Faculty of Information Technology, BUT

Course details

Physics in Electrical Engineering (in English)

IFEa FEEC BUT HFYZ Acad. year 2019/2020 Winter semester 5 credits

The course presents the physical foundations of electrical engineering, i.e. both electronic and power engineering. Students receive an overview of the fundamentals of mechanics of a mass point and a rigid body, electromagnetic field theory, oscillations, waves and optics. The last lecture deals with the introduction of quantum mechanics so that the students get acquainted with the existence of quantum phenomena and the basic tools for their description.


Language of instruction



Credit+Examination (written)

Time span

26 hrs lectures, 13 hrs exercises, 13 hrs laboratories

Assessment points

60 exam, 10 half-term test, 20 labs, 10 projects




Dallaev Rashid S., Mgr. (FEEC BUT)
Jurčík Michal, Ing. (FEEC BUT)
Liedermann Karel, Doc. Ing., CSc. (DPHYS FEEC BUT)
Šik Ondřej, Ing., Ph.D. (DPHYS FEEC BUT)

Subject specific learning outcomes and competences

The students understand basic physical concepts, laws, and processes. They are able to solve simple problems concerning these laws and processes, and can realize simple physical experiments.

Learning objectives

The main objectives are: To provide the students with the clear and logical presentation of the basic concepts and principles of physics, in particular those used in electrical engineering, and to strengthen an understanding of these concepts and principles through a broad range of interesting applications.

Prerequisite kwnowledge and skills

The secondary school knowledge and pre-intermediate knowledge of English are required.

Fundamental literature

  • HALLIDAY, D., RESNICK, R., WALKER, J.: Fundamentals of Physics, Sixth Edition. Wiley International Edition, John Wiley & Sons, 2001
  • HALLIDAY, D., RESNICK, R., WALKER, J.: Fyzika. VUT v Brně - VUTIUM a PROMETHEUS. 2007 (CZ)

Syllabus of lectures

Contents and methods of physics, SI system of units. Basic concepts: Mass and fields. Mathematical tools: Vector algebra and elements of differential and integral calculus. Mechanics of the mass point. Newton's laws, momentum, work, kinetic and potential energy. Introduction to the mechanics of a rigid body. Electric charge and electric field, Gauss' law of electrostatics. Electric potential and capacitance. Electric current and resistance. Ohm's law. Magnetic field due to an electric current. The action of magnetic fields on electric charges and on current-carrying conductors. Electromagnetic induction. Maxwell's equations. Oscillations. Harmonic oscillatory motion. Mathematical and physical pendulum. Damped oscillator. Resonance. Waves. Classification. Travelling mechanical waves. Energy and power in waves. Acoustic waves. Doppler's effect. Electromagnetic waves. Optics. Reflection and refraction of electromagnetic waves. Polarization. Interference and diffraction. Introduction to modern physics. Applications.

Progress assessment

A short test, evaluation of protocols submitted in laboratories and a written final exam.

Controlled instruction

Teaching methods include lectures, seminars and practical laboratories. The course uses the support of an e-e-learning system, which is, however, used as a repository only. Students are required to write a homework (a single assignment) during the course. The evaluation includes the following components: 10 points - homework, 20 points - laboratories, 10 points - short test, 60 points - exam.
The extent of the evaluated education and the way in which the evaluation itself will be carried out are specified by a public regulation issued by the lecturer responsible for the course and updated for every academic year.


Monlecturelectures T8/020 11:0012:50 1BIA 1BIB 2BIA 2BIB 3BIT xx Liedermann
Tuelaboratoryeven week T8/317 15:0016:50 1BIA 1BIB 2BIA 2BIB 3BIT xx Dallaev, Liedermann
Tuelaboratoryodd week T8/317 15:0016:50 1BIA 1BIB 2BIA 2BIB 3BIT xx Dallaev, Liedermann
Tuelaboratoryeven week T8/317 17:0018:50 1BIA 1BIB 2BIA 2BIB 3BIT xx opakující
Tuelaboratoryodd week T8/317 17:0018:50 1BIA 1BIB 2BIA 2BIB 3BIT xx Dallaev, Liedermann
Wedexerciseeven week T12/SD1.49 11:0012:50 1BIA 1BIB 2BIA 2BIB 3BIT xx Liedermann
Wedexerciseodd week T12/SD1.49 11:0012:50 1BIA 1BIB 2BIA 2BIB 3BIT xx Liedermann

Course inclusion in study plans

  • Programme BIT, 1st year of study, Elective
  • Programme IT-BC-3, field BIT, 1st year of study, Elective
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