Detail publikace

ELECTROHYDRODYNAMICS AND RELATIVISTIC THEORY IN ACCURATE NUMERICAL MODELING

FIALA, P.

Originální název

ELECTROHYDRODYNAMICS AND RELATIVISTIC THEORY IN ACCURATE NUMERICAL MODELING

Anglický název

ELECTROHYDRODYNAMICS AND RELATIVISTIC THEORY IN ACCURATE NUMERICAL MODELING

Jazyk

en

Originální abstrakt

The author investigates the problem of utilizing a magnetic field coupled model and analyzes conductive area motion in a magnetic field. The analysis shows that, for exact evaluation of the influence of all effects, it is necessary to consider the phenomena related to the movement of one system relatively to the other. It is shown that related distinctive effects affect the resultant electromagnetic field istribution from the relative velocity of 1ms-1. This paper examines the problem of utilisation of the coupled magnetic field model and the subject of the conductive/dielectric area motion in a magnetic field. The model is dealt with per partes: The first aspect solved is a stationary model of a magnetic field, the following aspect consists in a quasi-stationary model for the assumed motion of elements of the task, and the last part constitutes a model respecting the relativistic principle in electromagnetic field modelling Stratton J.A., 1985.

Anglický abstrakt

The author investigates the problem of utilizing a magnetic field coupled model and analyzes conductive area motion in a magnetic field. The analysis shows that, for exact evaluation of the influence of all effects, it is necessary to consider the phenomena related to the movement of one system relatively to the other. It is shown that related distinctive effects affect the resultant electromagnetic field istribution from the relative velocity of 1ms-1. This paper examines the problem of utilisation of the coupled magnetic field model and the subject of the conductive/dielectric area motion in a magnetic field. The model is dealt with per partes: The first aspect solved is a stationary model of a magnetic field, the following aspect consists in a quasi-stationary model for the assumed motion of elements of the task, and the last part constitutes a model respecting the relativistic principle in electromagnetic field modelling Stratton J.A., 1985.

Dokumenty

BibTex


@inproceedings{BUT94779,
  author="Pavel {Fiala}",
  title="ELECTROHYDRODYNAMICS AND RELATIVISTIC THEORY IN ACCURATE NUMERICAL MODELING",
  annote="The author investigates the problem of utilizing a magnetic field coupled model and analyzes conductive area motion in a magnetic field. The analysis shows that, for exact evaluation of the influence of all effects, it is necessary to consider the phenomena related to the movement of one system relatively to the other. It is shown that related distinctive effects affect the resultant electromagnetic field istribution from the relative velocity of  1ms-1. This paper examines the problem of utilisation of the coupled magnetic field model and the subject of the conductive/dielectric area motion in a magnetic field. The model is dealt with per partes: The first aspect solved is a stationary model of a magnetic field, the following aspect consists in a quasi-stationary model for the assumed motion of elements of the task, and the last part constitutes a model respecting the relativistic principle in electromagnetic field modelling Stratton J.A., 1985.",
  address="SVS FEM, s.r.o.",
  booktitle="20th SVSFEM ANSYS Users' Group Meeting and Conference 2012",
  chapter="94779",
  howpublished="electronic, physical medium",
  institution="SVS FEM, s.r.o.",
  year="2012",
  month="october",
  pages="1--17",
  publisher="SVS FEM, s.r.o.",
  type="conference paper"
}