The Laboratory of Physics of Electrical and Electromagnetic Research is located in room 334 of the educational building No. 3 of the Hetman Petro Sahaidachnyi National Army Academy. The Laboratory was established in 2009. It was one of the first specialized laboratories created at the department, which was equipped with specialized stands and devices, most of which are unique and were created by the founders of this laboratory: Professor Chikh Volodymyr Ivanovych, Professor Baran Svyatoslav Romanovych, Head of the Department of Electromechanics and Electronics Yurii Shabatura, Head of the Laboratory of Physics of Mechanics and Optical Research Volodymyr Mazur. Today, the baton from their respected predecessors is worthily carried on by experienced teachers of the department: Professor Olena Fitsych, Professor Serhii Malynych, and Associate Professor Bohdan Seredyuk, curator of the laboratory.
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Head of the Laboratory Susol Natalia Yurievna |
Laboratory curator Candidate of Physical and Mathematical Sciences Associate Professor Seredyuk Bohdan Oleksandrovych |
The laboratory is intended for conducting laboratory classes in the discipline “Physics”. The list of topics in the curriculum of the discipline “Physics” for which laboratory work is carried out in the laboratory: - Molecular physics and thermodynamics. - Oscillations and waves - Electrostatics - Direct electric current. - Electromagnetism. List of titles of laboratory works carried out in the laboratory: - Determination of the coefficient of thermal expansion of solids. - Determination of the coefficient of viscosity of air and the average free path length of air molecules. - Determination of the viscosity coefficient of motor oil by the Stokes method. - Determination of the adiabatic index by the Clement-Desorme method. - Determination of the capacitance of a capacitor and verification of the laws of electrostatics. - Study of Ohm's law for a DC circuit and verification of the laws of series and parallel connection of conductors. - Determination of the internal resistance and short-circuit current of the tank engine battery. - Determining the resistance of conductors using a DC bridge (Whitston). - Determination of the resistivity of the conductor material using an ammeter and a voltmeter. - Determination of the resistivity of conductors using a DC bridge (Whitston). - Determination of the temperature coefficient of resistance of conductors. - Graduation of the thermocouple. - Checking Ohm's law in an alternating current circuit with an electric capacity. - Study of Ohm's law and determination of power factor in an AC circuit. - Determining the inductance of a coil. - Study of the AC energy meter. - Study of forced electrical oscillations in an oscillating circuit. - Study the principle of operation of a transformer and determine its efficiency. - Determination of the induction of the Earth's magnetic field using an earth inductor.
The laboratory is equipped with the following devices:
Installation for determination of the air viscosity coefficient and the average free path length of air molecules |
Installation for determining the viscosity coefficient of motor oil by the Stokes method |
Installation for determination of the adiabatic index by the Clement-Desorme method |
Setup for testing Ohm's law in an alternating current circuit with electric capacitance |
Setup for studying Ohm's law for a DC electric circuit and checking the laws of series and parallel connection of conductors |
Installation for determining the resistance of conductors using a DC bridge (Whitston) |
Installation for determining the resistivity of a conductor material using an ammeter and a voltmeter |
Installation for studying the AC energy meter |
Installation for studying the principle of operation of a transformer and determining its efficiency |
Installation for determining the capacitance of a capacitor and testing the laws of electrostatics |
The further development of the Laboratory of Electricity and Electromagnetism is associated with the introduction of new electronic measuring devices and microprocessor technology in the laboratory workshop. This will allow cadets not only to study the laws of electromagnetism but also to gain practical experience in using modern measuring devices. At the same time, the use of modern measuring equipment will significantly expand the scope of existing laboratory work. 