Why choose this specialty?
Modern technologies increasingly require the study of complex systems whose components have different physical natures. Laser radiation sources, for example, have electromagnetic, thermal, mechanical, and quantum properties. The study of such complex systems often goes beyond the boundaries of traditional disciplines and specialties. The study and management of multi-component physical systems require, on the one hand, in-depth knowledge from various branches of physics - such as mechanics, optics, electromagnetism, thermodynamics, and quantum physics, and on the other hand, the skilled use of professional software products for computer modeling.
Computer modeling is one of the main tools in the arsenal of modern engineers. It replaces many expensive physical experiments and at the same time allows obtaining the necessary information for a given technology about the properties of the studied objects and systems, and about the processes occurring in them.
The study of complex systems is gradually becoming a separate field called "multiphysics." This field studies various physical phenomena in their interrelation and has a wide range of applications - from the micro-world of atoms and molecules to the macro-world of stars and galaxies.
Computer modeling is one of the main tools in the arsenal of modern engineers. It replaces many expensive physical experiments and at the same time allows obtaining the necessary information for a given technology about the properties of the studied objects and systems, and about the processes occurring in them.
The study of complex systems is gradually becoming a separate field called "multiphysics." This field studies various physical phenomena in their interrelation and has a wide range of applications - from the micro-world of atoms and molecules to the macro-world of stars and galaxies.
The specialty "Applied Physics and Computer Modeling" aims to prepare specialists who will serve as a link between fundamental knowledge, scientific research, computer modeling, and simulations, on the one hand, and their industrial applications - on the other. Such specialists play an important role in the implementation of innovations and the latest scientific achievements.
The comprehensive approach underlying the training in the specialty forms a high degree of professional mobility and adaptability in graduates. It supports their sustainable career development and provides them with the opportunity to successfully integrate into the modern requirements of the market environment related to the development of industry and modern technological processes.

