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Course syllabus D-TEP - Theory of Electromagnetic Field (FEEIT - 2019/2020 - post-graduate studies)

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University: Slovak University of Technology in Bratislava
Faculty: Faculty of Electrical Engineering and Information Technology
Course unit code: D-TEP
Course unit title: Theory of Electromagnetic Field
Mode of delivery, planned learning activities and teaching methods:
workshop2 hours weekly / 26 hours per semester of study (on-site method)

Credits allocated: 12
Recommended semester/trimester: Electromagnetic Field Theory - doctoral (compulsory), 1. year
Electromagnetic Field Theory - doctoral (compulsory), 1. year
Level of study: 3.
Prerequisites for registration: none
Assesment methods:
1. Completion of the written test during the semester with the maximum number of acquired points 30
2. Completion of the combined oral/written examination at the end of the semester with maximum number of acquire points 70
Final evaluation of the student is determined by the total number of acquired points and the assignment of the mark to the acquired points is given by the actual Study Rules.
Learning outcomes of the course unit:
The deep and detail understanding of physical principles of electroimagnetic field theory
based on Maxwell equations (ME) and their creative application at solution of real tasks in research and praxis. To cope with analytical and numerical methods of the ME solution for a given boundary conditions with the results describing the interactions of the various types of matter or defined elecromechanical systems with the source electromagnetic field. The application of the acquired knowledge in the real problem solution in the field of aplied magnetism, metalic and dielectric planar or optical fiber waveguides and so on.

Course contents:
ME for vacuum and for the matter space with linear, nonlinear, dispersive and anisotropic properties. Analytical solution of the ME using wave equations for the field vectors and using the electrodynamical potentials. Description and analysis of the electromagnetic waves propagation in waveguides - in rectangular metalic waveguide, in dielectric planar or fiber waveguide. Classification, description and analysis of the numerical methods for the solution of the boundary problems in electromagnetic field. The method of finite difference in time-domain (FDTD), finite element method (FEM). Speciac cases of the knowledge applications in the field of applied magnetism and fiber optics.

Recommended or required reading:
Haňka, L.: Teórie elektromegnetického pole. SNTL, Praha, 2002, 450 s.
Kvasnica, J.: Teórie elektromagnetického pole, Académia Praha, 1985, 450 s.
Marcuse, D: Light Transmission Optics, Van Norstrand reinhold Co., 1972, 565 pp.
Rosloniec,Stanislav: Fundamental Numerical Methods for Electricalal Engineering, Springer -Verlag, Berlin-Heidelberg, 2008, 298 pp.
Simonyi, K.:Thgeoretische Elektrotechnik, VEB Deutscher Verlag der Wissenschaften, Berlin 1968, 520 s.
Stratton, J. A.: Teórie elektromagnetického pole, SNTL, Praha, 1961, 520 s.
Tralli, N.: Classical Electromagnetic Theory, McGraw Hill Book Company, 1963 310 pp.

Language of instruction: slovak or english
Anglický jazyk je nevyhnutný pri štúdiu literárnych zdrojov.
Courses evaluation:
Assessed students in total: 5

100,0 %0 %
Name of lecturer(s): doc. Ing. Vladimír Jančárik, PhD. (examiner) - slovak, english
doc. Ing. Elemír Ušák, PhD. (person responsible for course)
Last modification: 12. 7. 2019
Supervisor: doc. Ing. Elemír Ušák, PhD. and programme supervisor

Last modification made by RNDr. Marian Puškár on 07/12/2019.

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