Inhalt

[ 281ETELTETU20 ] UE Theoretical Electrical Engineering

Versionsauswahl
Es ist eine neuere Version 2022W dieser LV im Curriculum Master's programme Mechatronics 2024W vorhanden.
(*) Unfortunately this information is not available in english.
Workload Education level Study areas Responsible person Hours per week Coordinating university
1,5 ECTS B3 - Bachelor's programme 3. year Mechatronics Bernhard Jakoby 1 hpw Johannes Kepler University Linz
Detailed information
Original study plan Bachelor's programme Mechatronics 2020W
Objectives In depth mathematical development of base concepts covered in the lecture
Subject
  • Introduction to field theory: scalar fields, vector fields, operators and differential operators, setting-up and solving of line integrals.
  • Electric field, electrostatics: Coulomb's law, force on sample charge, superposition, potential, potential energy, Maxwell equations 2 and 3, electrostatic fields in matter, behavior at interfaces, capacitance, differential Maxwell equations.
  • Steady state electric current field: electric field inside a conductor, current, current density, drift velocity of electrons, resistors, Kirchhoff law for nodes, Kirchhoff law for meshes.
  • Magnetic field, magnetostatics: force on moving charge, matter in magnetic field, Maxwell equations 1 and 4 (magnetostatic!), generation by currents, induction, coupling of electric and magnetic fields, time dependent Maxwell equations, forces in magnetic field, Hall effect.
  • Electrodynamics and Electromagnetic Waves
Criteria for evaluation Written tests
Language German
Study material Exercise compendium
Changing subject? No
Corresponding lecture (*)ist gemeinsam mit 281ETELELTU20: UE Elektrotechnik (1,5 ECTS) äquivalent zu
MEBPDUEETE2: UE Elektrotechnik 2 (2,5 ECTS)
On-site course
Maximum number of participants 35
Assignment procedure Assignment according to sequence