Analysis of numerical integration in p-version finite element eigenvalue approximation

In this article we study Galerkin finite element approximations to integral equations of the Volterra type. Our prime concern is the noncoercive case, which is not covered by the standard finite element theory. The question of rates of convergence is studied for the case where an exact stiffness mat

The aim of this paper is to present an extension of the P 1 conforming finite element method for the time-dependent Maxwell equathe handling of inhomogeneous media and boundary contions that has been previously exposed. We shall consider inhomoditions [5, 13, 14], or the ability to compute divergenc

The paper is the first in the series addressing the h-p version of the finite element method for parabolic equations. The h-p version is applied to both time and space variables. The present paper addresses the case when in time the p-version with one single time element is used. Error estimation is

## Abstract The paper is the second in the series addressing the __h‐p__ version of the finite element method for parabolic equations. The present paper addresses the case when in both variables, the spatial and time, the __h‐p__ version is used. Error estimation is given and numerical computations