Courses

Main

Structural unit

Biomedical Physics, Engineering and Informatics

Faculty of Radiophysics, Electronics and Computer Systems

Name

Biomedical Physics, Engineering and Informatics

Program code

105

Qualification awarded

Master Applied Physics and Nanomaterials

Length of programme

2 years

Number of credits

120

level of qualification according to the National Qualification Framework and the European Qualifications Framework

Qualification level

Second (Master)

Discipline

Natural sciences

Speciality

KnowledgeField EN

Specific admission requirements

First cycle of higher education (NQF Level 6) or higher

Specific arrangements for recognition of prior learning

According to the results of the Unified Entrance Exam in foreign studies and the entrance professional exam
Persons, who obtained a bachelor's degree in another specialty, took an additional professional entrance exam.

Qualification requirements and regulations, including graduation requirements

Attestation of higher education seekers is carried out in the form of public defense of master's thesis and complex exam in "Radiophysics and Electronics" and ends with the issuance of a standard document on awarding them a degree with higher education: Master of Applied Physics.

Programme learning outcomes

1. Demonstrate knowledge in the field of modern applied physics and mathematics. 2. Demonstrate knowledge in the field of professional activity, technologies and methods of researching the properties of substances and materials, including nanomaterials. 3. Find scientific and technical information from various sources using modern information technologies. 4. Demonstrate knowledge of a foreign language. 5. Discuss and find solutions to problems and tasks in the implementation of scientific and technical projects. 6. Interpret scientific and technical information. 7. Apply physical, mathematical and computer models for the study of physical phenomena, devices and science-intensive technologies. 8. Develop the physical basis for the creation of new devices, apparatus, equipment, materials (including nanomaterials), substances, technologies. 9. Choose methods and tools for conducting research. 10. Use modern methods and technologies of scientific communication in Ukrainian and foreign languages. 11. Organize effective work individually and as a team member. 12. Classify and analyze information from various sources. 13. Develop and formulate professional conclusions and rationally argue them for professional and non-professional audiences. 14. Evaluate the importance of materials for achieving the goals of scientific research in the field of applied physics. 15. Be able to present and defend the received scientific and practical results in oral and written form.

Form of study

Full-time form

Examination regulations and grading scale

Written and oral exams, tests, differentiated tests, presentations, essays, tests, current control, defense of practices, comprehensive exam in medical physics, defense of master's thesis.

Оbligatory or optional mobility windows (if applicable)

Students can participate in academic mobility programs.

Work placement

Assistant practice in the 1st and 2nd semesters is a mandatory component of the educational program./

Work-based learning

Director of the course

Volodymyr Ivanovych Vysotskyy

Department of mathematics and Theoretical Radio Physics
Faculty of Radiophysics, Electronics and Computer Systems

Occupational profiles of graduates

Graduates can work as technical specialists in the field of physical sciences and technology. Jobs in companies, small enterprises and institutes of the academic, research, technological and information sector (researcher in the field of natural and technical sciences)

Access to further studies

Access to programmes of the Third Cycle of Higher Education (Doctor of Philosophy) Has the right to acquire additional qualifications in the adult education system.