- teaching methods:
- lecture with tutorials
- computer based presentation, black board and chalk
- responsible person:
- Priv.-Doz. Dr. Julian Schulze
- Priv.-Doz. Dr. Julian Schulze (ETIT), M. Sc. Birk Berger (ETIT), B. Sc. Maximilian Klich (ETIT)
- offered in:
- winter term
dates in winter term
- start: Monday the 26.10.2020
- lecture Mondays: from 14:15 to 15.45 o'clock in Online
- tutorial Tuesdays: from 08:15 to 09.45 o'clock in Online
All statements pertaining to examination modalities (for the summer/winter term of 2020) are given with reservations. Changes due to new requirements from the university will be announced as soon as possible.
|Form of exam:||written|
|Registration for exam:||FlexNow|
The students know the basic principles of the interaction between electromagnetic fields and matter. Moreover, they are familiar with basics of atomic and plasma physics, which are frequently used in various areas of electrical engineering. They are able to apply these principles to the field of plasma technology. The knowledge obtained by the students provides a basis for focusing their studies on plasma technology. Based on the obtained competences the students are able to understand and solve important physical problems of modern electrical engineering. The students develop solutions of exemplary problems in small groups and are able die present their results.
- Single particle dynamics in electromagnetic fields
- Basics of statistical physics
- Basics of atomic physics and collisions
- Particle transport in plasmas
- Fundamental characteristics of plasmas
- Heating mechanisms
- Equilibrium concepts
- Direct Current Plasmas
- High frequency Plasmas
- Topics of current research
All content can be dowloaded from the lecture website in digitalized form.
Content of the following modules:
- Mathematics 1, 2 and 3
- Experimental Physics
- General Electrical Engineering 1, 2, 3 and 4
Die Vorlesung wird im WS 20/21 online über Moodle durchgeführt. Alle Teilnehmer müssen sich vorab per Moodle für die Lehrveranstaltung anmelden (Kursnummer: 141289). Alle weiteren Infos zur Durchführung der Lehrveranstaltung sind im Moodlekurs verfügbar.