Conducted in terms:
Winter Semester 2008/09
Winter Semester 2009/10
Winter Semester 2010/11
Winter Semester 2011/12
Winter Semester 2012/13

ECTS credits: 3

Language: Polish

Organized by: Faculty of Electrical Engineering

Physics - Theory of the Electromagnetic Field TS1A300015

Course content:
Vector analysis. Maxwell's equations. Boundary conditions of the electromagnetic field. Energy and power of the field. Electromagnetic waves. Wave propagation through the boundary of two media. Waves in multilayer media. Electrodynamical potentials. Transmission lines. Waveguides. Resonators. Waves propagation in the atmosphere.

(in Polish) Rodzaj przedmiotu

(in Polish) Obowiązkowy

Course coordinators

Wiesław Peterson

Learning outcomes

Learning outcomes:
EK1 - has knowledge of the vector analysis and numerical methods
EK2- has knowledge of fields and electromagnetic waves
EK3 - estimates the methods of solution of egineering problems of the electromagnetic field and choses and applies proper methods
EK4 - is able to apply the learned methods and mathematical models in the analysis of electromagnetic field problems
EK5 - is able to improve professional skills in the proces of self-education
EK6 - understands aspects and consequences of engineering activity and its influence on envirement

Assessment criteria

Exercises:
Grade 3.0
1. At least 80% attendance in classes,
2. Active participation at exercises.
3. Compiling information on electromagnetic field theory in self-education based on references and other sources
(eg Internet) EK6
4. Assesment of the test on 3.0 (solving one of two examples on at least 3.0) EK1-EK5

Grade 3,5
5. Points 1-4
6. Assesment of the test on 3,5 (solving two examples on 3.0 or one of two on at at least 4.0) EK1-EK5

Grade 4,0
7. Points 1-4
8. Assesment of the test on 4.0 (solving two examples on at at least 3.5) EK1-EK5

Grade 4,5
9. Points 1-4
10. Assesment of the test on 4,5 (solving two examples on at at least 4.0) EK1-EK5

Grade 5,0
11. Points 1-4
12. Assesment of the test on 5,0 (solving two examples on at at least 4.5) EK1-EK5

Grade for the solution of an example

Grade 3,0
1. Drowing a substitutional diagram
2. Giving simplified assumptions
3. Writing equations reffered to the diagram and assumptons

Grade 4,0

4. Points 1-3
5. Choosing proper method of solution
6. Introduction of numerical data and realisation of computations
7. Verification of the results obtained

Grade 5,0

8 Points 1-7
8. Graphical interpretation of the solution obtained
9. Conclusions following from computations
10. Comparison with other methods of the solution

Grade 3,5 and 4,5 for fulfilling requirements for grade 4,0 or 5,0, respectively, but with computational errors

Lecture:

Grade 3,0
1. Compiling information on field theory in self-education based on references and other sources
(eg Internet) EK6
2. Assesment of the exam on 3.0 (answer on 3 of 5 questions on at least 3.0) EK1-EK5

Grade 3,5
3. Points 1-2
4. Assesment of the test on 3.5 (answer on 3 of 5 questions on at least 3.5) EK1-EK5

Grade 4.0
5. Points 1-2
6. Assesment of the test on 4.0 (answer on 4 of 5 questions on at least 3.5) EK1-EK5

Grade 4,5
7. Points 1-2
8. Assesment of the test on 4,5 (answer on 4 of 5 questions on at least 4.0 or answer on all 5 questions
on at least 3.5 ) EK1-EK5

Grade 5,0
9. Points 1-2
10. Assesment of the test on 5,0 (answer on all 5 questions on at least 4.0 ) EK1-EK5

Bibliography

a) basic references:
1. Morawski T., Gwarek W.: Pola i fale elektromagnetyczne.
WNT, Warszawa 1998.
2. Morawski T. i in.: Zbiór zadań z teorii pola
elektromagnetycznego. WNT Warszawa 1990.
3. Morawski T, Zborowska J: Pola i fale
elektromagnetyczne - Zbiór zadań. Oficyna Wydawnicza
Politechniki Warszawskiej 2005.

b) supplementary references:
1. Thide B.: Electromagnetic Field Theory. Upsilon Books,
Uppsala 2009
2. Thide B. et al.: Electromagnetic Field Theory.
Excercises. Upsilon Books Uppsala 2000.