Existence, Regularity, and Decay Rate of Solutions of Non-Newtonian Flow

The equations of motion (continuity and momentum) describing the steady flow of incompressible power law liquids in a model porous medium consisting of an assemblage of long cylinders have been solved numerically using the finite difference method. The field equations as well as the pertinent bounda

## Abstract The existence of solutions to the nonlinear equations including the equation of flotating water is proved using the subellipticity of an operator in the equation and the contraction argument. Moreover a regularity result is given.

## Communicated by M. Renardy Large class of non-Newtonian fluids can be characterized by index p, which gives the growth of the constitutively determined part of the Cauchy stress tensor. In this paper, the uniqueness and the time regularity of flows of these fluids in an open bounded three-dimen

Long-time behavior and regularity are studied for solutions of the Stark equation It is shown that for a class of short-range potentials V(x) the gain of local smoothness and the decay as |t| Ä are close to those of the corresponding Schro dinger equation u t =i(&2+V(x)) u.