Consultations on selected topics according to the dissertation thesis:
- Quality and quantity of electromagnetical phenomena, concep definition: voltage, current, power, energy.
- Scalar product of measurable time varying function, base function, integral transformation of time varying function, definition of root-mean-square value by means of scalar product, active and reactive component of power, quantities and immittances.
- Analysis of periodical non-harmonic functions by Fourier`s series.
- Discussion of power defined via Fourier`s series.
- Elementary circuit models of electromagnetical phenomena. Equivalence and duality priciple.
- Definition of circuit parameters of electromagnetical phenomena.
- Analysis of elementary models, definition of time constant and quality factor.
- Definition of power non-active component.
- Transformation of circuit equations.
- Power frequency spectrum, conversion of frequecy spectrum, Tellegen`s theorem.
- Analysis by means of graphical methods.
- Numerical method for working of measured circuit quantities.
- Determination of efficiency and power factors.
- Electromagnetical interference and compatibility.
- Imaging of choosen time varying function, application of physical laws.
- Calculation of scalar product, definition of root-mean-square
- Calculation of Fourier`s series coefficient, analysis of elementary circuit.
- Setting and analysis of 1 th semestral work.
- Discussion of power calculated via Fourier`s series.
- Calculation of circuit parameters via current and voltage wave.
- Calculation of active and reactive component of power, quantities and immittances.
- Formulation of mathematical models with lossless elements.
- Setting and analysis of 2 nd semestral work.
- Circuit analysis via Tellegen` theorem.
- Calculation of quality factor, loss angle and time constant via scalar product of current and voltage waves.
- Discussion of modern method for signal processing.
- Discussion and analysis of relegated semestral work.
- Quality and quantity of electromagnetical phenomena, concep definition: voltage, current, power, energy.
- Scalar product of measurable time varying function, base function, integral transformation of time varying function, definition of root-mean-square value by means of scalar product, active and reactive component of power, quantities and immittances.
- Analysis of periodical non-harmonic functions by Fourier`s series.
- Discussion of power defined via Fourier`s series.
- Elementary circuit models of electromagnetical phenomena. Equivalence and duality priciple.
- Definition of circuit parameters of electromagnetical phenomena.
- Analysis of elementary models, definition of time constant and quality factor.
- Definition of power non-active component.
- Transformation of circuit equations.
- Power frequency spectrum, conversion of frequecy spectrum, Tellegen`s theorem.
- Analysis by means of graphical methods.
- Numerical method for working of measured circuit quantities.
- Determination of efficiency and power factors.
- Electromagnetical interference and compatibility.
- Imaging of choosen time varying function, application of physical laws.
- Calculation of scalar product, definition of root-mean-square
- Calculation of Fourier`s series coefficient, analysis of elementary circuit.
- Setting and analysis of 1 th semestral work.
- Discussion of power calculated via Fourier`s series.
- Calculation of circuit parameters via current and voltage wave.
- Calculation of active and reactive component of power, quantities and immittances.
- Formulation of mathematical models with lossless elements.
- Setting and analysis of 2 nd semestral work.
- Circuit analysis via Tellegen` theorem.
- Calculation of quality factor, loss angle and time constant via scalar product of current and voltage waves.
- Discussion of modern method for signal processing.
- Discussion and analysis of relegated semestral work.