Applied physics, nanoelectronics and computer technology

Faculty of Radiophysics, Electronics and Computer Systems

Name
Applied physics, nanoelectronics and computer technology
Program code
105
Qualification awarded
Bachelor in Applied Physics and Nanomaterials
Length of programme
4 years
Number of credits
240
level of qualification according to the National Qualification Framework and the European Qualifications Framework
6
Qualification level
First (Bachelor)
Discipline
Natural sciences
Speciality
KnowledgeField EN
Specific admission requirements
Complete general secondary education (NQF Level 3) or higher.
Specific arrangements for recognition of prior learning
Admission was based on the results of External Independent Assessment of Ukrainian language and literature,
Qualification requirements and regulations, including graduation requirements
Attestation of higher education seekers is carried out in the form of public defense of bachelor's degree and comprehensive exam in applied physics and ends with the issuance of a standard document on awarding them a degree with higher education with a bachelor's degree: Bachelor of Applied Physics.
Programme learning outcomes
1. Know and understand modern physics at a level sufficient for solving complex specialized problems and practical problems of applied physics. 2. Apply effective technologies, tools and methods of experimental research of the properties of substances and materials, including nanomaterials, when solving practical problems of applied physics. 3. Search for the necessary scientific and technical information in the scientific literature, electronic databases, other sources, evaluate the reliability and relevance of the information. 4. Be able to apply foreign terminology to the extent sufficient for professional activity. 5. Apply modern mathematical methods for building and analyzing mathematical models of physical processes. 6. Know the goals of sustainable development and the possibilities of one's professional sphere to achieve them, including in Ukraine. 7. Apply physical, mathematical and computer models for the study of physical phenomena, development of devices and science-intensive technologies. 8. Understand the patterns of development of applied physics, its place in the development of engineering, technology and society, including in solving environmental problems. 9. Choose effective methods and instrumental means of conducting research in the field of applied physics. 10. Communicate freely on professional matters in the national and English languages orally and in writing. 11. Plan and organize effective professional activities individually and as a team member in the development and implementation of scientific and applied projects. 12. Classify, analyze and interpret scientific and technical information in the field of applied physics. 13. Present the results of research and development to specialists and non-specialists, argue their own position. 14. Assess financial, material and other costs associated with the implementation of projects in the field of applied physics, social, environmental and other potential consequences of project implementation. 15. Be able to analyze data, make generalizations and independent conclusions regarding the obtained 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, tests, current control, defense of practices, comprehensive exam in applied physics, defense of bachelor's thesis
Оbligatory or optional mobility windows (if applicable)
Students can participate in academic mobility programs.
Work placement
Research and production practice in the 4th year. Professional practice is a mandatory component of the educational program.
Work-based learning
No
Director of the course
Kovalenko Andriy
Department of Nanophysics and Nanoelectronics
Institute of High Technologies
Occupational profiles of graduates
Graduates can work as technical specialists in the field of physical sciences and technology. Work positions in educational institutions, in design and survey organizations, in research organizations, in production and scientific institutions state, corporate and private companies, other organizations that use knowledge in the fields of applied physics, electronics and information technology
Access to further studies
Access to programmes of the Second (Master) level of the higher education. Has the right to acquire additional qualifications in the adult education system.

Subjects

As part of the curriculum, students study the following disciplines

Mechanics
Code: ОК.08,
Mathematical analysis 1 semester
Code: ОК.09,
Programming Fundamentals
Code: ОК 10,
English 1 semester
Code: ОК2,
ADMISSION TO UNIVERSITY STUDIES
Code: ОК1,
Hardware and software
Code: ОК.11,
Laboratory of experimental physics 1 semester
Code: ОК 28,
Mathematical analysis 2 semester
Code: ОК.09,
Laboratory of experimental physics 2 semester
Code: ОК 28,
English 2 semester
Code: ОК2,
Molecular physics
Code: ОК.12,
Object-Oriented Programming
Code: ОК 14,
General algebra
Code: ОК.13,
Numerical methods of approximation
Code: ОК 19,
Differential equations and probability theory. Part one "Differential equations".
Code: ОК 20,
Theoretical mechanics
Code: OК.18,
Methods of mathematical physics 3 semester
Code: ОК.16,
Electricity and magnetism
Code: ОК.15,
Radio circuits and signals
Code: ОК.17,
Philosophy
Code: ОК 3,
Laboratory of experimental physics 3 semester
Code: ОК 28,
Laboratory of experimental physics 4 semester
Code: ОК 28,
Methods of mathematical physics 4 semester
Code: ОК.16,
Optics
Code: ОК 24,
Course work on electronics
Code: ОК 23,
Principles of Ecology
Code: ОК4,
ELECTRODYNAMICS 4 semester
Code: ОК21,
Differential equations and Probability theory. Part two "Probability theory"
Code: ОК 20,
Ukrainian and foreign culture
Code: ОК 5,
Socio-political studies
Code: ОК6,
Atomics
Code: ОК 25,
Oscillations and waves
Code: ОК 27,
ELECTRODYNAMICS 5 semester
Code: ОК 21,
5Laboratory of experimental physics 5 semester
Code: ОК 28,
Quantum mechanics
Code: ОК 26,
Selected sections of labor law and basics entrepreneurial activity
Code: ОК7,
Nuclear physics and astrophysics
Code: ОК 29,
The Development of Physical Theories
Code: ОК 31,
Fundamentals of physical electronics
Code: ВК 2.01,
Fundamentals of digital technology
Code: ВК 2.02,
Vacuum physics
Code: ВК 2.03,
Statistical physics
Code: ОК 30,
Quantum and Semiconductor Electronics
Code: ВК. 2.05,
Microwave electronics and electrodynamics
Code: ВК 2.06,
Plasma physics and plasma technologies
Code: ВК 2.07,
Microprocessors and Microcontrollers
Code: ВК.2.09,
Media technologies in physical electronics
Code: ВК 2.04,
Statistical radiophysics
Code: ВК 2.08,
Data processing methods
Code: ВК 1.6,
English language 7 semester
Code: ОК2,
Scientific and industrial practice
Code: ОК 32,
BACHELOR WORK
Code: ОК 33,
Basics of digital communication
Code: ВК 2.10,
Physics of Surface Phenomena
Code: ВК 2.11,
Nanoelectronics and Microwave Technique
Code: ВК 2.12,
Scientific seminar on physical electronics
Code: ВК 2.13,
Simulation of processes in plasma
Code: ВК 2.14,
RADIO ELECTRONICS
Code: ОК 22,
Data processing techniques
Code: ВК 1.6,
Semiconductor electronics of nanostructures
Code: ВБ 2.11,
Laboratory of optical, microwave and digital technology
Code: ВБ 2.14,
Seminar on quantum radiophysics.
Code: ВБ 2.13,
Quantum electronics
Code: ВК 1.11,
Electronic Physics Laboratory
Code: ВК 2.15,
Electronic Physics Laboratory
Code: ВК 2.15,
Electronic Physics Laboratory
Code: ВК 2.15,
Scientific seminar on nanophysics
Code: ВК 1.14.,
Fundamentals of Рhysical and Nanoelectronics
Code: ,
Functional Electronics
Code: ВБ 3.6,
Computer experiment in micro- and nano-electronics
Code: ВК 1.3,
Micro- and nano-electronics
Code: ВК 1.10,
Automation and management of biotechnological production
Code: OK 20,