6B05302 - Cyberphysics | Al-Farabi Kazakh National University

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6B05302 - Cyberphysics

Educational program	6B05302 - Cyberphysics
Field of education	6B05 Natural Sciences, Mathematics and Statistics
Direction of personnel training	6B053 Physical and Chemical Sciences
Group of educational programs	B054 Physics
EP purpose	High-quality training of specialists in the field of cyberphysics capable of using theoretical knowledge and research methods in practice, possessing the knowledge and competencies in demand at work in enterprises and production companies with a high level of innovation; in companies representing innovative consulting services and in research organizations.
Language of education	Kazakh, Russian, English
Volume of the credits	240 academic credits
The awarded academic degree	Bachelor of Science on educational programs “6B05302 – Cyberphysics”
Educational outcome	Upon completion of this educational program, students are expected to be able to: ON 1. Perform the laboratory works and experimental research, based on the knowledge of modern tools in the field of physics; process the obtained data; analyze the results and make the conclusions; ON 2. Perform the analytical calculations within the framework of existing fundamental physical principles and laws, as well as apply them professionally to solve the non-standard problems; ON 3. Organize the collection, processing, analysis and systematization of scientific and technical information in the framework of the concept of lifelong learning; ON 4. Conduct a comprehensive analysis of processes and phenomena, based on a deep understanding of the fundamental laws of physics and their applicability; ON 5. Follow the professional, ethical and environmental standards, based on a critical understanding of the laws of the functioning of the humanitarian and social spheres, taking into account their significance in human life; ON 6. Select and build the computer models of physical processes and systems, as well as use the visualization tools for the obtained results; ON 7. Develop and debug the software code at the level of software modules, modify existing modules and packages to solve the application problems; ON 8. Organize the high-performance calculations, apply modern hardware and artificial intelligence methods to solve non-standard physical problems; ON 9. Conduct the market analysis of hardware and software complexes and architecture models of modern computing systems and networks; ON 10.Competently integrate the computing resources into systems of varying degrees of complexity, based on an understanding of the physical processes, occurring in them; ON 11.Develop strategies for developing of usage of databases for automation and control of physical systems, as well as the real-time decision-making; ON 12.Use the modern mathematical tools and high-level programming languages to solve the standard and research problems in the field of cyberphysics;
For applicants	https://welcome.kaznu.kz/en/education_programs/bachelor/speciality/1432
Academic activity	Academic activity of the EP is carried out: - within the framework of existing regulatory documents and methodological recommendations in the field of higher education in the field of electric power engineering sciences; - as a result of the implementation of regulatory documents regulating the educational and methodological process at the university; - generalization and dissemination of new normative legal acts concerning methodological work; - current and long-term planning of the educational and methodological work of the university; coordination of the educational and methodological complex of the discipline (EMCD) of the department for compliance with regulatory legal acts, the working curriculum and the educational program; - monitoring the provision of the educational process with teaching materials, documenting the results; - development of teaching materials; development and implementation of the working curriculum.
Scientific activity	For the implementation of the educational program at the faculty there are laboratories: Laboratories for the course of electricity and magnetism - a total area of 48 m²; Laboratories for the course of atomic physics - a total area of 48 m²; Laboratory of Electrical Engineering and Electronics - total area of 48 m²; Laboratory of physics of gas discharge and vacuum technology - the total area of 48 m²; Laboratory of mechanics - the total area of 48 m²; Laboratory of Molecular Physics - total area 48 m²; Optics laboratory - total area 48 m²; Computer classes of the faculty - total area 48 m² Scientific directions of the department of plasma physics, nanotechnology and computer physics: - scientific school Intellectual management of electric power systems - remote methods (technologies) of studying alternative energy on the example of remote access to the results of research on power plants TOKAMAK-10. - theoretical and experimental studies of dusty plasma, the creation of new models of such a plasma, the creation of new technologies based on dusty plasma. - application research: plasma technologies; their research and development - theoretical and experimental studies of dusty plasma, the creation of new models of such a plasma, the creation of new energy-intensive technologies based on dusty plasma - Organization of small-scale production of energy-saving gas-discharge lamps with increased intensity of illumination based on new technology - Development of technologies for producing nanostructured oxide semiconductors for a wide range of applications - Development of methods for the synthesis of nanostructured materials with luminescent properties. - Interrelation of nonlinear electrical, optical and fractal-geometric characteristics of nanostructured semiconductors. - Production of nanomaterials by pulsed plasma spraying and their use in production. - Development of technology for producing nano- and microglyn from montmorillonite. - - Production of nanostructured composite materials based on titanium dioxide films and metal nanoparticles and the study of their structure and electronic properties.
International activity	There are agreements with the Scientific Research Institute MEI (Russia), NSTU (Russia), the Orleans Technical Institute (France), the Valencia Political Science Institute (Spain), the Polytechnic Institute of Porto (Portugal) on academic mobility.
Quality assurance (Accreditation, rating, work with employers)	Accreditation: There is no graduation according to the educational program Rating: There is no graduation according to the educational program The educational program is relevant for a specific area of employment: For the future employment of graduates of the program, key employers are: National nanotechnological laboratory open type The Research Institute of Experimental and Theoretical Physics Scientific and technological park Laboratory engineering profile, Institute of Nuclear Physics, Physical and Technical Institute Institute of Ionosphere, JSC "National Space Center research and technology ", Institute of combustion problems, 10. Institute of Informatics and Management Problems. 11. Kazakhmys Corporation 12. OO Yer SaikaspianKontraktor