phy520 - Electrodynamics and Optics - Campusmanagementsystem Stud.IP

Institut für Physik

9 KP

Modulteile

Semesterveranstaltungen Sommersemester 2020

Prüfungsleistung

Vorlesung

5.04.614 - Electrodynamics and Optics
- Prof. Dr. Steven van de Par
Montag: 16:00 - 18:00, wöchentlich (ab 20.04.2020), Ort: (online)
Mittwoch: 12:00 - 14:00, wöchentlich (ab 15.04.2020), Ort: (online)
Termine am Dienstag, 21.07.2020 14:30 - 15:30, Mittwoch, 29.07.2020 17:00 - 19:00, Dienstag, 13.10.2020 14:30 - 15:30, Mittwoch, 14.10.2020 08:00 - 10:00, Ort: V03 0-C001, V03 0-C002, V03 0-D002 (+5 weitere)
Basics of Electrostatics Matter in an electric field The magnetic field Electrical circuits Motion of charges in electric and magnetic fields Magnetism in matter Induction Electromagnetic waves Light as electromagnetic wave
5.04.633 - Optical Systems
- Markus Schellenberg
Montag: 12:00 - 14:00, wöchentlich (ab 20.04.2020)

Corona Update: Dear students, - the course starts on 20.04.2020 - until further notice this course will be offered online only (StudIP) - please do not (!) come to the lecture room - the content is provided by a mixture of extended presentation slides, self-study, forum contributions and online self-tests (Vips). - further online offers may follow - further information can be found in the StudIP Forum for this course, these will be updated and supplemented throughout the semester - It has not yet been decided whether the form of examination (currently written examination) will change Here is a list of the topics covered in the lecture: Fundamentals of optics and theoretical models of light Ray optics, geometrical optics, validity range and applications Behaviour and properties of EM waves and applications Optical imaging Imaging construction elements Microscopy Colours Set-up and function of selected optical systems for illumination and metrology Optical Fibers

Übung

5.04.614 Ü1 - Electrodynamics and Optics
- TutorInnen, der Physik
Dienstag: 10:00 - 12:00, wöchentlich (ab 14.04.2020)

Basics of Electrostatics Matter in an electric field The magnetic field Electrical circuits Motion of charges in electric and magnetic fields Magnetism in matter Induction Electromagnetic waves Light as electromagnetic wave
5.04.614 Ü2 - Electrodynamics and Optics
- TutorInnen, der Physik
Dienstag: 14:00 - 16:00, wöchentlich (ab 14.04.2020)

Basics of Electrostatics Matter in an electric field The magnetic field Electrical circuits Motion of charges in electric and magnetic fields Magnetism in matter Induction Electromagnetic waves Light as electromagnetic wave
5.04.614 Ü3 - Electrodynamics and Optics
- TutorInnen, der Physik
Dienstag: 10:00 - 12:00, wöchentlich (ab 14.04.2020)

Basics of Electrostatics Matter in an electric field The magnetic field Electrical circuits Motion of charges in electric and magnetic fields Magnetism in matter Induction Electromagnetic waves Light as electromagnetic wave
5.04.614 Ü4 - Electrodynamics and Optics
- TutorInnen, der Physik
Dienstag: 14:00 - 16:00, wöchentlich (ab 14.04.2020)

Basics of Electrostatics Matter in an electric field The magnetic field Electrical circuits Motion of charges in electric and magnetic fields Magnetism in matter Induction Electromagnetic waves Light as electromagnetic wave

Hinweise zum Modul

Teilnahmevoraussetzungen	Mechanics
Prüfungsleistung Modul	2 exams: 180 min written exam or 60 min oral exam. [Here]http://www.uni-oldenburg.de/en/physics/studies/bonus-points/ , you will find information about the consideration of bonus points for module marks.
Kompetenzziele	Electrodynamics and optics: Students will be able to understand the electric and magnetic phenomena and their treatment by an electromagnetic field including electromagnetic waves - with special emphasis on light. Optical systems: The students should be able with the help of optics basics to apply the optics to solve questions of informatics and measurement technology illumination technology materials processing with laser beams and the development of optical mechanical instruments and systems to implement the field of optics and to solve engineering questions.

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