# The cycle of humanitarian and socio-economic disciplines

- Foreign language
- History of Ukraine
- The history of Ukrainian culture
- Politics
- Ukr.language
- Physical culture
- Philosophy

# The cycle of disciplines of natural science (basic) training

- Analytical geometry
- Higher mathematics
- Differential and integral equations
- Electrodynamics
- Quantum mechanics
- Mathematical analysis
- Theoretical mechanics
- Physics
- Method of math. physics 1
- Method of math. physics 2
- The theory of probability
- Thermodynamics and static physics

# The cycle of disciplines of professional and practical training

- Life Safety
- Vacuum electronics
- Quantum electronics
- Quantum radiophysics
- Oscillations and waves
- Fundamentals of metrology in applied physics
- Fundamentals of electronics
- Safety in the industry
- Programming comp. graphics
- Radiotechnical circuits and signals
- Solid-state electronics
- Engineering and electronics UHF
- Physics of semiconductors
- Theory of fields
- Numerical methods electronics

# Disciplines of independent choice of the education

- Introduction to specialty
- Informatics
- Information technology and systems
- Nonlinear radiophysics
- Optoelectronics
- Statistical radiophysics
- Theory of informations
- Theory of wave processes
- Physics UHF

# Discipline of student’s free choice

# Special disciplines

## Theoretical radiophysics

- Analytical and numerical methods for electromagnetic wave propagation in complex environments
- Introduction to the theory of metamaterials for microwave and optical ranges
- Electrodynamic model of compositional environments
- Electrodynamic modeling of practical problems
- Fundamentals of theoretical Radiophysics
- The principle of archiving and processing of information
- Principles of electronic control systems and their software
- Numerical methods in electromagnetics
- Wideband and ultrashort impulse signals

## Quantum radiophysics

- Introduction to quantum radiophysics
- Interaction of laser radiation
- Introduction to laser physics
- Molecular spectroscopy
- Fundamentals vacuume technology
- Applied Optics

## Physical and biomedical electronics and complex information technology

- Analog and digital circuitry
- Electronics of semiconductors devices
- Electronics of semiconductors devices1
- Medical-biologist. research
- Optoelectronics
- Solid-state physics

## Physics UHF

- 4-pole functions
- Fundamental of microwaves
- Microwave energetics
- Computer modeling of elements and circuits in UHF and SHF
- Waveguide structures and circuits in UHF and SHF bands
- Methods of electrodynamics problems solutions
- Microelectronic microwave devices
- Numerical methods of electrodynamics
- Optoelectronics wave processes
- Computational methods

## Radio measurements

- Limit of measurement
- Electrical measurements
- Laser optics
- Mathematical modeling
- Fundamental of the scient. research
- Fundamental of radіooptics
- Experiment and results processing

## Space radiophysics

- Introduction to radioastronomy
- Modeling of space plasma
- Fundamental of aeronomy
- Propagation of radioWaves
- Problems astrophysics
- Radioastronomy measurements
- Simplified equations
- Theoretical astrophysics
- Physics of the atmosphere
- Physics Space Plasma

## Applied electrodynamics

- Introduction to specialty
- Mathematical theory of excitation of electromagnetic waves
- Methods of computational mathematics in the theory of radiation of electromagnetic waves
- Scattering of electromagnetic waves on the slot and dipole inhomogeneities
- Theory of antennas with controlled radiation
- Theory of radiation of electromagnetic waves and microwave antennas
- Physics element antenna and feeder