Lehrinhalte
Various topics are:
[list=1]
[*]Introduction
[*]Basics of FIT I
[*]Basics of FIT II
[*]Static problems (electrical/magnetical) (scalar potential)
[*]Magnetostatic problems, frequency domain
[*]Time domain integration techniques: Leapfrog I
[*]Time domain integration techniques: Leapfrog II
[*]Other physical problems: heat conduction
[*]Other discretization methods: Finite Element Method.
[/list]
Literature
Course notes will be provided via Moodle.
Voraussetzungen
Finite Integration Technique (18-dg-1030), also parallel participation possible.
Online-Angebote
moodle
Various topics are:
[list=1]
[*]Introduction
[*]Basics of FIT I
[*]Basics of FIT II
[*]Static problems (electrical/magnetical) (scalar potential)
[*]Magnetostatic problems, frequency domain
[*]Time domain integration techniques: Leapfrog I
[*]Time domain integration techniques: Leapfrog II
[*]Other physical problems: heat conduction
[*]Other discretization methods: Finite Element Method.
[/list]
Literature
Course notes will be provided via Moodle.
Voraussetzungen
Finite Integration Technique (18-dg-1030), also parallel participation possible.
Online-Angebote
moodle
- Lehrende: Sebastian Schöps
- Lehrende: Anna Ziegler
Semester: ST 2023