23/07/2024
The laboratory of Mechanics
The mechanics laboratory is equipped with modern measuring instruments such as the modulus of elasticity and the Young's modulus, torsional vibrations and the torsion modulus, the construction of Chladni figures, mathematical and physical pendulums, the Maxwell pendulum, the Atwood machine, basic measurement methods, etc. This allows students to conduct experiments in kinematics, dynamics, solid mechanics, and explore various physical phenomena such as circular motion, the laws of conservation of energy and momentum. The use of digital technologies for data processing and modeling of mechanical systems helps students to gain a deeper understanding of theoretical concepts and their practical implementation.
The laboratory of Molecular Physics
Molecular physics studies the behavior of particles in gases, liquids and solids, and accordingly, the laboratory in this area includes installations for measuring temperature, pressure, volume, as well as for studying phenomena such as the heat capacity of gases and solids, thermal expansion and surface tension. Modern equipment and digital monitoring systems make it possible to conduct accurate experiments, for example, to measure the viscosity of a liquid and the characteristics of a gas. Students will be able not only to gain practical skills, but also to use modern software to analyze the results and develop scientific projects.
The laboratory of Electricity and Magnetism
The laboratory for Electricity and magnetism is equipped with measuring instruments for working with electrical circuits, generators, oscilloscopes, voltmeters, ammeters and magnetometers. Students will be able to conduct experiments on Ohm's laws, the study of magnetic fields, the creation and analysis of AC and DC electrical circuits, as well as the study of electromagnetic waves. It is important to use digital oscilloscopes and systems for modeling electrical processes, which contributes to a better understanding of the theory and its practical application.
The laboratory of Optics
The optics laboratory is equipped with lasers, spectrometers, interferometers, diffraction gratings and other devices to study the propagation of light, its interaction with materials, as well as to study phenomena such as refraction, reflection, interference, diffraction and polarization. It is also important to introduce computer simulators that make it possible to visualize complex optical phenomena and simulate optical systems. It helps students master key concepts such as Snellius' law, the theory of waves and the quantum properties of light.
The laboratory of Atomic and Nuclear Physics
The Laboratory of Atomic and Nuclear Physics is equipped with equipment for work related to elementary and specific electron charge, Balmer series, particle detectors, spectroscopes. Students will be able to explore the experiments of Frank-Hertz and the photoelectric effect. It is important to have high-tech systems for monitoring and analyzing radiation data, which allows students to develop skills in working with high-tech equipment and deepen knowledge in the field of modern nuclear physics.
The laboratory of Physics Teaching Methods
For the preparation of future teachers in the field of physics, the availability of specialized laboratories focused on teaching methods is extremely important. The physics teaching laboratory is equipped with modern teaching tools such as an interactive panel, multimedia tools, laboratories for conducting experiments in the classroom and programs for modeling physical processes. Students will be able to study methods of effective teaching of physics, develop and test educational programs, as well as conduct practical classes for schoolchildren using innovative teaching approaches.
The laboratory of Physics (IP)
In the second half of the 2023-2024 academic year, a physics classroom was equipped with the support of the Ministry of Science and Higher Education as part of the Modernization of Secondary Education project. As a result of equipping the physics classroom with modern educational facilities, students gain access to higher-quality education. Teachers can explain complex physical processes and phenomena more effectively, and students have the opportunity not only to study physics theoretically, but also to work with real data, conduct experiments, analyze results and draw their own conclusions.
