New physical criteria for using linear artificial viscosity

obtain new sufficient conditions for the oecillation of ail solutions of the first-order linear delay differential equation d(t) +p(t)z(T(t)) = 0, with p(t) 2 0, T(t) < t. Our results improve the known resulta in the literature which include thcee obtained recently in papers by Elbert and Stavroulak

We study subgrid artificial viscosity methods for approximating solutions to the Navier-Stokes equations. Two methods are introduced that add viscous stabilization via an artificial viscosity, then remove it only on a coarse mesh. These methods can be considered as conforming, mixed methods, the fir

In this paper, we develop a B-spline collocation method using artificial viscosity for solving singularly-perturbed equations given by We use the artificial viscosity to capture the exponential features of the exact solution on a uniform mesh and use B-spline collocation method which leads to a tri

A new artificial viscosity (Q) model, based on physical conservation corrections for momentum, and a new artificial heat transfer (H ) formulation are developed for the analysis of one-dimensional compressible fluid transients in plane, cylindrical, and spherical geometries. The accuracy of these fo