Theory of Electromagnetic Field

Lecturer:

Jan Macháč (gar.)

Tutor:

Jan Macháč (gar.)

Supervisor:

Department of Electromagnetic Field

Synopsis:

This course brings information on electromagnetic field computation, forming the starting ground of many other subjects and is the necessary part of the knowledge of any electro-engineer. Based on fundamentals, students learn basic characteristics and solution methods of static, stationary and time varying fields. Methods for capacitor, inductor, line, magnetic circuits and transformer design are presented togheder with wave propagation in a free space and different lines.

Requirements:

Podmínka pro zápočet: účast na soustředění. http://www.elmag.org

Syllabus of lectures:

1.Fundamental Postulates of an Electromagnetic Field, Electrostatic Field

2.Basic Methods of Electrostatic Field Calculation

3.Behavior of Materials in an Electric Field, Electric Polarisation and Electric Flux Density

4.Capacitance, Energy and Force in an Electric Field

5.Steady-State Electric Currents, Joule's and Ohm's Law

6.Stationary Magnetic Fields, Biot/Savart Law, Amper's Law

7.Behavior of Materials in a Magnetic Field, Magnetisation, Magnetic Flux Density

8.Energy, Force and Inductance in a Magnetic Field

9.Quasi-stationary Magnetic Fields, Magnetic Circuits, Faraday's Law of Electromagnetic Induction

10.Time/Varying Electromagnetic Fields and Maxwell's Equations, Energy Theorem

11.Electromagnetic Waves, Time-Harmonic Plane Electromagnetic Waves

12.Plane Waves in Lossy and Lossless Media, Polarization of Waves

13.Electric and Magnetic Skin Effect

14.Electromagnetics Waves Propagation along a Transmission Line

Syllabus of tutorials:

1.Introduction to Vector Analysis, Differential and Integral Operators, Integral Theorems

2.Electrostatic Field, Potential and Electric Field Strength Calculation 3.Capacitance Calculation for Basic Electrode Shapes

4.Energy and Force in an Electric Field, Steady-State Electric Currents

5.Stationary Magnetic Field inside and outside of Conductors

6.Self and Mutual Inductance Computation, Coaxial Cable, Two-wire Transmission Line

7.Aplication of Numerical Methods in the Electromagnetic Field - Computer Laboratory

8.Laboratory

9.Laboratory

10.Energy and Force in Magnetic Field, Magnetic Circuits11.Faraday's Law of Electromagnetic Induction, Plane Electromagnetic Wave

12.Plane Waves in Lossy and Lossless Media

13.Electromagnetics Waves Propagation along a Coaxial and Two-wireTransmission Line

14.Electric and Magnetic Skin Effect

Study Objective:

Study materials:

[1] Collin, R.E.: Field Theory of Guided Waves. 2nd Edit., IEEE Press, New York 1991

[2] Sadiku, M.N.O.: Elements of Electromagnetics. Saunders College Publishing. London, 1994

Note:

Time-table for winter semester 2011/2012:

Time-table is not available yet

Time-table for summer semester 2011/2012:

Time-table is not available yet

The course is a part of the following study plans:

• Electronics and Communication Technology - structured studies (compulsory course)
• Heavy-current Engineering- structured studies (compulsory course)
• Inteligentní systémy (elective specialized course)
• Manažerská informatika (elective specialized course)
• Softwarové inženýrství (elective specialized course)
• Web a multimedia (elective specialized course)