Difference between revisions of "Computational electromagnetics"

From Medusa: Coordinate Free Mehless Method implementation
Jump to: navigation, search
(Created page with " == Case studies == The following pages describe the basics of computational electromagnetics, starting with relevant derivations and the basics of classical electromagnetism....")
 
Line 8: Line 8:
  
 
== Classical electromagnetism ==
 
== Classical electromagnetism ==
 +
Classical electrodynamics is historically one of the most eminent fields of physics, as an extension of classical mechanics, it is very successful in explaining a plethora of phenomena. The dynamics of electric and magnetic fields are described with Maxwell's equations

Revision as of 00:12, 10 August 2020

Case studies

The following pages describe the basics of computational electromagnetics, starting with relevant derivations and the basics of classical electromagnetism. The subpages include case studies with analytical solutions if they exist and numerical solutions.

Classical electromagnetism

Classical electrodynamics is historically one of the most eminent fields of physics, as an extension of classical mechanics, it is very successful in explaining a plethora of phenomena. The dynamics of electric and magnetic fields are described with Maxwell's equations