Bachelor's program
Technical physics

Technical physics

MODEL OF GRADUATING STUDENT

ОN1 systematize and independently classify scientific literature using modern educational and information technologies;
ОN2 use the fundamental laws of the main professional disciplines of the chosen profile in professional activity;
ОN3 Possess the skills of programming and modeling physical processes, apply and develop new methods for experimental studies of the structure and properties of condensed matter;
ОN4 To build mathematical models for analyzing the properties of research objects and choosing a numerical method for their modeling, to choose ready-made or to develop new algorithms for solving;
ОN5 Develop separate blocks of programs, their debugging and tuning for solving specific problems of technical physics, including typical problems of designing, researching and controlling the physical properties of materials and media;
ОN6 perform mathematical (computer) modeling for the purpose of analyzing and optimizing the parameters of research objects on the basis of available tools, including standard packages of computer-aided design and research;
ОN7 use the computational experiment as a means of implementing mathematical modeling, as well as implement the practical use of research results;
ОN8 to work at enterprises engaged in the production of high-tech products that require the use of plasma and radiation technologies, engage in scientific work in the fields of physics related to the effects of plasma and charged particle beams on matter;
ОN9 use the rules of safety engineering, industrial sanitation, fire safety and labor protection standards;
ОN10 Develop functional and structural diagrams of elements and assemblies of experimental and industrial installations, product designs taking into account technological and economic parameters;
ОN11 to adjust, adjust and test an individual type of instruments and systems in the laboratory and in the facilities;
ОN12 to conduct theoretical and experimental studies on the analysis of the characteristics of specific physical and technical objects in order to optimize the regimes of the corresponding stages of technological processes.

Program passport

Speciality Name
Technical physics
Speciality Code
6B05303
Faculty
of Physics and Technology

disciplines

Alternative energy
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline - is to form students' knowledge in the field of development prospects and existing world and domestic experience in developing energy sources that are alternative to the traditional ones which are used in the energy sector. The discipline "Alternative energy" is aimed at the formation of the ability of the future specialists to substantiate the adoption of a specific technical solution when choosing non-traditional energy sources; choose technical means and technologies taking into account the environmental consequences of their application. As a result of studying the discipline, the student will be able to: 1. argue and classify alternative energy sources; 2. classify and conduct a comparative analysis of the using of the alternative energy sources; 3. choose the principles of work of alternative energy sources; 4. analyze and conduct standard and certification tests of materials, products and technological processes; 5. evaluate the advantages and disadvantages of using alternative energy sources. In studying the discipline, the following aspects will be considered: State and prospects of development of alternative energy sources. Transformation of solar energy into electrical energy. Systems of solar heat supply. Thermal energy storage. Wind power and the possibility of its use. Thermal mode of the earth's crust. Sources of geothermal heat.

Applied Thermal Physics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of studying the discipline in acquiring students knowledge of the physical fundamentals of thermodynamics, processes and phenomena occurring in a wide range of thermodynamic parameters of the state of matter, including the low temperature region. As a result of studying the discipline, the student will be able to: - analyze the basic concepts, models and axioms of mechanics, elementary statics, conditions of equilibrium of the body; conditions of fatigue failure; the fundamentals of the theory of the stability of structural elements, the basic concepts of molecular physics and thermodynamics; - be able to solve typical problems in the main sections of physics; - Possess the skills of elementary calculations and design of technological equipment. In studying the discipline, the following questions are considered: Fundamentals of the theory of thermodynamics. Fundamentals of the theory of heat transfer. Thermometric methods for studying the state of wells. Investigation of inflow and absorption of liquid and gas in production and injection wells. Thermodibitometers: design and calibration of instruments. Measurements and interpretation of the debitgrams. Determination of inflow and absorption intervals by thermometry. Measurements and interpretation of thermograms. Effect of Joule-Thomson in the expiration of gas, oil and water.

Atomic Physics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Aim оf discipline: is to form in students a representation of atomic physics as a theory that arose from the generalization of observations, practical experience and experiment in the framework of lecture, practical and laboratory exercises. During the study of course, students should be competent in:  Generalize the theory of quantum physics in different practical problems;  Enumerate the physical phenomena and laws of atomic physics, the limits of their applicability, the ability to determine the basic physical quantities, their meaning, methods and units of measurement;  Explain the goals of teaching the fundamental physical experiments of quantum physics and their role in the development of science;  Describe the purpose and operation principles of the main spectroscopic instruments;  To make decisions in solving physical problems independently, innovations in training for students in the classroom. Purpose of the discipline. Discipline is a course that defines educational and methodological training, studies forms, methods, means of transferring knowledge of atomic physics, i.e. Optimal, effective organization of teaching. During the studying of the discipline, the following aspects will be considered: about quantum phenomena at the atomic-molecular level; On the experimental foundations of quantum physics and physical phenomena caused by the electronic shells of atoms and molecules, the discovery of factors and regularities in the learning processes of the basic laws of atomic physics, atomic spectra and their mathematical expression, formulate the basic concepts of partition, solve physical problems and evaluate the orders of physical quantities. In addition, the student must acquire skills in working with instruments and equipment of the modern laboratory of atomic physics, the skills of using various methods of physical measurements and processing experimental data; Skills in conducting adequate physical and mathematical modeling, as well as applying methods of physical and mathematical analysis to solving specific natural and technical problems.

Culturology
  • Number of credits - 2
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Aim of discipline is to form a bachelor's understanding of the specifics of the development of national culture in the context of world culture and civilization, need to preserve the cultural code of the Kazakh people, ability to pursue in independent professional activity a strategy of preserving the cultural heritage of the Kazakh people in a dynamically changing multicultural world and society.

Differential and Integral Equations
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The goal of the discipline is the consistent introduction and usage of the main methods and theorems in analytical geometry and linear algebra, which, along with other mathematical tools, form the basis of fundamental mathematical education for students-physicists. Expected learning outcomes: - To form students' knowledge and skills to manipulate geometric objects using algebraic methods, to use basic algebraic curves and surfaces in computer calculations - To provide students with a fairly broad view of the analytical geometry and linear algebra - To understand the basic methods of analytical geometry, the method of coordinates; as well as the vector methods, methods of geometric transformations, projective methods; - Demonstrate these methods in the study of the flat and 3d objects defined by the first and second degree equations; - Possibilities of generalization of these methods in the construction of multidimensional geometries; - - mathematical way of thiking in students, skills of providing evidence The discipline is aimed at studying the basics of Euclidean geometry, made with the help of concepts specific to the theory of linear spaces. Classical definitions, theorems, methods and the establishment of a connection between geometric and algebraic objects and the use of geometric objects in computer calculations.

Electricity and Magnetism
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The study of the basic physical phenomena, concepts and laws of the division of physics "Electricity and magnetism", methods of observation and experimental research of electrical phenomena, methods of processing and analysis of experimental results; boundaries of applicability of physical models in electricity and magnetism. As a result of studying the discipline, the student will be able to: - apply the laws of electrodynamics to explain physical phenomena in nature and technology; - solve typical problems of electricity and magnetism using the theory of electrical circuits; - conduct measurements of electrical quantities, explain and process the results of the experiment; - work independently with educational and reference literature; - use physical laws in the analysis and solving problems of professional activity. The course «Electricity and Magnetism» together with courses of higher mathematics forms the basis of theoretical training of engineers and plays the role of a fundamental base of engineering and technical activity. In studying the discipline, the following issues are considered: Electrostatics. Interaction of electric charges. The law of conservation of electric charges. Electric field. Electric capacity. Condensers. Constant electric current. General characteristics and conditions for the existence of an electric current. The laws of Ohm and Joule-Lenz in differential form. EMF of a galvanic cell. Generalized Ohm's law for a chain section with a galvanic cell. The rules of Kirchhoff. A magnetic field. Principle of superposition. The Bio-Savar-Laplace law. Calculations of the magnetic fields of the simplest systems.

Environmental Engineering
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Prepare a specialist who knows the concepts of environmental safety and sustainable development, which implements environmental and energy-saving and resource-saving technical policies in the design, installation and operation of heat and heat engineering equipment of thermal power plants and industrial enterprises. As a result of studying the discipline, the student will be able to: - to analyze global environmental problems, modern problems of nature management and sustainable development of ecosystems, methods and technological approaches to protect water, air and soil from harmful emissions from industrial enterprises; - be able to find optimal solutions to problems and specific environmental problems in the field of nature management and protection environment, apply the theoretical knowledge obtained in practice; - Demonstrate environmental monitoring methods for estimating, predicting and modeling anthropogenic loads on water and terrestrial ecosystems. When studying the discipline, the following issues are considered: The problem of interaction between energy and the environment. Legislative base of environmental policy of the Republic of Kazakhstan. Bases of ecological rationing. Rational use of fuel. Rational use of water. Environmental risk and economic aspects of environmental protection.

Foreign Language
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - During the study of the discipline students will learn following aspects: The course is the integrative part of continuing foreign language education cycle and is aimed at further development of receptive( reading, listening)productive(speaking, writing) skills, intercultural and interpersonal competences for using English as the tool of communication.

Foundations of Physics of a real gas and liquid
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Acquaintance with the fundamentals of the physics of real gas and liquid, with the idea of the forces and potentials of intermolecular interaction, the equations of state of real gas and liquid, phase transformations, some features of transport phenomena in liquids, the role of real gas and liquid physics in scientific research and solving practical problems. As a result of studying the discipline, the student will be able to: - apply the basic laws of statics, kinematics and fluid dynamics and gases; - to distinguish between fluid flow regimes and methods for solving problems in fluid motion; - analyze the laws of statics, kinematics and fluid dynamics. In studying the discipline, the following questions are considered: Real gas. Interaction of molecules - pair collisions. Model potentials of interaction of molecules: elastic spheres, VDV, Lennard-Jones. Dependence of the diameter of a molecule on its energy. Derivation of the equation. Thermodynamic derivation of the internal energy of a real gas. Theoretical and experimental isotherms of a real gas. Metastable states. The system is liquid-vapor. Critical values. The van der Waals equation in the given quantities. The Joule-Thomson effect and the inversion temperature. Liquids. General description, elements of Frenkel's theory. Surface free energy and surface tension coefficient. The pressure under the curved surface of the liquid: the Laplace formula. Wetting, marginal angles, capillary phenomena. Formula Juren. Dependence of the saturated vapor pressure on the surface curvature. Solutions.

Fundamentals of cryoengineering
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The acquisition by students of knowledge of the physical foundations of cryogenic technology and cryotechnology. The task of the module is to instill in students the skills of physical research, to form ideas about the areas of realization of low-temperature processes, the ability to independently set and analyze the problems arising in this process. As a result of studying the discipline, the student will be able to: - formulate the subject of search and experimental problems in the field of low temperature physics; - own a quantum mechanical device, applicable in the field of low temperature physics; - analyze the main sections of modern low temperature physics. When studying the discipline, the following questions are considered: Fundamental basics for obtaining and measuring low temperatures. The basic low-temperature thermodynamic cycles and modern equipment for providing low-temperature studies form the basis of this course. Practical aspects of modern low temperature physics, cryogenic technologies for obtaining and processing materials are being studied.

Information and Communication Technologies (in English)
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - During the study of the discipline, students will learn following aspects: ICT role in key sectors of development of society. Standards in the field of ICT. Introduction to computer systems. Architecture of computer systems. Software. Operating systems. Human-computer interaction. Database systems. Microsoft Office Excel 2016 for Windows Ranges & Tables. Networks and telecommunications. Cybersafety. Internet technologies. Cloud and mobile technologies. Multimedia technologies. Smart Technology. E-technologies. Electronic business. E-learning. Electronic government. Information technologies in the professional sphere. Industrial ICT. Perspectives of development of ICT.

Kazakh (Russian) Language
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Kazakh language": to provide qualitative study of the Kazakh language as a means of social, intercultural, professional and personal communication through the formation of communicative competence in all types of speech activity in accordance with the requirements of qualification level certification in the Kazakh language. The aim of the course is to improve the phonetic, lexico-grammatical skills of the linguist, to improve the skills of writing the grammatical, syntactical, stylistic features of the Kazakh language in the literary norm. During the study of course, students should be competent in: - to provide the actual content of the text, to formulate their conceptual information, to describe the final sections of the text and its individual structural elements (pragmatic focus); - to request and report information according to the terms of the relationship, evaluate participants' actions, and use information as a means of influence on the interviewer in the context of cognition and communication in accordance with certification requirements; - to create speech behavioral programs in the conditions of personal, social and professional communication in accordance with the requirements of certification of the language, culture, the field of communication; - to discuss ethical, cultural and social issues of debates, to express their opinion, to prove it, to critically evaluate the opinions of the interviewees; - to participate in situations of different communication in order to realize their personal intentions and needs (domestic, educational, social, cultural), ethically correct, substantial, lexical-grammatical and pragmatic; - be able to compile household, socio-cultural, official-business texts using lexical-grammatical and pragmatic materials that correspond to the generally accepted norms, functional orientation, and level of certification. During the study of the discipline students will learn following aspects: The curriculum is aimed at studying general education "Kazakh language" in updated content and formation of interpersonal, social-humanitarian world view of students in the context of state programs within the national idea of spiritual renewal. It is designed to provide a qualitative study of the Kazakh language in the context of Kazakh national culture as a social, intercultural, professional and communicative tool through the formation of communicative competence in all forms of speech according to the level of qualification of students.

Labor Protection and Safety at Enterprises
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to equip students with knowledge and skills that give a holistic view of modern mechanisms of influence on the most important areas of security in public and educational life: the students acquire the knowledge and skills to ensure the security necessary for professional activities. As a result of studying the discipline, the student will be able to: - identify hazardous and harmful production factors and the corresponding risks associated with past, present or planned types of professional activity; - use the means of collective and individual protection in accordance with the nature of the performed professional activity; - participate in the certification of workplaces for working conditions, including the assessment of working conditions and the level of injury safety; - conduct induction training for subordinate employees (personnel), instruct them on safety issues at the workplace, taking into account the specifics of the work performed; - explain to subordinate employees (staff) the content of the established labor protection requirements; - develop and control the skills necessary to achieve the required level of occupational safety; - maintain the established sample documentation on labor protection, observe the terms of its filling and storage conditions. When studying the discipline, the following questions are addressed: Labor legislation of the Republic of Kazakhstan. State supervision and control over labor protection at enterprises. Organization of labor protection at the enterprise. Assessment of workplaces. Industrial sanitation. Occupational injuries. Electrical safety. Fire safety.

Mathematics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Acquisition of knowledge and the development of basic concepts, laws and formulas, theorems and methods of mathematical research studied in technical institutions of higher education. Mathematics contains theoretical and multiple view on mathematical objects - the function, functional, operators, geometric images, vectors, matrix. As a result of studying the discipline, the student will be able to: 1. to apply modern mathematical methods for solving applied problems; 2. to use the achievements of fundamental science for successful studying of general theoretical and special technical disciplines, the development of mathematical thinking and logic; 3. to compute the derivatives and integrals of various kinds of functions; 4. to be competent in choosing methods of mathematical modeling for solving specific technical problems; 5. to determine the limit of a function of two variables. The discipline is included in the group of basic disciplines offered to the students of technical specialties. Therefore, mathematical education should be regarded as an important component of fundamental training of the Bachelor of engineering and technology. During the study of the discipline, the following issues are considered: Linear algebra. Vector algebra. Analytical geometry on the plane and in the space. Introduction to the analysis. Integral calculus of functions of one variable. Functions of many variables. Theory of series.

Methods of Mathematical Physics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The goal of the discipline is to provide the necessary knowledge and fundamental concepts and methods for differential and integral equations. Expected learning outcomes: - to know the basic types of equations solvable in quadratures; - to apply the conditions of existence, uniqueness and stability of ordinary differential equations and systems; - to calculate the linear integral equations with degenerate kernel; - to know the basic concepts of variational calculus; - to be able to find the general solution of the first order equations and to investigate the solutions of the Cauchy problem; - - to solve the higher-order linear systems and linear equations with constant coefficients. The discipline is focused on studying the first order differential equation; the equations of the n-th order and the system of equations; linear differential equations; as well as the main types of integrable equations of the 1st order with separable variables including homogeneous and linear equations.

Metrology, Standardization and Certification
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Familiarization of students with the current legislation of the Republic of Kazakhstan in the field of standardization, metrology and certification, the state system of technical regulation, basic concepts and definitions in the field of Standardization, metrology and certification, with the activities of international and regional organizations working in the field of standardization, certification and metrology. As a result of studying the discipline, the student will be able to: - use the legislative base in the field of ensuring the uniformity of measurements; - know the system of standards in the field of metrology; - use the normative and technical documentation for the correct measurement; - select according to reference materials measuring means in accordance with the specified accuracy of measurements; - apply the requirements of normative documents to the main types of products (services) and processes. When studying the discipline, the following issues are considered: Theoretical bases of metrology, standardization and certification; basic concepts associated with objects of measurement: property; basic concepts associated with measuring instruments (SI); Regularities in the formation of the measurement result, the concept of error, sources of errors; the notion of multiple measurement; algorithms for multiple measurements; the concept of metrological support, the main provisions of the law of the Republic of Kazakhstan on ensuring the uniformity of measurements, the structure and functions of the metrological service of the enterprise, automated systems for monitoring and managing data collection; certification, its role in improving the quality of products; legal basis for standardization; International Organization for Standardization (ISO).

Modern History of Kazakhstan
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of discipline: to give students objective historical knowledge of the main stages of the history of modern Kazakhstan; to direct students’ attention to the problems of the formation and development of statehood and historical and cultural processes; to explain students the essence of the fundamental problems of history; to teach them the scientific methods of historical knowledge; to form a scientific world outlook and citizenship among students. As a result of studying the discipline, the following abilities of students will be formed: - substantiate and explain the historical background and periods of the formation of an independent Kazakhstan statehood in the context of the world and Eurasian historical process; - conduct a critical-comparative and retrospective analysis of individual phenomena and events of the historical past with a common paradigm of the world-historical development of human society based on the new positions of modern Kazakhstan; - build and predict the immanent advantages, features, and significance of the Kazakhstan development model; - identify and evaluate the knowledge of analytical and axiological analysis in the study of complex historical processes, phenomena and the role of historical personalities in the history of modern Kazakhstan; - form own opinion of the students on the modernization of Kazakhstan society, acquire historical knowledge to determine the objectivity of events taking place in modern Kazakhstan and the world community. During the study of the discipline students will learn following aspects: Conceptual framework for the study of national history; the origins and continuity of the Kazakh statehood: antiquity, the Middle Ages and the new time; patterns of political, socio-economic and cultural development of the state; Kazakhstan on the way to the Independence: the stages of the formation of the idea of a national state. Civil and political confrontation; the implementation of the Soviet model of state construction; contradictions and consequences of Soviet reforms in Kazakhstan in the second half of the twentieth century; the policy of "perestroika" in Kazakhstan; Kazakhstan’s model of economic development; social modernization is the basis of the well-being of society; ethnic-demographic processes and the strengthening of interethnic harmony; social and political development prospects and spiritual modernization; the policy of forming a new historical consciousness and worldview of the people of the Great Steppe; Kazakhstan is a state-recognized by modern world; N.A. Nazarbayev is a person in history; the formation of a united future nation.

Modern History of Kazakhstan
  • Number of credits - 5
  • Type of control - [РК1+MT1+РК2+ ГЭК] (100)
  • Description - The purpose of discipline: to give students objective historical knowledge of the main stages of the history of modern Kazakhstan; to direct students’ attention to the problems of the formation and development of statehood and historical and cultural processes; to explain students the essence of the fundamental problems of history; to teach them the scientific methods of historical knowledge; to form a scientific world outlook and citizenship among students. As a result of studying the discipline, the following abilities of students will be formed: - substantiate and explain the historical background and periods of the formation of an independent Kazakhstan statehood in the context of the world and Eurasian historical process; - conduct a critical-comparative and retrospective analysis of individual phenomena and events of the historical past with a common paradigm of the world-historical development of human society based on the new positions of modern Kazakhstan; - build and predict the immanent advantages, features, and significance of the Kazakhstan development model; - identify and evaluate the knowledge of analytical and axiological analysis in the study of complex historical processes, phenomena and the role of historical personalities in the history of modern Kazakhstan; - form own opinion of the students on the modernization of Kazakhstan society, acquire historical knowledge to determine the objectivity of events taking place in modern Kazakhstan and the world community. During the study of the discipline students will learn following aspects: Conceptual framework for the study of national history; the origins and continuity of the Kazakh statehood: antiquity, the Middle Ages and the new time; patterns of political, socio-economic and cultural development of the state; Kazakhstan on the way to the Independence: the stages of the formation of the idea of a national state. Civil and political confrontation; the implementation of the Soviet model of state construction; contradictions and consequences of Soviet reforms in Kazakhstan in the second half of the twentieth century; the policy of "perestroika" in Kazakhstan; Kazakhstan’s model of economic development; social modernization is the basis of the well-being of society; ethnic-demographic processes and the strengthening of interethnic harmony; social and political development prospects and spiritual modernization; the policy of forming a new historical consciousness and worldview of the people of the Great Steppe; Kazakhstan is a state-recognized by modern world; N.A. Nazarbayev is a person in history; the formation of a united future nation.

Molecular Physics
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose: to present this section of the course as a physical theory based on the generalization of observations, experiment and practical experience, to reveal the specific features of the subject of research as a physical system of a large number of particles, to reveal the statistical nature of the laws of molecular physics. During the study of course, students should be competent in:  to reveal the physical mechanism of the studied phenomena;  to analyze the change of thermodynamic parameters in the processes;  apply the basic laws of molecular physics and thermodynamics in solving problems;  use the laws of molecular physics in research and study of the structure and properties of objects of nature at different levels of its organization;  correctly interpret the information obtained to make optimal decisions in the problems of heat power engineering;  apply basic concepts of mathematical statistics;  to solve the simplest problems in the field of no equilibrium thermodynamics and kinetics;  Possess the skills of drawing up thermodynamic equations.  to understand, Express and analyze the laws of physical processes in molecular physics, to use the theoretical foundations, foundations, laws and models;  draw conclusions based on experimental data;  use the language of physics correctly;  methods of physical measurements, methods of correct estimation of errors during the physical experiment In studying the discipline, students will study the following aspects: equilibrium macroparameters; equation of state of an ideal gas; isoparmetric processes; statistical method of describing molecular systems; Maxwell distribution; the first beginning of thermodynamics; the second beginning of thermodynamics; transport processes; real gases; liquids; solids; phase transitions.

Nuclear Physics
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Aim оf discipline: to acquaint with the main experimental studies and simulations of fundamental interactions in the microworld, the development and application of modern methods and means of recording radiation, analyzing and processing the results of experiments in the field of physics of elementary particles, atomic nuclei and space physics. During the study of course, students should be competent in: - be able to own the objective laws of the physical processes at the microscale; and the methods of registration of ionizing radiation; - be able to use measuring electronics operating according to different principles for registering nuclear radiation; also use radiation sources; also know the ways and means of measuring and quantifying radiation; - master the methods and skills of organizing a nuclear experiment; - acquire professional knowledge and methods taking into account the changing needs of the professional world market; During the study of the discipline students will learn following aspects: - microworld phenomena and basic conservation laws; - basic research methods in nuclear physics; - types of nuclear reactions and basic laws; - transmission of Light Laws, nuclear light detectors; - basic physical phenomena and their features, their control and methods of experimental research; - the main methods of determining the properties of atomic nuclei and elementary particles; - production of basic laws and their mathematical expressions; - subatomic phenomena, their important scientific and technical applications; - fundamental physical laws, theory and methods in modern and quantum physics;

Optics
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Formation of students' holistic understanding of the principles of existing optical measurements, the possibility of using optical phenomena in measurements of various quantities, characteristics and processes in production, methods and their instrumentation, the applied element base and the practice of technical processing of measurement information; analysis of functional and schematic diagrams of optical instrumentation and substantiation of the requirements for their optical and technical characteristics. As a result of studying the discipline, the student will be able to: - work with optical measurements; - to analyze the functional and schematic diagrams of optical measuring devices; - substantiate the requirements for equipment according to optical and technical characteristics; - to process the measurement data; - use the methods of theoretical and experimental research; - Comply with the requirements of safety in the implementation of professional activities. Discipline is the basis of the theoretical training of engineers and plays the role of the fundamental base of engineering and technical activities. When studying the discipline, the following questions are considered: Optical measurements as an area of ​​optotechnics. Theory and methods of optical measurements. Theory of optical measurements. The basic principles of optical measurements. Classification of optical measurement methods: methods based on the analysis of the optical image, on the analysis of the wavefront shape, on the analysis of the light fluxes. Optical measuring instruments. Objects and tasks of measurement, measuring circuits and features of their functional structure. Measurements of parameters of optical materials. Measurement of the characteristics of optical systems. Interference measurements. Optical image quality studies. Measurement of parameters of a light wave in an optical instrument. Basics of optical measurements of non-optical parameters.

Philosophy
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation in students of a holistic system concept of philosophy as a special form of knowledge of the world, its main sections, problems and methods of studying them in the context of future professional activity. During the study of course, students should be competent in: - describe the main content of ontology and metaphysics in the context of the historical development of philosophy; - explain the specifics of the philosophical interpretation of reality; - to classify the methods of scientific and philosophical knowledge of the world; - to substantiate the role and importance of key worldview concepts as values of social and personal being of a person in the modern world; - to conduct research relevant to identifying the philosophical content of problems in the professional field and to present the results for discussion. During the study of the discipline, students will learn following aspects: The emergence and development of philosophy. The emergence of philosophy. The subject and method of philosophy. Historical types of philosophy. Fundamentals of philosophical understanding of the world. The problem of being. Ontology and metaphysics. Consciousness and language. Cognition and creativity. Scientific and extra-scientific knowledge. Science and technology Philosophy of man and the value world. Life and death. Meaning of life. Ethics. Philosophy of values. Freedom. Aesthetics. Perception and creation of beauty. Society and culture. Philosophy of history. "Mangilik El" and "Ruhani zhangyru" - the philosophy of the new Kazakhstan.

Physical chemistry
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Formation of students knowledge of the physical-chemical properties of raw materials, materials and finished products according to industry specialization, devices and principles of operation of the basic laboratory equipment, instrumentation used in chemical laboratories, means of automatic control and regulation, rules for the design of technical documentation for laboratory analyzes and tests. As a result of studying the discipline, the student will be able to: - conduct a physico-chemical analysis of products and evaluate its results; - possess the skills of using physical and chemical methods of analysis; - be able to use laboratory equipment; - perform production technological calculations; - perform metamathematical processing of the analysis and evaluate its result. The course provides for the study of the theoretical foundations of methods for analyzing raw materials, products, finished products and environmental objects and obtaining by students of practical skills in the field of physical and chemical methods of analysis used in the analytical control of production by factory laboratories of enterprises in key industries and in the laboratories of the research institute. In studying the discipline, the following issues are considered: Optical methods of analysis. Photometric method of analysis. Nephelometric and turbidimetric methods of analysis. Luminescent method of analysis. Refractometric method of analysis. Polarimetric method of analysis. Chromatographic methods of analysis. The technique of chromatographic analysis of liquids. Electrochemical methods of analysis. Conductometric method of analysis. Modern methods of analysis. Method of flame photometry.

Physical Foundations of Mechanics
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Physics - 1 ": is the formation of the students’ scientific thinking, the correct understanding of the limits of applicability of various physical concepts, laws, theories, and skills to assess the degree of reliability of the results obtained with the help of experimental research methods. During the study of course, students should be competent in: 1. substantiate modern physical phenomena and laws in practical activity and to interpret the results of a physical experiment; 2. reproduce and build a model of a physical phenomenon with an indication of the limits of application; 3. analyze and solve specific tasks in physics; 4. conduct physical experiments and correctly evaluate the results; 5. Use the basic laws of classical and modern physics, physical phenomena in the sphere of the professional activity. During the study of the discipline students will learn following aspects: The most important stages in the development of physics. Mechanics. Kinematics. Mechanical motion as the simplest form of motion of matter. Dynamics of a material point and a solid. Weight. Force. Newton's laws. Types of forces in mechanics. Conservation laws. The law of conservation of angular momentum. Elements of mechanics of continuous media. Wave oscillations. Oscillation of the load on the spring.

Physical Training
  • Number of credits - 8
  • Type of control - РК(с оценкой)
  • Description - The purpose of the discipline is to improve health, increase working capacity, maintain an active lifestyle, characterize the tasks and functions of physical culture. The training course forms the proper level of physical fitness, necessary for the development of professional skills in the process of learning at the university. Discipline is aimed at the positive influence of physical culture on professional activities and on a healthy lifestyle. In the course of studying the course to form students' abilities: - to form students' knowledge of the theory, history and methods of physical culture; - to teach students practical skills and habits of various sports, modern and motor and recreational systems; - to form in the student a sustainable positive motivational-value relation to a healthy lifestyle; - develop a student's readiness for self-determination, self-improvement and self-development in the field of physical culture. During the study of the discipline students will learn following aspects: understanding of the social role of physical culture in personal development and preparing bachelor for professional activities; knowledge of scientific, biological and practical bases of physical culture and healthy lifestyle.

Physics and mathematics of electical engineering
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline - is to form students' knowledge about laws and modern methods for calculating electrical circuits and electromagnetic fields of electrical devices and electric power systems. As a result of studying the discipline, the student will be able to: 1. determine the physical essence of phenomena and processes in various devices; 2. substantiate the basic concepts and methods of differential and integral calculus, functions of complex variables; 3. apply methods of mathematical analysis, computer technology and information technology in solving engineering tasks; 4. use the methods of numerical solution of the algebraic and differential equations; 5. compare the methods of testing and diagnosing electrical equipment and objects of electric power and electrical engineering in their professional field. Task of the discipline. Discipline "Physical and mathematical basis of electrotechnics" is aimed to form the future experts' ability to conduct experimental testing of high-voltage equipment. In studying the discipline, the following aspects will be considered: Linear joints with constant tension and currents. Cords with harmonic stresses and currents. Electromagnetic appliances and electrical machinery. Uravnenii mathematical physics in technics of high stresses. Role of the calculation and analysis of electrical and magnetic fields in high-voltage technics. Calculates the electrical system's thinness of the parallel circuit breakers and their limitation. Integral methods of calculation of electrical discharges.

Planning and processing of experimental results
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of discipline is the formation of students' fundamental knowledge about the principles of application of mathematical models, methods, and algorithms for the selection of effective solutions for solving various organizational and technical tasks with using modern computer science and computer facilities. During the study of course, students should be competent in: 1. form and make an experiment plan for data measurement; 2. interpret the obtained experimental data; 3. use the methods of mathematical analysis and modeling, theoretical and experimental research; 4. use software for processing, analyzing, and systematizing the information. 5. manage the main methods, ways, and means of obtaining, storing, processing the information. During the study of the discipline students will learn following aspects: General information about measurements. Components of the measurement error. Scales of measurements. Methods of a statistical description of the results of observations. Sampling and ways of presenting it. Numerical characteristics of the sampling. Preliminary processing of observation results. Interpretation of experimental data. Graphic dependence of the measurements.

Political Science
  • Number of credits - 2
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Aim of discipline is to study the formation and functioning of politics, the preparation of students to participate in the political life of the country, the formation of an active civic position. As a result of studying the discipline, the student will be able to: 1. describe the features of the organization and functioning of political institutions (institutions of representation and coordination of interests); 2. demonstrate an understanding of the mechanisms and principles of the functioning of political power, political institutions, internal, external, world politics and international relations; 3. demonstrate an understanding of the essence and laws of the functioning and development of politics, its role in various spheres of society’s life; 4. justify the interconnection of political systems and political regimes; 5. evaluate the degree of objectivity of political information from different sources, to give reasoning for expressing one’s civil position, to evaluate facts, events, phenomena on the basis of analysis of the political strategy and national interests of modern states; Purpose of the discipline: The academic discipline “Political science” forms knowledge of the laws and laws of world politics and modern political processes, explaining the essence and content of the policy of national states, on the basis of ensuring national security and the realization of national interests. The study of this discipline promotes an understanding of internal and external connections and relationships, main trends and patterns regularities, operating in different political systems, the elaborationof objective criteria for the social dimension of politics.

Psychology
  • Number of credits - 2
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of studying of the discipline is to provide scientifically grounded training of highly qualified specialists on the basis of studying the fundamental concepts of psychology management, creating the necessary prerequisites for theoretical understanding and practical application of the most important management problems related to the process of professional development within the chosen specialty. During the study of course, master students should be competent in: 1. to know basics of psychological science and practice necessary to improve the effectiveness of professional activities; 2. understand the psychological patterns and phenomena arising in professional and scientific-pedagogical activities; 3. to critically analyze life and professional situations from the point of view of psychology, to see the relationship between the behavior and results of individual and collective activities, resources development opportunities; 4. integrate psychological information into general knowledge and formulate judgments; 5. use psychological knowledge to make effective decisions, implement successful communication strategies in personal life and professional activities; effectively use psychological knowledge in order to develop own personality and team. This course will familiarize master degree students with scientific knowledge corresponding to the current level of development of psychological science and practice. The subject, branches, methods of psychology, patterns of development and functioning of mental processes, properties and states of personality, communication, basics of effective interaction and conflict overcoming, self-development and self-presentation will be examined, taking into account the professional and scientific-pedagogical activity of master degree students.

Sociology
  • Number of credits - 2
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - SociologyThe purpose of teaching the discipline "General and Applied Sociology" is to form a systematic notion of students about sociology as a science, development of sociological theory and branches of sociology, to teach skills in the application of methods of sociological research and analysis of data in professional and daily life. As a result of studying the discipline, the student will be able to: 1. to explain social interactions, phenomena and processes, social changes in the world on the basis of macro- and microsociological theories; 2. to interpret the basic sociological concepts and theories with the purpose of studying social processes; 3. to demonstrate the ability to find available sources of sociological information, generalize and analyze data; 4. to use methods of sociological research, be able to plan, organize and conduct mini-research on student projects; 5. to form skills in the analysis of texts and writing essays, discussions, effective work in a group, presentation of research results. The course presents general questions of theory and history of sociology, methodology and methods of sociological research, special sociological theories. This course is aimed at shaping the sociological imagination of students, basic ideas about the subject and methods of sociological research, topical problems and sociology branches. It offers students the main concepts of sociological theory and effective technologies for studying various spheres of modern society.

Statistical physics and thermodynamics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of studying the discipline is to inculcate the skills and abilities correctly to use the basic principles of thermodynamics and statistical physics in the selection and verification of mathematical models of a wide class of physico-mechanical processes. As a result of studying the discipline, the student will be able to: - to analyze the fundamentals of thermodynamics and statistical physics, its methods and the most important physical applications, taking into account the trends in the development of modern physics; - apply methods of thermodynamics and statistical physics to solve specific problems; - demonstrate the connection of fundamental experiments with the laws of thermodynamics using known mathematical methods. In studying the discipline, the following questions are considered: Equilibrium states and equilibrium processes. Temperature. Job. Status functions. Circular, cyclical processes. The cycle of an ideal thermal machine (Carnot). Thermodynamic coefficients. Systems with a variable amount of matter. Statistical regularities and methods of their description. The Boltzmann statistical entropy

Data for 2017-2020 years

disciplines

3D Modeling of Physical Processes
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Familiarizing students with the results of a numerical study of heat and mass transfer in turbulent reacting currents, studying currents for various industries, including in heat and power engineering and ecology, studying the process of electrothermochemical coal preparation for combustion and its combustion in a furnace of an energy boiler. As a result of studying the discipline, the student will be able to: - to evaluate the perspective directions of the development of industrial devices, working on the basis of various physical and chemical processes, their application taking into account world experience and resource efficiency; - apply modern methods and research tools to solve specific problems; - to carry out work on modeling objects using modern software.. In studying the discipline, the following questions are considered: Basic equations and a description of the method for solving three-dimensional modeling problems of the processes of convective heat and mass transfer in reacting media in areas of real geometry. Two-phase flow. Heat transfer by radiation. Derivation of difference equations by the control volume method. Modeling of optimal combustion modes for pulverized coal fuel using the example of Ekibastuz GRES. On the problem of reducing the yield of nitrogen oxides NOx. Plasma technology for burning low-grade coals in Kazakhstan to improve the efficiency of thermal power plants (TPPs).

Al-Farabi and Modernity
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of students' ideas about the scientific and philosophical heritage of the great Turkic thinker Abu Nasr al-Farabi in the context of the development of world and national culture. During the study of the discipline students will learn following aspects: The discipline is devoted to the presentation of the basic philosophical and scientific views of Abu Nasr al-Farabi. In the course of studying the course, the peculiarities of al-Farabi's philosophy and its significance for the present are considered, the question of the essence of the scientific and innovative project «Al Farabi university smart city» and its role in the formation of a smart society in Kazakhstan is touched upon. When studying the discipline, the following topics will be considered: the life and work of al-Farabi, the attitude of al-Farabi to religion, the teaching about the knowledge of al-Farabi, the logic of al-Farabi, the doctrine of the being of al-Farabi, the philosophy of Al- Farabi, the natural philosophy of al- Farabi and modern science, the philosophy of the art of al-Farabi, social and ethical views of al-Farabi, a virtuous city as a model of Al-Farabi university Smart-city.

Computational methods of thermal physics
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of the discipline is the study of mathematical methods, schemes and means of mathematical modeling in technical physics, based on the finite difference method, taking into account the mathematical and physical approaches, to study the theory of mathematical modeling applied to problems of technical physics. As a result of studying the discipline, the student will be able to: - apply the methods of mechanics and thermal physics in the mathematical modeling of educational problems; - use the knowledge gained in practice; - solve typical problems with the use of computers; - to possess skills of working in software systems designed to solve the problems of technical physics under study; - own methods of developing mathematical models. When studying the discipline, the following questions are considered: Numerical solution of nonlinear equations. Numerical integration. Numerical methods for solving ODE. Cauchy problem. Numerical methods for solving ODE. The boundary problem. Difference schemes for partial differential equations. Stability of difference schemes. Integral equations and optimization methods.

Ecology and Human Life Safety
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of the discipline: to form knowledge about the patterns of interaction of living organisms with the environment, the functioning of the biosphere, the fundamentals of ensuring human life security from harmful, damaging factors of a natural, man-made and social nature, methods of protection against hazards, measures to eliminate the consequences of accidents, catastrophes, natural disasters, environmental protection and environmental management. During the study of course, students should be competent in: - justify the dangerous and harmful factors of the human environment; - to analyze the conditions for maintaining ecological balance and ensuring environmental safety of the environment; - assess ways to reduce human impact, leading to climate change and the destruction of the ozone layer of the earth, the preservation of biodiversity and the prevention of desertification and land degradation; - organize rescue operations in emergency situations of various kinds; - use legislative and legal frameworks in the field of safety and environmental protection in practice; - predict emergencies and their consequences, make a decision on the choice of the main methods, means and methods of individual and collective protection in emergency situations. During the study of the discipline students will learn following aspects: global modern environmental problems, causes, stages of their formation and consequences, sustainable development of nature and society, international cooperation in the field of environmental protection. its role in preventing the ecological crisis and ensuring the sustainable development of mankind

Energy saving technologies
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Formation of knowledge about normative documents, stages and order of conducting energy inspections at the industrial enterprise and in power networks; On the methodological and instrumental basis of energy audit; About typical energy-saving measures; About elements of the economic analysis at a choice of principles of power savings. As a result of studying the discipline, the student will be able to: - organize a system of measures to manage energy conservation; - apply energy saving strategy and technologies in Kazakhstan; - attract investments in solving problems related to energy-saving technologies; - be able to evaluate the economic efficiency of energy saving measures; - introduce new mechanisms of energy and resource saving based on world experience. The is intended for studying of general problems of energy saving and state policy of the Republic of Kazakhstan on energy saving and introduction of non-traditional energy sources; methods of limiting energy conservation; ways of using secondary energy resources (VED) and energy-technological combination. In studying the discipline, the following issues are considered: Energy saving policy in Kazakhstan and the region. Accounting and control of electrical energy. Fundamentals of energy audit. Indicators of energy efficiency. Energy saving in the production of heating boilers. Methods for calculating electrical energy losses. Normalization of specific electricity consumption. Use of VED.

Engineering and construction materials of WET
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of knowledge about the nature, properties and methods of processing modern materials used in power engineering and thermal physics, particularly in wind energy, as well as the formation of knowledge on how to integrate wind power plants into the electrical network, on the management and optimization of operating modes of such a network, on its energy efficiency. As a result of studying the discipline, the student will be able to: - analyze the structure and properties of electrical and structural materials; - build diagrams of the state of double alloys and give them characteristics; - use thermal and chemical-mechanical processing to obtain the required properties of materials; - use materials processing methods; - apply the latest advances in materials science and material processing; - own methods of performing calculations in relation to the use of electrical and structural materials; - to master the methods of using basic metal and non-metallic materials in electrical production, namely, in electrical machines, apparatuses, stations and substations of renewable energy. When studying the discipline, the following questions are addressed: Methods and devices for the conversion of radiant renewable energy. Modes of operation and automation of renewable energy power plants. Determination of accumulation efficiency and calculation of the main energy characteristics. Composite materials in wind power. Polymer materials in renewable energy. Methods for obtaining bulk nanostructured metals and renewable energy alloys. Classification of metallic coatings. Metal coating methods. Энергия үнемдеудің физикасы/ Физика энергосбережения/ Physics of Energy Conservation

Entrepreneurship
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: is the formation of students' view about innovation in entrepreneurial activity, the main types of innovation, problems and methods of developing innovative projects in the context of future professional activity. During the study of the discipline students will learn following aspects: the main types of entrepreneurial activity and innovations, the difference between business and entrepreneurship, the basic theories of entrepreneurship, the rules for developing a business idea; rules for developing a business plan, the main phases of innovation; the basic subjects of innovative and enterprise activity.

Fundamentals of continuum mechanics
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form in the student’s mind a holistic conceptual base of the natural science about the basic phenomenological patterns of the behavior of solid, liquid and gaseous substances, the fundamental laws and equations of motion and state used in developing models of deformable bodies, liquids and gases. As a result of studying the discipline, the student will be able to: - perform operations on vector and tensor objects; - write the basic equations of continuum mechanics in Cartesian and curvilinear coordinates; - analyze the mathematical formulation of the problem and reasonably choose the way to solve it; - possess the skills of mathematical formulation, construction of solutions and analysis of the results of solving applied engineering problems using the methods of continuum mechanics; - possess the ability to independently replenish knowledge in the field of mechanics of a deformable solid, liquid and gas. When studying the discipline, the following questions are addressed: Introduction to continuum mechanics. Vectors and tensors. Continuous kinematics. Continuum dynamics. Defining relations for continuum. Mathematical formulations of problems on the motion of a continuous medium. Special cases of problems on the motion of a continuous medium.

Inclusive Education
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The goal of the course is to build the ability to apply modern strategies of inclusive education. The course is aimed at acquaintance of inclusive education, the formation of skills for designing pedagogical process of students. The specialist will be able to create optimal conditions for educational integration; apply strategies and methods of inclusive education, organize pedagogical support for subjects of educational integration;create optimal conditions for educational integration in a mass school;control the stability of their emotional state in interaction with children with special educational needs and their parents; analyze and evaluate the pedagogical process for children with special educational needs.

Legal Bases of Corruption Control
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: To form the ability to analyze the activities of public authorities, political and public organizations in the field of combating corruption. Give objective knowledge about the problems of corruption in modern society. To direct students' attention to the problems of the formation of anti-corruption culture. Explain the basic provisions of anti-corruption legislation to students. Familiarize them with the content of the national anti-corruption plan. To teach them how to overcome corruption. During the study of course, students should be competent in: - to substantiate and explain the anti-corruption policy of the Republic of Kazakhstan, - to determine the forms and methods of manifestation of corruption in various spheres of life, - to operate with legal concepts and categories related to the legal regulation of anti-corruption activities, - assess corruption-related situations for the formation of standards of behavior in accordance with legal and moral and ethical norms, - perform anti-corruption behavior, - form a legal anti-corruption thinking and consciousness. During the study of the discipline, students will learn following aspects: the regulatory framework for countering corruption as the main regulator of anti-corruption policy reveals the concept and essence of corruption, defines the legal framework for countering corruption, standards of anti-corruption behavior. Applied discipline has interdisciplinary connections with criminal, criminal procedure, civil and administrative law.

Methods of Calculation of Aerohydrodynamic Plants
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Familiarization of students with the fundamentals of continuum mechanics, with methods of calculating flows (oil, gas) in pipes and channels, flows in the boundary layer with longitudinal flow around the plate and in jets of different geometries; with the role and value of calculating such trends for the development of aircraft construction, rocket engineering and astronautics, heat and power engineering and the environment, oil and gas industry, etc. As a result of studying the discipline, the student will be able to: - perform aerodynamic calculations of pipeline systems with the selection of ventilation equipment; - solve practical problems of the calculation of pipeline systems for the movement of gases; - Possess the skills of technical thinking and working with measuring devices. When studying the discipline, the following questions are considered: Physical experiment in aerohydrodynamics. Similarity theory in aerohydrodynamics. Basic regularities of the upward airgas dynamics. Features of hypersonic flows. Basic concepts of boundary layer theory. Hydroaerodynamic characteristics of the wing profile. Aerodynamic characteristics of the wing. Gas-jet flows and their influence on the aerodynamics of aircraft. Acquaintance with the physical foundations of the theory of the wing in the mechanics of an ideal fluid; application of the laws of hydro-aerodynamics in aviation, space technology and energy.

Numerical methods in technical physics
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Studying of mathematical methods, schemes and means of mathematical modeling in technical physics, based on the method of finite differences, taking into account mathematical and physical approaches. To study the theory of mathematical modeling in relation to the problems of technical physics. To master the formulation of the tasks of technical physics. As a result of studying the discipline, the student will be able to: - use the basic numerical methods for solving mathematical problems; - develop algorithms and programs for solving computational problems, taking into account the necessary accuracy of the result; - analyze the methods of storing numbers in the computer's memory and actions over them, evaluating the accuracy of calculations, i.e. actions with approximate numbers. When studying the discipline, the following questions are considered: Theory of Mathematical Modeling. The concept and basis of the finite difference method. Overview of the basic methods of numerical simulation. Classification of physical and mathematical models. Methods of mathematical modeling. Numerical methods for solving problems in technical physics. Computer implementation of mathematical models. Identification and justification of models in technical physics.

Physical basics of aero-hydrodynamics
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of studying the discipline is the acquisition by students of knowledge on the theoretical foundations of aerodynamics and flight dynamics, on the design and strength of modern aircraft, the functioning of their basic systems and the basics of their design. As a result of studying the discipline, the student will be able to: - perform strength calculations of machine parts and mechanisms; - know the basic technological processes of production of aircraft and their systems and be able to formulate the requirements for them in order to ensure product quality; - apply computer technology and information technology to control production and its analysis; - to carry out mathematical modeling of the simplest systems using computer technology; - analyze and process the measurement results. In studying the discipline, the following issues are considered: The scheme and principle of operation of the axial compressor stage. Schemes and features of the centrifugal and diagonal stages of the compressor. Speed plan steps. Efforts on the blades, the work of rotation, loss and efficiency of the stage. The main parameters of the compressor stage (thermodynamic, geometric, kinematic and gas-dynamic). Steps with varying degrees of reactivity. The conditions for the joint operation of the elements of the stage located on different radii. Stage with constant circulation. Stage with constant reactivity. The main parameters of compressor grids (geometric and gas-dynamic). Lattice characteristics at low flow rates. The influence of Mach and Reynolds numbers on the characteristics of the lattice. Features of supersonic and transonic axial compressor stages.

Physics of Energy Conservation
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Study of the possibilities of using non-traditional and renewable energy sources in power supply systems of industrial enterprises; systems for converting solar radiation into electrical and thermal energy, using wind energy, sea currents, and thermal temperature gradients to generate electricity; the possibilities of using biomass and solid domestic waste for the production of electrical and thermal energy. As a result of studying the discipline, the student will be able to: - Analyze the decisions of the management bodies associated with the implementation of activities aimed at modernizing the rational use of energy resources; - apply the basic approaches and technologies for energy saving in the Republic of Kazakhstan; - Possess methods of implementing decisions of the management bodies associated with the implementation of activities aimed at modernizing the processes of rational use of energy resources When studying the discipline, the following issues are considered: Traditional and non-traditional sources of energy. Reserves and resources of energy sources. Dynamics of energy consumption and development of the energy sector, environmental problems of energy. Methods and methods of using geothermal heat for power generation and in heat supply systems, ecological indicators of GeoTES. Secondary energy resources (VED), use of VEP for obtaining electric and thermal energy. Wastes from production and agricultural waste, ways and possibilities of using them as primary sources for obtaining electric and thermal energy.

Physics of reacting systems
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of knowledge on theoretical and experimental research, mathematical and computer modeling, design and engineering of materials, devices, devices, installations, chemical and energy equipment complexes associated with fast exothermic processes, the formation of design, engineering, creation, installation and operation with ensuring fire safety of devices in which physical and chemical products are carried out Cess - analogues of combustion, detonation and explosion. As a result of studying the discipline, the student will be able to: - know power plants based on high-speed exothermic physicochemical processes, such as, for example, internal combustion engines, gas turbine installations, jet installations, including rocket engines on solid, liquid and combined fuel; - to assess the promising areas of development of industrial apparatuses operating on the basis of various physicochemical processes, their application, taking into account international experience and resource efficiency; - assess the effectiveness of the systems for recording parameters and controlling various technological processes; - carry out work on the modeling of objects using modern software; - have experience with modern software modeling. When studying the discipline, the following questions are addressed: Mechanism and speed of chemical reaction. Chemical reactions in the liquid and gas phases. Heterogeneous catalysis. Theory of combustion processes. Combustion of solid and liquid substances in an oxidizing atmosphere. Burning liquid explosives. Shock waves and detonation.

Physics of Turbulent Flows
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The development of skills and skills in the correct formulation or choice of equations in the construction of mathematical models for the description of developed turbulent flows. As a result of studying the discipline, the student will be able to: - apply the apparatus of the theory of turbulence in the selection and modification of equations for modeling various hydrodynamic systems, analyze the processes of transition from laminar to turbulent flows; - analyze and select equations for the formulation of boundary-value problems of fluid and gas mechanics; - Possess the skills of kinematic description of the propagation of nonlinear waves in turbulent flows for the construction of closed mathematical models of hydrodynamic systems. In studying the discipline, the following issues are considered: Phenomenological description of the phenomenon of turbulence and the stages of its development. Kinematic description of the propagation of nonlinear waves in turbulent flows. Methods for solving linear wave equations in inhomogeneous media. Turbulent cascade of energy of nonlinear waves.

Plasma technology in thermal power engineering
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Aim оf discipline: the formation of basic knowledge and a set of skills necessary to solve problems in the field of ion-plasma processing of coal in thermal power engineering, to acquaint students with the physical fundamentals of radiation and plasma technologies for processing coal particles, to form the basis of the physics of these phenomena on which these technologies are based , with the principles of selection of equipment and other important issues related to this topic. During the study of course, students should be competent in: - determine, systematize and obtain the necessary data in the reference scientific and technical literature using modern information technology; - know the fundamental physical processes underlying the design of the vacuum system of ion-plasma installations; - know the principles of action, the main characteristics and parameters of plasma devices and methods for their design; - be able to predict the environmental consequences of the implementation of various technological projects; - be able to analyze the operating parameters of modern plasma equipment and manage its work in order to achieve specified technological goals. During the study of the discipline students will learn following aspects: technology based on high-intensity electron fluxes (a thin scanning beam, a powerful pulsed beam, obtaining high-intensity bremsstrahlung X-ray fluxes, etc.), plasma processing of coal particles on a plasma torch, the state of the world and Kazakhstan beam and plasma technologies based on the use of ion beams and gas-discharge plasma).

The physics of combustion processes
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - To familiarize students with the basics of the theory and experimental methods of studying the processes of burning liquids and gases; with the fundamentals of continuum mechanics, with methods for calculating the laminar boundary layer for longitudinal flow past a plate and in jets of different geometries; to give an idea of its role and significance in the development of aircraft construction, rocket technology and astronautics, in describing the processes of heat and mass transfer in such branches of science and technology as energy, ecology and environmental protection. As a result of studying the discipline, the student will be able to: - analyze the characteristics of combustion and explosion processes, the patterns of their propagation in various environments; global and regional environmental problems related to fires and the use of explosives and nuclear munitions; - apply the knowledge gained in practical activities to develop ways to reduce the impact of combustion and explosion processes on humans and the environment; - Possess engineering methods for calculating the effects of combustion and explosion processes on various objects. In studying the discipline, the following questions are considered: Fundamentals of chemical kinetics. Coefficients of stoichiometry. Reversible reactions. The equilibrium constant. Speed reaction. The order of the reaction. Dependence of the reaction rate on pressure. Molecular-kinetic basis of the Arrhenius law. The theory of thermal explosion. Stationary theory of the thermal explosion according to Frank-Kamenetsky: exponential expansion; solution for a flat vessel; form of equations for cylindrical and spherical vessels.

The theory of thermal conductivity
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - To talk about the technical characteristics of devices, dielectric conductive media, electrical conductivity and contact phenomena in various media, nature and laws of the magnetic field, the law of electromagnetic induction, the Maxwell equations system. We are studying devices based on the theory of electromagnetism. preparation of students for the use of analytical methods for solving the parabolic transport equation, regardless of its physical content; the ability to analyze the solutions obtained and propose ways to optimize the thermal conditions of the facility according to the design documentation. Mastering the algorithm for setting and solving the problem under boundary conditions of various kinds and mixed ones; analysis of the solutions obtained in order to optimize the thermal regime of the facility and suggest ways of its implementation; as well as development of cognitive interests, intellectual and creative abilities in the process of acquiring knowledge in physics using various sources of information and modern information technologies. As a result of studying the discipline, the student will be able to: - carry out calculations to determine thermal resistance, thermal conductivity, heat transfer of heat-insulating material through flat, cylindrical and spherical single- and multilayer walls, temperatures on the wall surface; - Possess the technique of calculation of thermophysical properties of heat-insulating material; - be able to solve typical problems associated with the main sections of mathematical physics, the Fourier method by means of representation of the solution in the form of a functional series. In studying the discipline, the following issues are considered: Physical principles of operation and characteristics of simple and complex electrical and magnetic devices, physical principles of heat transfer by thermal conductivity. Thermophysical properties of matter. Coefficients of thermal conductivity and thermal diffusivity. Boundary conditions. Methods for solving the parabolic heat equation. The classical method of separation of variables. The Laplace method. Solution of the heat equation with different boundary conditions.

Thermal properties of substances
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Familiarization of students with methods for calculating the thermophysical properties of hydrocarbons in the liquid and gaseous state; to form students' understanding of the methods of calculating the thermophysical properties of hydrocarbons, their applications and their inaccuracies; To give students the practical skills necessary for their future professional work to carry out calculations of the thermophysical properties of hydrocarbons. As a result of studying the discipline, the student will be able to: - analyze the relationship of thermophysical properties with the molecular structure of matter, the energy of interaction of atoms and molecules, with external conditions and impacts; - demonstrate knowledge of the methods of physical and thermodynamic basis for determining thermophysical properties; - apply theoretical knowledge to solve specific thermophysical problems. In studying the discipline, the following questions are considered: Analytical equations of the state of matter in the gaseous state. Thermodynamic method in the theory of thermophysical properties of substances. The law of the corresponding states and its application for calculating the thermophysical properties of substances in the gaseous and liquid state. Transport phenomena in substances in the gaseous and liquid state. The equilibrium of liquid-vapor phases and critical phenomena in one-component substances and their mixtures. Thermophysical properties of substances in the gas-condensate state. Thermophysical properties of oils of gas condensates and their fractions.

Types of wind turbines and calculation of their parameters
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of a knowledge system of scientific and technical fundamentals of the use of renewable sources in the energy processes of state and autonomous power supply systems, providing solutions to energy and resource saving problems, familiarity with common problems of introducing renewable energy sources (RES), energy saving at the present stage and in the future, and state policy of the Republic of Kazakhstan in this area, as well as the study of methods and technical means for the effective use of renewable energy, methods for determining the economic efficiency of technical solutions and proposals for the use of renewable energy sources and energy saving. As a result of studying the discipline, the student will be able to: - to formulate practical tasks on the application of methods and technologies of RES and RES in production; - make practical calculations and selection of power plants based on renewable energy sources; - develop organizational and technical measures for the operation of installations of RES and RES. When studying the discipline, the following questions are addressed: The relevance and scientific principles for the use of renewable energy sources, secondary energy resources in the world and Kazakhstan The limited reserves of traditional energy. Types of RES. Basics of wind turbine design. Types and principle of operation of wind turbines. Completion wind power. Electromechanical converters in wind power plants.

Viscous fluid flow
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - Familiarization of students with the fundamentals of continuum mechanics, with methods for calculating the boundary layer for longitudinal flow past a plate and in jets of different geometries; to give an idea of its role and significance in the development of aircraft construction, rocket technology and astronautics, in describing the processes of heat and mass transfer in such branches of science as heat and power engineering and ecology. As a result of studying the discipline, the student will be able to: - apply methods of differential and integral calculus, in solving problems of fluid mechanics and gas; - apply methods for solving problems with phase transitions; - Possess methods of mass transfer analysis in technological processes. In studying the discipline, the following questions are considered: Fundamentals of continuum mechanics, methods for calculating the boundary layer for longitudinal flow around a plate and in jets of different geometries, a representation of its role and significance in the development of aircraft construction, rocket technology and astronautics, in describing the processes of heat and mass transfer in such branches of science, as heat and power engineering and ecology.

Writing and Presentation of Diploma Work (Project)
  • Type of control - Дипломная работа
  • Description - The main purpose of "Writing and Presentation of Diploma Work (Project) ": is to determine the level of the student's preparation and the degree of mastering the acquired knowledge and skills in the chosen specialty, which is aimed at solving the problem under study using the methods of scientific analysis, theoretical generalization, and practical conclusions, justified suggestions and recommendations for improving the process in the studied area. During the study of course, students should be competent in: 1. substantiate the relevance, content, and results of the studied problem; 2. possess a culture of thinking, the ability to generalize and analyze information; 3. use modern research methods and advanced information technologies; 4. analyze problems and processes in the sphere of their professional activity; 5. build logically reasoned written and spoken language. During the study of the discipline students will learn following aspects: The choice of the theme of the thesis and the wording of the title. Content of the thesis. Brief description of the structural elements of the thesis. Relevance of the topic. Setting goals and objectives. Review and analysis of known decisions on the research topic. Formulation of scientific conclusions. Practical conclusions (practical value of the work). Preliminary defense of the thesis. Applications. The bibliographic list. Checking work on antiplagiat. Documents submitted for the defense of the diploma. Reviewing the thesis work.

Нeat and mass transfer
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the development of the basics of the theory of heat and mass transfer by students, understanding of the processes of transfer of heat and mass occurring in nature in technological processes and technological installations, instilling a technical view of the world, a technical way of thinking. As a result of studying the discipline, the student will be able to: - know the processes of transfer of heat and mass, physical and mathematical models of these processes, the simplest methods of their use for calculating temperature fields, heat fluxes, material fluxes in the elements of heat engineering and heat technology installations; - be able to calculate the temperature fields, heat fluxes, substance fluxes in the elements of heat engineering and heat technology installations; - to own methods for assessing the basic measurement errors; the skills of experimental measurements of temperature, pressure, flow, density, viscosity and thermal conductivity of bodies; - have the ability to use the fundamental laws of nature and the basic laws of natural sciences in professional activities. In studying the discipline, the following issues are considered: Introduction to heat and mass transfer. Ways to transfer heat. Basic definitions, terminology. Introduction to convective heat transfer. Convective heat transfer when the fluid flows in the pipes (channels). Heat transfer during phase transformations of the coolant. Heat transfer by radiation in a system of bodies separated by a diathermic medium. Fundamentals of calculation of heat transfer by radiation between a radiating absorbing medium and heating surfaces of heat exchangers.

Тhe preparation and delivery of complex examination
  • Type of control - ГЭК по фунд.дисциплинам
  • Description - The main purpose of "Writing and Presentation of Diploma Work (Project) ": in the specialty is determining the level of obtained theoretical and practical knowledge during the training of students in the educational program of vocational training. The exam program includes thematic sections that correspond to the main academic disciplines of the main and elective modules of the basic curriculum. During the study of course, students should be competent in: 1. determine the main provisions of the issue's subject; 2. substantiate the characteristic properties of the qualitative and quantitative characteristics of products and processes, explain the relationships between them; 3. generalize and analyze information; 4. understand the problems and processes in the sphere of their professional activities; 5. build logically true, reasoned and clear oral speech. During the study of the discipline students will learn following aspects: The content of the state examination is determined by the specialty's program in accordance with the requirements of the bachelor's training level for determining academic, social, personal and professional competencies in accordance with the professional standard of the specialty.

Data for 2017-2020 years

INTERNSHIPS

Pre-diploma practice
  • Type of control - Защита практики
  • Description - The purpose of pre-diploma practice is holistic structuring a thesis on an approved topic. In the course of practice, the systematization of materials on the main sections of the thesis collected during the production practice at the enterprise, the analysis, and processing of statistical data, the development of recommendations for improving the activities of the enterprise, the design of the thesis in accordance with the requirements for the thesis are carried out.

Training
  • Type of control - Защита практики
  • Description - The goal of practical training is: consolidating and deepening theoretical knowledge; acquisition of practical skills in the studied specialty; mastering the skills of using modern computer technologies and experimental methods in the specialty; familiarization with the production activities of institutions that are the bases of practice; familiarization with equipment, technology, organization of production of the enterprise, the acquisition of practical skills and organizational work in the specialty.

Training Practice
  • Type of control - Защита практики
  • Description - The purpose of the training practice is to familiarize the student with the activities of the University, faculty, and Department, with educational programs implemented by the University, the specialty being taught, types, functions, and tasks of future professional activity. During the practice, the student passes safety instructions, performs independent work, fills out a practice diary, and makes a report on the practice.

Data for 2017-2020 years