You are hereEMGU

EMGU


Elektřina a magnetismus sticky icon

Course: Electricity and magnetism

Department/Abbreviation: KEF/EMGU

Year: 2016 2017

Guarantee: 'doc. RNDr. Roman Kubínek, CSc.'

Annotation: The subject "Electricity and Magnetism" is based on lectures, numerical ecercises and practical training in laboratory. Lectures consist of historical findings and they are evolved on the basis of recent physics. Electrical and magnetical phenomenon will presented as associated with electromagnetic field. The understanding of electrical a magnetical phenomenon and their physical context with chemistry, biology and mathematics is crucial competence in this education.

Course review:
Circuit components in DC electric circuits - behaviour of resistors, capacitors and coils, methods of solving of electrical circuits, resistor bridges Circuit components in AC electric circuits - behaviour of resistors, capacitors and coils, measurements of capacitances, solving of electrical circuits and principle of superposition Nonlinear and controlled electrical components - characteristics of varistors, thermistors, diodes and light bulbs, contact resistance Basic properties of RLC electrical circuits - voltage on individual circuit components, currents in AC electrical circuits, power in AC electrical circuits, simulation software programmes Work with oscilloscope - basic operations of oscilloscope, characteristics of signals, True RMS values, Lissajous curves and measurement of phase shifts Magnetic circuit and magnetization curves - measurement of hysteresis loops, transformers, power losses in magnetic circuits Thermal dependence of electrical parameters Electromagnetic induction and magnetic field of coils Electrostatics

 

SkriptaNávod do praktik (PDF 2,3 MiB)