Molecular mechanics calculations (MM2) on organometallanes of germanium, tin, and lead

The MM2 and MM3 force fields have been extended to cover this class of compounds. Structures, vibrational spectra, and other data for 13 compounds were examined and can be reproduced satisfactorily by MM3. Except for the spectra, the other data can be reproduced somewhat less well by MM2. by John Wi

The application of parallel processing techniques to molecular mechanics calculations is evaluated. Using the standard molecular mechanics package, MM2, four different parallel versions of the program are implemented in a four-processor computing environment. A set of 529 test structures is used to

## Abstract High‐level __ab initio__ calculations have been performed on __N__‐methyl‐__N__‐methyleneammonium and related compounds to obtain accurate rotational barriers, structures, and vibrational frequencies. The 6‐31G\*\* basis set has been utilized at the Hartree‐Fock level of theory for thes

Ab initio calculations have been carried out on s-trans-Nvinylmethyleneammonium, pyridinium, and related compounds to obtain rotational barriers, structures, and vibrational frequencies. The restricted Hartree-Fock (RHF) level of theory with 6-31G\*\* basis set was used for these calculations. In ad

Simple and very efficient formulas are presented for four-body ## Ž . out-of-plane bend used in MM2 and MM3 force fields and improper torsion Ž . used in the MM4 force field internal coordinates and their first and second derivatives. The use of a small set of bend and stretch intermediates allow