Modeling the separation of macromolecules: A review of current computer simulation methods

The complexity of the interactions of the many rules governing cell hehaviour and the changes that lead to the pathological features seen in disease is such that linking cause and effect can be very difficult. However, the use of computers to model normal biological and pathological processes provid

This paper presents a model for predicting the runtime and storage requirements for direct simulation Monte Carlo (DSMC) simulations of rarefied gas flow. A variety of flow configurations are considered, including internal, external, steady, and unsteady. The analysis is independent of the simulatio

The application of ab initio, density functional theory and molecular mechanical methods to the modelling of metallocenes, particularly ferrocene, is reviewed. Approaches to the representation of the metal-ring p-bonding in molecular mechanics and the quality of computed results from ab initio and d

Our aim in this article is to present for a very simple modelnamely a pair of ordinary coupled differential equations-some of the features of the multilevel numerical methods which have been y(0) ϭ y 0 , z(0) ϭ z 0 . (2) introduced recently for the numerical simulation of turbulent flows. The two

The application of the finite-element method to the simulation of meteorological fluid flow problems is reviewed. Early studies were aimed primarily at demonstrating the viability of the method for oneand two-dimensional flows, whereas more recent studies have been aimed at demonstrating the efficie