Practical approach to implementation of neural nets at the molecular level

Neural firing is herein considered to be a sequence of changes of state of the neuron. Thus, a state diagram analysis of the neuron or of neural nets would seem to be a more natural procedure to follow than would simple logic element analysis. This paper describes a theoretical analysis of the indi

Fractional flow formulations of the multi-phase flow equations exhibit several attractive attributes for numerical simulations. The governing equations are a saturation equation having an advection diffusion form, for which characteristic methods are suited, and a global pressure equation whose form

Using a piece-wise constant potential approximation, we present an approach to one-dimensional molecular torsion calculations which avoids the step of matrix diagonalisation inherent in conventional approaches. The eigenvalues and eigenvectors, being exact solutions to an approximated problem, are r

## Abstract We have shown that the MNDO‐PM3 semiempirical molecular orbital method is capable of yielding calculated structures of oxaphosphetanes and ylides that are comparable with the experimentally known structures. The MNDO‐PM3 method also reproduces the geometric and thermodynamic parameters