Course­ Manual TED

Theoretical Electro Dynamics


PDF Course Catalog Deutsche Version: TED

Version: 5 | Last Change: 02.11.2019 16:14 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben

Long name Theoretical Electro Dynamics
Approving CModule TED_MaET
Responsible
Prof. Dr. Karl Kohlhof
Professor Fakultät IME
Valid from summer semester 2021
Level Master
Semester in the year summer semester
Duration Semester
Hours in self-study 78
ECTS 5
Professors
Prof. Dr. Karl Kohlhof
Professor Fakultät IME
Requirements Vector analysis
Language German
Separate final exam Yes
Literature
Lehner: "Elektromagnetische feldtheorie für Ingenieure", Springer-Verlag
Wunsch: "Elektromagnetische Felder", Verlag technik
Final exam
Details normally written ( low number of candidates: oral)
Minimum standard grade 4.0
Exam Type EN Klausur

Learning goals
Goal type Description
Knowledge Introduction into Electro Dynamics
Charges, currents
Forces, fields
Knowledge Classical Electro Dynamics
Electrostatics
Field, potential
Polarization
Electrostatic energy
Capacity
Multi pole development
Interaction of charge distributions
Stationary electrical field
Magnetostatics
Stationary magnetical field
Vector potential
Magnetization
Magetostatic energy
Inductivity
Quasi stationary electromagnetic fields
Induction effects
Skin effect
Rapidly changing electromagetic fields
Electromagnetic wves
Reflection and diffraction
Skills Knowledge of meaning of Maxwell- and material equations
Skills Dervation of electric/magnetic potential/field from charge/current distributions
Skills Development of potential / field to monopole, dipole, quadrupole and higher moments
Skills Caculation of capacity/inductivity to charge/current distributions from energy balance
Skills Derivation of Continuity equation, Kirschhoff Laws from Maxwell equations
Skills Derivation and solving of diffusion/wave equations from Maxwell equations
Skills Solving of macroscopic problems by intergation of microscopic/differential description
Skills Solving of training examples
Expenditure classroom teaching
Type Attendance (h/Wk.)
Lecture 3
Exercises (whole course) 1
Exercises (shared course) 0
Tutorial (voluntary) 0
Special requirements
Mathematics, Linear algebra, Vetor analysis
Accompanying material electronic pdf script of lecture/presentation, electronic pdf file with training examples
Separate exam No

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