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Course: Theoretical Electrical Engineering

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Course title Theoretical Electrical Engineering
Course code MTI/TEE-Z
Organizational form of instruction Lecture + Lesson
Level of course Bachelor
Year of study not specified
Semester Summer
Number of ECTS credits 4
Language of instruction Czech
Status of course Compulsory
Form of instruction Face-to-face
Work placements Course does not contain work placement
Recommended optional programme components None
Lecturer(s)
  • Richter Aleš, prof. Ing. CSc.
  • Eichler Jakub, Ing. Ph.D.
Course content
Lectures 1. Stationary electromagnetic field 2. Steady electromagnetic field 3. Non-stationary, electrodynamics 4. Electrochemical process in tissue 5. Electromagnetic induction 6. Theory of linear electrical circuits. 7. Power of direct and alternate currents 8. Electromagnetic waves, equations, planar waves 9. Energy of electromagnetic waves 10. Phenomenon of boundary 11. Excitation of electromagnetic waves 12. Distributed electrical circuits 13. Electromagnetic screening, radio-shielding Practice 1. Computation exercise, fundamental quantity of electromagnetism 2. Laboratory experiment, measurement of electrostatic fields 3. Laboratory experiment, measurement earth and artificial magnetic fields 4. Laboratory experiment, fundamental electric circuit measurements 5. Laboratory experiment, fundamental electric circuit measurements 6. Computation exercise, electric circuit analysis 7. Laboratory experiment, power measurements 8. Computation exercise, power and energy examples 9. Laboratory experiment, electrochemical process in tissue 10. Laboratory experiment, electric field strenght measurement 11. Laboratory experiment, absorption microwave energy in tissue 12. Computation exercise, specific absorption rate, SAR 13. Completion checking

Learning activities and teaching methods
Monological explanation (lecture, presentation,briefing)
  • Class attendance - 70 hours per semester
Learning outcomes
Practical knowledge of theoretical electrical engineering with accent on linear and distributed circuit, introduction of electromagnetic field theory.
Understanding for practical using of electromagnetic field in medical diagnostics and therapy.
Prerequisites
Basic knowledge of secondary school physics.

Assessment methods and criteria
Written exam

Credit: Participation at seminars Exam: written part with examples, written part with theory
Recommended literature
  • Benešová, Z., Mayer, D. Základní příklady z teorie elektromagnetického pole.
  • Edminister, J. A. Electromagnetics, Crash course. McGraw-Hill, USA, 2003.
  • Haňka, L. Teorie elektromagnetického pole. SNTL, Praha, 1975.
  • Mayer, D. Teorie elektromagnetického pole (2 díly). ZČU, Plzeň, 2004.
  • Umran, S. I., Avis, S. I. Engineering Electromagnetics. Addison Wesley Longman, USA, 1999.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
Faculty: Faculty of Health Studies Study plan (Version): Biomedical Technology (12) Category: Special and interdisciplinary fields 1 Recommended year of study:1, Recommended semester: Summer
Technical University of Liberec, date of update: 19.04.2024 23:50.