Finite elements in the solution of electromagnetic induction problems

A finite-difference time-space numerical algorithm for the analysis of transient electromagnetic fields is proposed based on the expression of the field vectors in terms of vector potential functions. The method allows for both integral and finite-difference ( ) calculation of the potential function

## Abstract In this paper, we analyze the performances of three‐dimensional finite element (FE) simulators in handling electromagnetic scattering problems involving metamaterials. It has already been proved that the performances of the FE method are worse than usual, when metamaterials are consider

## Abstract In this paper two plane strain quadrilateral elements with two and four variables, are proposed. These elements are applied to the analysis of finite strain elasto‐plastic problems. The elements are based on the enhanced strain and B‐bar methodologies and possess a stabilizing term. The

In this paper, we consider a city with a highly compact Central Business District (CBD), and the commuters' destinations from the CBD are dispersed over the whole city. The street network is approximated as a continuum and commuters' movements in the city are measured by the flow intensity, and the

< < improved thermal performance of S in the SirSi Ge rSi 21 1yx x HBT. Regarding the high-frequency performance of the SirSi Ge rSi HBTs measured in this study, it should be 1yx x noted that these devices do not represent the optimum performance attainable. IV.