Studienhandbuch | KV Advanced Electrodynamics

Inhalt

[ 489ETELHEDK22 ] KV Advanced Electrodynamics

^(*) Unfortunately this information is not available in english.

Workload	Education level	Study areas	Responsible person	Hours per week	Coordinating university
3 ECTS	M1 - Master's programme 1. year	^(*)Informationselektronik	Bernhard Jakoby	2 hpw	Johannes Kepler University Linz

Detailed information

Original study plan

Master's programme Electronics and Information Technology 2025W

Learning Outcomes

Competences
Students are able to classify problems in the field of electromagnetic fields, identify boundary conditions and basic equations and find solutions.

Skills	Knowledge
Extract governing (differential) equations from the fundamental field equations and identify & apply necessary approximations (k4-k6) Formulate solution approaches mathematically and match them with boundary conditions (k4-k6) Identify solution paths and informations required to solve a field problem (k4-k6)	Vector analysis Maxwell's eqations Fields in matter Solution methods for static and dynamic fields Coupled field problems Theorems of electromagnetics and field theory

Criteria for evaluation

Written and/or oral exam

Methods

Lecture and problems (including self study/homework)

Language

German

Study material

Lecture notes and specific references and material in Moodle

Typical textbooks:

Jackson, Classical Electrodynamics
Harrington, Time-Harmonic Electromagnetic Fields
Woodsen, Electromechanical Dynamics

Changing subject?

Further information

The level of this course corresponds to [Jackson] and [Harrington]

Corresponding lecture

^(*)489ELTEENTV17: VL Höhere Elektrodynamik und Netzwerktheorie (3 ECTS) oder MEMPBKVENEF: KV Elektrische Netzwerke und elektromagnetische Felder (3 ECTS)

On-site course
Maximum number of participants	-
Assignment procedure	Assignment according to sequence