstituted d

Molecular orbital calculations of sixfold barriers in nitromethane, methyl boron difluoride, and trifluoronitromethane were performed by various Hartree᎐Fock and electron correlation methods. In those calculations, staggered and eclipsed conformations are of primary concern. These results indicated