The main criterion for the completion of the educational process for the preparation of masters of the scientific and pedagogical direction is the development of at least 88 credits of theoretical training, including 6 credits of pedagogical practice, 13 credits of research practice, as well as at least 24 credits of research work of a master's student, including internships and the completion of a master's thesis, at least 8 credits of the final attestations . A total of 120 credits.
2 years.
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Awarded degree / qualificationMaster of Natural Sciences in «7M05302 Technical Physics» educational program
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Name of the profession / list of positions of a specialistHead of the reactor (accelerator, nuclear physics plant), design engineer, physics engineer, junior researcher, senior laboratory assistant, college lecturer, Lecturer, Senior Lecturer in Education, Organisations of Higher and Postgraduate Education OHPE.
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OQF qualification level (industry qualification framework)7
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Area of professional activityIndustry, energy industry, education, science, medicine.
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Object of professional activityEnterprises and firms of energy and technological profiles. Research institutions. Higher and secondary specialized educational institutions. Radiation Diagnostics and Therapy Centers.
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Types of professional activityExperimental and research. Organizational and managerial. Educational (teaching).
Learning outcomes for the module:
Develops sociolinguistic competencies and the ability to apply fundamental scientific, pedagogical, managerial, and communicative knowledge and skills in professional activities.
Learning outcomes for the module:
To form a strategy and structure for the organisation of scientific research and physical and mathematical modelling of nuclear installations using artificial intelligence. To form the strategy and structure of the organisation of scientific research and computer-aided design including the possibilities of artificial intelligence in low-potential energy. To form the strategy and structure of the organization of scientific research in the field of measurement of ionizing radiation and mathematical methods of analysis for biomedical research. To develop measures for safe operation and research on modern NPPs, engineering networks and equipment. To operate with the fundamental concepts of modern physics in the field of visualization methods and nuclear-physical methods of diagnosis and therapy. To operate information in the field of modern nuclear power plants, thermonuclear energy in matters of their safe operation and research activities. To operate information in the field of modern low-temperature systems and research activities. To operate information in the field of modern ionizing medical systems and research activities.
Learning outcomes for the module:
To form a strategy and structure for the organisation of scientific research and physical and mathematical modelling of nuclear installations using artificial intelligence. To operate the fundamental concepts of modern physics in the field of nanotechnology, non-Newtonian fluids and energy production. To operate with the fundamental concepts of modern physics in the field of visualization methods and nuclear-physical methods of diagnosis and therapy. To operate information in the field of modern nuclear power plants, thermonuclear energy in matters of their safe operation and research activities. To operate information in the field of modern low-temperature systems and research activities. To operate information in the field of modern ionizing medical systems and research activities.
Learning outcomes for the module:
To form a strategy and structure for the organisation of scientific research and physical and mathematical modelling of nuclear installations using artificial intelligence. To form the strategy and structure of the organisation of scientific research and computer-aided design including the possibilities of artificial intelligence in low-potential energy. To form the strategy and structure of the organization of scientific research in the field of measurement of ionizing radiation and mathematical methods of analysis for biomedical research. To develop measures for safe operation and research on modern NPPs, engineering networks and equipment. To operate the fundamental concepts of modern physics in the field of nanotechnology, non-Newtonian fluids and energy production. To operate with the fundamental concepts of modern physics in the field of visualization methods and nuclear-physical methods of diagnosis and therapy. To operate information in the field of modern nuclear power plants, thermonuclear energy in matters of their safe operation and research activities. To operate information in the field of modern low-temperature systems and research activities. To operate information in the field of modern ionizing medical systems and research activities.