Master degree program
Applied physics and electrical engineering

Applied physics and electrical engineering

QUALIFICATION

  • Scientific and pedagogical direction - Master of Engineering Sciences

MODEL OF GRADUATING STUDENT

Осы бағдарламаны аяқтағаннан кейін бакалаврлар келесі қабілеттерге ие болады деп күтіледі /По завершении данной программы ожидается, что бакалавры будут способны/ Upon completion of this program, it is expected that undergraduates will be able to
ON1. инновациялық технологияларды тиімді дамытуға және күрделі инженерлік мәселелерді шешуге бағытталған күрделі физикалық және электр техникалық жүйелерді талдау және модельдеу;
ON2. әр түрлі салаларда физикалық принциптер мен электр инженерлік шешімдерді қолдануға байланысты жобаларға белсенді қатысу, осылайша командада жұмыс істеудің практикалық тәжірибесі мен дағдыларын алу;
ON3. электр инженериясындағы әртүрлі процестерді талдау және диагностикалау үшін қолданылатын арнайы құралдарды, әдістер мен әдістемелерді пайдалану дағдыларын меңгеру;
ON4. ғылыми және технологиялық салалардағы прогреске ықпал ете отырып, қолданбалы физика және электр инженериясы саласындағы инновациялық шешімдерді әзірлеу және енгізу үшін дағдылар мен білімге ие болу;
ON5. физикалық және электр техникалық жүйелерді талдау мен жобалаудың әртүрлі әдістері мен әдістемелерін меңгереді;
ON6. энергия тұтынуды жоспарлау мен оңтайландыруды, энергия тұтынуды есепке алу мен талдауды, сондай-ақ энергия үнемдеу іс-шараларын енгізуді қоса алғанда, энергетикалық ресурстарды басқару мәселелеріндегі қазіргі заманғы ғылыми тұжырымдамаларды сыни тұрғыдан бағалау;
ON7. ғылыми-зерттеу жұмысы, инженерия, жаңа технологияларды әзірлеу және өнеркәсіпте инновацияларды енгізу саласындағы кәсіби қызметке дайын болу;
ON8. физика мен электр инженериясының ғылым мен технологияның басқа салаларымен байланысын бағалау және көрсету, бұл олардың білімін кеңейтеді және шығармашылық ойлауды дамытады;
ON9. кәсіби байланыстар желілерін құруға және тұлғааралық дағдыларды дамытуға ықпал ететін физика мен электр инженериясының әртүрлі салаларындағы әріптестермен тиімді қарым-қатынас жасау және пікір алмасу;
ON10. ғылыми конференцияларға, семинарларға және кәсіби қауымдастықтарға қатыса білу, бұл олардың әлеуметтік және кәсіби желісін кеңейтуге және қолданбалы физика және электр инженериясы саласындағы сарапшылармен тәжірибе алмасуға ықпал етеді;
ON11. клиенттермен, серіктестермен және басқа да мүдделі тараптармен тиімді қарым-қатынас жасай алады, қолданбалы физика және электр инженериясы саласында кәсіби кеңестер мен шешімдер ұсынады, бұл көшбасшылық және кәсіпкерлік дағдыларды дамытуға ықпал етеді;
ON12. түлектердің педагогикалық құзыреттіліктерін дамыту мақсатында қолданбалы физиканың теориялық негіздері туралы білімге ие болу.
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ON1. анализировать и моделировать сложных физических и электротехнических систем, что позволит им эффективно разрабатывать инновационные технологии и решать сложные инженерные проблемы;
ON2. активно участвовать в проектах, связанных с применением физических принципов и электроинженерных решений в различных сферах тем самым получая практический опыт и навыки работы в команде;
ON3. овладеть навыками применения специализированных инструментов, методов и техник, используемых для анализа и диагностики различных процессов в электроинженерии;
ON4. обладать навыками и знаниями для разработки и внедрения инновационных решений в области прикладной физики и электроинженерии, способствуя прогрессу в научных и технологических отраслях;
ON5. овладеют различными методами и техниками анализа и проектирования физических и электротехнических систем;
ON6. критически оценивать современные научные концепции в вопросах управления энергетическими ресурсами, включая планирование и оптимизацию потребления энергии, учет и анализ энергопотребления, а также внедрение энергосберегающих мероприятий;
ON7. готовы к профессиональной деятельности в области научно-исследовательской работы, инженерии, разработке новых технологий и внедрению инноваций в промышленности;
ON8. оценивать и увидеть взаимосвязь физики и электроинженерии с другими областями науки и технологий, что расширяет их горизонты и способствует развитию творческого мышления;
ON9. эффективно коммуницировать и обмениваться идеями с коллегами из различных областей физики и электроинженерии, что способствует созданию сетей профессиональных контактов и развитию межличностных навыков;
ON10. иметь возможность принимать участие в научных конференциях, семинарах и профессиональных сообществах, что способствует расширению их социальной и профессиональной сети и обмену опытом с экспертами в области прикладной физики и электроинженерии;
ON11. способны эффективно взаимодействовать с заказчиками, партнерами и другими заинтересованными сторонами, предоставляя профессиональные консультации и решения в области прикладной физики и электроинженерии, что способствует развитию лидерских и предпринимательских навыков;
ON12. иметь знания о теоретических основах прикладной физики с целью развития педагогических компетенций выпускника.
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ON1. analyze and simulate complex physical and electrical systems, which will allow them to effectively develop innovative technologies and solve complicated engineering problems;
ON2. extensively participate in projects concerned with the application of physical principles and electrical engineering solutions in a variety of fields, which gives them practical experience and teamwork skills;
ON3. become competent in applying of specialized tools, methods, and techniques used to analyze and monitor various processes in electrical engineering;
ON4. have skills and knowledge for the development and implementation of innovative solutions in the field of applied physics and electrical engineering, leading to progress in the scientific and technological fields;
ON5. become proficient in a variety of methods and techniques for analyzing and constructing physical and electrical systems;
ON6. critically evaluate modern scientific concepts in energy resource management issues, including planning and optimization of energy consumption, monitoring and analysing energy consumption, and implementing energy conservation strategies;
ON7. prepared for professional activities in the field of scientific research, engineering, developing new technologies and implementing innovations in industry;
ON8. evaluate and recognize the relationship of physics and electrical engineering with other fields of science and technology, which expands their horizons and contributes to the development of their innovative thinking;
ON9. effectively communicate and collaborate with colleagues from various fields of physics and electrical engineering, which facilitates professional networking and the development of personal skills;
ON10. have the possibility to participate in scientific conferences, seminars, and professional communities, which facilitates expansion of their social and professional network and sharing of experience with experts in the field of applied physics and electrical engineering;
ON11. able to interact productively with customers, partners, and other constituencies by offering professional advice and solutions in applied physics and electrical engineering, which helps improve leadership and business skills;
ON12. have knowledge of the theoretical foundations of applied physics with the purpose of developing the educational competencies.

Program passport

Speciality Name
Applied physics and electrical engineering
Speciality Code
7M07134
Faculty
of Physics and Technology

disciplines

Automation and control of technological and laboratory processes
  • Number of credits - 9
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The course covers topics such as control system theory, sensors, actuators, instrumentation, programmable logic controllers (PLCs), human-machine interfaces (HMIs), supervisory control, data acquisition (SCADA) systems. Trainees learn about the control systems design, implementation for variety of applications. The course also covers laboratory automation systems design, implementation for scientific experiments, research.

Engineering problem-solving methods
  • Number of credits - 6
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The aim: to develop a thorough understanding of engineering problem solving process. This course learns basic methods and approaches used in solving complex engineering problems. Masters learn how to analyze, formulate a problem; select, apply appropriate methods. The course introduces computer tools and software applications applied in the problem-solving process.

Engineering project planning
  • Number of credits - 6
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The course covers project management principles, practices with focus on engineering projects. Topics such as project scoping, developing work breakdown structure, resource planning, project planning, budgeting, risk management, monitoring, control are covered. Learners are introduced to various project management tools such as Gantt charts, critical path analysis, project management software.

Foreign Language (professional)
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form practical skills in various types of speech activity in a foreign language. The training course builds the ability to perceive, understand and translate information in the modern global space, participate in scientific events to test their own research. The discipline is aimed at improving competencies in accordance with international standards of foreign language education.

History and Philosophy of Science
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to be considered on the basis of historical dynamics and in a historically changing socio - cultural context. Introduces the problems of the phenomenon of Science, which is a subject of special philosophical analysis, forms knowledge about the history and theory of Science, the laws of the development of Science and the structure of scientific knowledge, the features of science as a specialty and social institution, the role of Science in the development of society.

Methods for diagnosing electrical installations
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline: to develop the ability to conduct practical research on testing the insulation of electrical power installations, methods of generating test pulses and acquiring skills in working with high-voltage installations. Objectives: teaching the principles underlying high-voltage pulse technology; familiarization with various types of generators and features of arresters.

Organization and Planning of Scientific Research (in English)
  • Number of credits - 6
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline to form the ability to apply practical skills in the organization and planning of scientific research. The discipline studies: forms and methods of planning, organization and design of scientific articles and dissertations; forms of summarizing the results of scientific research in presentations, speeches, projects, articles.

Pedagogy of Higher education
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose is the formation of the ability of pedagogical activity through the knowledge of higher education didactics, theories of upbringing and education management, analysis, and self-assessment of teaching activities. The course covers the educational activity design of specialists, Bologna process implementation, acquiring a lecturer, and curatorial skills by TLA-strategies.

Psychology of Management
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The course reveals the subject, the basic principles of management psychology, personality in managerial interactions, personal behavior management, psychology of managing group phenomena and processes, psychological characteristics of the leader's personality, individual management style, psychology of influence in management activities, conflict management.

Reliability of power supply systems and power engineering quality
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to analyze the electromagnetic compatibility of technical means, calculate the balance of power of the power system, evaluate the deviation of the network parameters, explain the asymmetry of currents and voltages, generalize the influence of the network parameters on the operation of power consumers

Data for 2021-2024 years

disciplines

Converting technology and power electronic equipment
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline aims to form abilities of classifying types, explaining power electronic devices; design, calculate transistor, thyristor, other circuits in key modes; create modern power industry converter devices models. Discipline learns energy storage basics, methods; converter technology, power electronics operating regimes; circuits mathematical models with modern power engineering electronic elements.

Designing power devices
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline aims to form the ability to understand the basic principles of designing devices used in modern power engineering. Discipline is directed to the study of the basics, principles of design and development of power devices; practical techniques for the consideration of various tasks focused on the study of the energy equipment construction.

Diagnostics of gas-discharge processes in power installations
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline is related to gas-discharge processes occurring in power installations. Master's students will study methods, techniques of diagnostics, analysis, evaluation of gas-discharge processes, and skills of using suitable tools and equipment. Discipline provides master students with practical knowledge and skills essential for effective diagnostics of gas-discharge processes in power installations.

Electrophysical processes in gases
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline forms the ability to understand the gas-discharge plasma formation physical laws; use of gas-discharge plasma generation, investigation methods; obtain calculation practical skills, work with the experimental equipment. Discipline focuses on learning the basic processes, laws, mathematical expressions; physical phenomena, observation, experimental research methods; problems solutions of gas-discharge physics.

Electrophysical technologies in engineering
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline aims to form abilities of explaining electrophysical technologies, fundamental principles, calculations and design of electrophysical equipment. Discipline focuses on studying electrical breakdown of gases, liquids, dielectrics; equipment protection devices, vacuum and its electrical properties, emission phenomena in vacuum, arc discharges in vacuum, technology of processing materials in a vacuum.

Fusion energy and plasma physics
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Purpose of the discipline to form an idea about modern fundamental achievements in the field of thermonuclear energy, the ability to assess and analyse the prospects of development of its various directions. The discipline aims to study methods of diagnostics of high-temperature plasma, methods of its heating and confinement. The course provides a comparative characteristic of modern promising pulsed and continuous thermonuclear power plants.

High voltage equipment and measurement
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline aims to form abilities of developing, testing high-voltage equipment, measuring instruments; their application in electrical engineering technologies. Discipline focuses on learning short-term electric insulation strength testing techniques of high-voltage electrical equipment; high-voltage power equipment maintenance, diagnostics, operating; measurement methods at high voltage; high DC, pulse, alternative voltage production methods.

Microprocessor technology in electrical engineering
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to analyze the structure and functioning of microprocessor systems, to develop circuit diagrams using digital devices. Discipline will be studied: structure of the microprocessor, composition of the MP system, buses and interfaces, signal converting, using of MP technology in electrical devices.

Modeling of gas-discharge processes in power installations
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline aims to form the abilities of obtaining skills to solve modeling gas-discharge processes problems in power installations; processing, analyzing, evaluating results; creating equations; using simulation methods, their classification. Discipline focuses on numerical schemes, methods like Monte Carlo, molecular dynamics, particles in cells learning for gas-discharge processes in power installations.

Particle accelerators in electrical engineering
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline forms abilities to create, improve modern acceleration technology; to calculate, design, manufacture accelerators’ parts and components; to operate all types of particle acceleration systems for practical applications in electrical engineering and is focused on: studying theoretical, practical aspects of operation; control, monitoring problems; modern construction technology, methods of accelerators.

Plasma technology in science and engineering
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline forms abilities to analyze the plasma technologies and equipment current status, future prospects used in scientific, industrial-engineering activities; solve designing, optimization of plasma electrophysical installations problems and is focused on studying the main aspects, plasma processes technical-economic efficiency, plasma technology application opportunities in various industry and research fields.

Renewable energy problems
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Discipline aims to form the abilities to organize construction principles, generalize the power installation design problems of renewable energy sources, evaluate the environmental impact, experiment with laboratory equipment, design power stations. Discipline focuses on installations operational principles, typological parameters generating energy from renewable energy sources; renewable energy sources using problems.

Data for 2021-2024 years

INTERNSHIPS

Pedagogical
  • Type of control - Защита практики
  • Description - Formation of practical, educational-methodical skills of conducting lectures, seminars, creatively apply scientific, theoretical knowledge, practical skills in teaching activities, conduct training sessions in the disciplines of the specialty; own modern professional techniques, methods of training, use in practice the latest theoretical, methodological advances, make educational, methodological documentation.

Research
  • Type of control - Защита практики
  • Description - The purpose of the practice: gaining experience in the study of an actual scientific problem, expand the professional knowledge gained in the learning process, and developing practical skills for conducting independent scientific work. The practice is aimed at developing the skills of research, analysis and application of economic knowledge.

Data for 2021-2024 years