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Electromagnetics for Engineers I: Time-Independent Fields (GÜ)

Subtitle:

This course is part of the module: Electromagnetics for Engineers I: Time-Independent Fields

Semester:

SoSe 24

Course type:

Exercise

Course number:

lv2282_s24

Lecturer:

Dr. Cheng Yang, Prof. Dr. sc. techn. Christian Schuster

Description:

- Maxwell’s Equations in integral and differential notation

- Boundary conditions

- Laws of conservation for energy and charge

- Classification of electromagnetic field properties

- Integral characteristics of time-independent fields (R, L, C)

- Generic approaches to solving Poisson’s Equation

- Electrostatic fields and specific methods of solving

- Magnetostatic fields and specific methods of solving

- Fields of electrical current density and specific methods of solving

- Action of force within time-independent fields

- Numerical methods for solving time-independent problems

Performance accreditation:

m1501 - Electromagnetics for Engineers I: Time-Independent Fields<ul><li>p1452 - Electromagnetics for Engineers I: Time-Independent Fields: Klausur schriftlich</li></ul>

ECTS credit points:

1

Stud.IP informationen about this course:

Home institute: Institut für Theoretische Elektrotechnik (E-18)
Registered participants in Stud.IP: 26
Documents: 23

former semester

link to course in Stud.IP

Studip_icon

Electromagnetics for Engineers I: Time-Independent Fields (GÜ)

Subtitle:

This course is part of the module: Electromagnetics for Engineers I: Time-Independent Fields

Semester:

SoSe 24

Course type:

Exercise

Course number:

lv2282_s24

Lecturer:

Dr. Cheng Yang, Prof. Dr. sc. techn. Christian Schuster

Description:

- Maxwell’s Equations in integral and differential notation

- Boundary conditions

- Laws of conservation for energy and charge

- Classification of electromagnetic field properties

- Integral characteristics of time-independent fields (R, L, C)

- Generic approaches to solving Poisson’s Equation

- Electrostatic fields and specific methods of solving

- Magnetostatic fields and specific methods of solving

- Fields of electrical current density and specific methods of solving

- Action of force within time-independent fields

- Numerical methods for solving time-independent problems

Performance accreditation:

m1501 - Electromagnetics for Engineers I: Time-Independent Fields<ul><li>p1452 - Electromagnetics for Engineers I: Time-Independent Fields: Klausur schriftlich</li></ul>

ECTS credit points:

1

Stud.IP informationen about this course:

Home institute: Institut für Theoretische Elektrotechnik (E-18)
Registered participants in Stud.IP: 26
Documents: 23

Courses

For information on courses and modules, please refer to the current course catalogue and module manual of your degree programme.

Module / Course	Period	ECTS Credit Points
Module: Electrical Power Systems I: Introduction to Electrical Power Systems	WiSe	6
Module: Electrical Power Systems II: Operation and Information Systems of Electrical Power Grids	WiSe	6
Module: Electrical Power Systems III: Dynamics and Stability of Electrical Power Systems	SuSe	6
Module: Electrical Engineering II: Alternating Current Networks and Basic Devices	SuSe	6
Module: Electrical Engineering Project Laboratory	SuSe	6
Module: Process Measurement Engineering	SuSe	4
Module: Smart Grid Technologies	WiSe, SuSe	6
Course: Seminar on Electromagnetic Compatibility and Electrical Power Systems Further Information	WiSe, SuSe	2

SuSe: Summer Semester
WiSe: Winter Semester

TU Hamburg

Institute of Electrical Power and Energy Technology (ieet) E-6

Prof. Dr.-Ing. Christian Becker

Harburger Schloßstraße 36

21079 Hamburg

E-mail : ieet(at)tuhh.de

Phone : +49 40 42878 3213

Fax : +49 40 42878 2382

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