Bachelor's program
Standardization and certification (by industry)

Standardization and certification (by industry)

MODEL OF GRADUATING STUDENT

ON1 to implement control of the compliance with the mandatory requirements of normative documents (international, inter-state and national standards; technical regulations, standards of consortia and organizations);
ON2 to conduct a study about the causes of defects in production and to develop measures for its reduction and elimination; analyze the results of the experiment using the methods of mathematical statistics; use mathematical methods for solving technical problems using the basic laws of physics;
ON3 to select the appropriate scale for the numerical evaluation of this feature and the method of measurement, precisely formulate, state the problem, draw conclusions based on the obtained measurement results; apply product quality indicators in the forecasting and planning of product quality improvement;
ON4 to identify objects and connections that describe the relevant subject area for database development; apply basic database models and explain the methodology for designing relational databases; use expert assessment methods to obtain objective information about the properties of products;
ON5 to put into practice the stages and schemes of certification of products, services and processes, use the methods of quality control of products and processes during the work on conformity assessment; carry out certification according to the rules in the established sphere of professional activity; competently use the data given in the sign and certificate of conformity;
ON6 to put into practice various types and types of tests in accordance with normative technical documents, conduct tests at the level of modern requirements in the development, manufacture, and certification of materials, structures, and products;
ON7 to classify goods, identify their assortment, evaluate quality, diagnose defects, determine quality gradations;
ON8 to plan and implement accreditation activities for bodies to confirm the compliance of test centers and laboratories; use normative and legal documents in the field of accreditation in their professional activities; to put into practice the implementation of the requirements of GOST ISO / IEC 17025-2009;
ON9 to develop a quality management system audit program and conduct an internal audit of the quality management system; to assign corrective and preventive actions, to assess the compliance of the mandatory requirements of the standards, to apply the knowledge for improving the organization’s activities based on the use of modern quality management systems;
ON10 to carry out environmental monitoring at the facilities of the fuel and energy complex, the development of energy in the direction of the use of renewable energy sources, the development of technologies for clean energy; to develop and implement activities for the preparation for the licensing of the professional field of activity; competently fill out information sheets, opinion forms based on the results of inspection control, inspection report forms, and other documents using modern computer technologies;
ON11 to conduct an examination of state standards and classifiers of technical and economic information, international, regional, national standards and changes to them in the prescribed manner;
ON12 to express their own assessment of everything happening in the social and industrial spheres; enter into communication in oral and written forms in Kazakh, Russian and foreign languages to solve problems of interpersonal, intercultural and industrial (professional) communication.

Program passport

Speciality Name
Standardization and certification (by industry)
Speciality Code
6B07501
Faculty
of Physics and Technology

disciplines

Accreditation of Conformity Assessment Bodies and Testing Laboratories
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Accreditation of Conformity Assessment Bodies and Testing Laboratories": is the formation of students' skills in applying methods of practical organization and carrying out work on the accreditation of conformity assessment bodies and testing laboratories and centers; the ability to use normative and technical documentation in practice, the study of legislative and regulatory legal acts when solving practical problems in the field of accreditation of conformity assessment bodies and testing laboratories and centers. During the study of course, students should be competent in: 1. substantiate the basic requirements for conformity assessment agency and testing laboratories and centers; 2. conduct a qualitative assessment of the compliance of products according to requirements of the legislation of the Republic of Kazakhstan; 3. correctly fill information sheets, forms of conclusion based on the results of inspection control, the form of the inspection certificate and other documents; 4. draw up the conclusions according to the results of the laboratory's participation in interlaboratory comparative trials; 5. know how to do methods of practical organization and work on the accreditation of conformity assessment bodies and testing laboratories and centers. During the study of the discipline students will learn following aspects: Participants in the activity on accreditation. Accreditation of bodies for the confirmation of compliance. Accreditation of the testing laboratory (center). Order of accreditation of experts. Inspectional control of testing laboratories. Certification of test equipment. Evaluation of the quality of the test laboratory. General requirements for the competence of testing and calibration laboratories. Basic requirements for the competence of standard sample manufacturers. Accreditation systems for calibration and testing laboratories. The order of consideration and passage of documents at accreditation.

Atomic and nuclear spectroscopy methods
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Atomic and nuclear spectroscopy methods ": is the formation of the knowledge about the origin of the absorption, emission and scattering spectra of light, the basic laws of spectroscopy, the relationships between various forms of interaction of light with matter and the corresponding variants of spectroscopic methods of molecular or atomic (elemental) analysis. During the study of course, students should be competent in: 1. choose the equipment for measuring the spectral characteristics of radiation; 2. conduct fundamental and applied research using atomic spectral analysis; 3. use modern methods to study the elemental composition of products; 4. use optical instruments to solve problems of analytical spectroscopy; 5. carry out a decoding of the spectra for calculating the concentrations of substances in the samples for spectral analysis. During the study of the discipline students will learn following aspects: The structure of the atom. Atomic spectroscopy. Quantitative analysis in atomic spectroscopy. The construction of spectrometers. Plasma-atomic emission spectroscopy. Elements of a typical atomic-emission and atomic-absorption spectrometer. Source of radiation. The choice of the analytical line. Choice of slot width. Analysis of trace amounts of substances. Optical emission spectroscopy with inductively coupled plasma (ICP-OES). Sources of errors in OES-ICP. Spectra of radiation, concentration of substances.

Basics of higher mathematics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Basics of higher mathematics ": is formation of the student's knowledge and mastering of the basic concepts, laws, formulas, theorems, and methods of mathematical research which are studied in technical higher educational institutions. Mathematics contains a set-theoretical view of mathematical objects - a function, a functional, operators, geometric images, vectors, matrices. During the study of course, students should be competent in: 1. justify the derivatives and integrals of different kinds of functions; 2. choose modern mathematical methods for solving applied tasks; 3. apply the achievements of fundamental science for the successful studying of general-theoretical and special technical disciplines, the development of mathematical thinking and logic; 4. analyze and be competent in choosing methods of mathematical modeling for solving specific technical tasks; 5. compare the limit of a function of two variables. During the study of the discipline students will learn following aspects: Linear algebra. Vector algebra. Analytical geometry on the plane and in space. Introduction to the analysis. Integral calculus of functions of one variable. Functions of many variables. Theory of series.

Basics of technical regulation
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Basics of technical regulation ": is the formation of students' knowledge about the general principles, methods and procedures in the field of technical regulation, preparing them for solving professional tasks with the purpose achieving quality and efficiency of work based on using methods for ensuring the unity of measurements, standardization, and also confirming properties and characteristics by certification for compliance with state and international norms. During the study of course, students should be competent in: 1. participate in the development of draft standards, methodological and regulatory materials, technical documentation; 2. monitor the compliance of the established requirements, existing norms, rules, and standards; 3. analyze scientific and technical information, domestic and foreign experience in the field of technical regulation; 4. establish the optimum norms of the accuracy of measurements and the reliability of control, to choose the means of measurement and control; 5. give the evaluation of the nomenclature of measured and controlled production parameters and technological processes. During the study of the discipline students will learn following aspects: Basic concepts in the field of technical regulation. Goals and objectives of technical regulation. Standardization is a tool for technical regulation. The efficiency of standardization. Actual problems of technical regulation in the Republic of Kazakhstan. Objects and principles of technical regulation. Categories and types of technical regulations. State system of technical regulation.

Certification
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' knowledge about the basics of certification, about the national certification system and about responsibility for violation of certification legislation, about certification in foreign countries, and the EEU. As a result of studying the discipline, the student will be able to: 1. apply in practice the stages and schemes of certification of products (services) and processes using methods and tools of qualimetric analysis; 2. use computer technology for planning and carrying out work on standardization and confirmation of compliance; 3. use the procedure and rules for the carrying out the confirmation of conformity products and services; 4. carry out certification according to the rules in the established field of activity. 5. fill out certificate forms, applications for certification, sampling certificates. While learning the discipline, students will study the following aspects: Certification, organizational certification system. The structure of the legislative and regulatory framework for certification. The Law of the Republic of Kazakhstan “On Technical Regulation”. The Law of the Republic of Kazakhstan “On the Protection of Consumer Rights”. Certification schemes, certificate of conformity, statement of conformity. Mandatory and voluntary certification. The mark of conformity and the procedure for its application. Studying the procedure for certification of goods and the rules for filling out certificate forms. Participants of the mandatory certification are manufacturers of products or service providers, certification bodies, testing laboratories, state executive authorities. The procedure for mandatory certification of services. Inspection control of certified services.

Certification of products and services
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Certification of products and services ": is the formation of students' knowledge about the basic principles and provisions of certification in the Republic of Kazakhstan, the areas of application of certification, schemes and systems for attesting compliance, the rules and procedures for confirming the conformity of products and services, scientific and technical support for certification, rules and procedures for confirming the conformity of quality systems. During the study of course, students should be competent in: 1. choose the schemes of certification of products and services; 2. fill in the forms of certificates, applications for certification, acts of sampling; 3. use the order and rules for conducting the process of conformity assessment of products and services; 4. apply methods of quality control of products and processes when carrying out confirm compliance; 5. conduct certification according to the rules in the established field of activity. During the study of the discipline students will learn following aspects: Certification, the organizational system of certification. Certification schemes, conformity certificate, declaration of conformity. Mandatory and voluntary certification. The sign of conformity and the order of its application. Structure of the legislative and regulatory framework for certification. Study of the procedure for certification of goods and rules for filling out certificate forms. Participants of mandatory certification - manufacturers of products or service providers, certification bodies, testing laboratories, state executive bodies. The procedure for conducting mandatory certification of services. Inspection control of certified services.

Company Quality System Certification
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Company Quality System Certification ": is the formation of knowledge about the theoretical principles of certification of enterprise's quality system; about the methods of conducting a comprehensive analysis of the effectiveness of the use of a certain system of certification of quality systems; about conducting certification tests of products and services in full compliance with the legislative framework; about methods for the integrated assessment of quality systems. During the study of course, students should be competent in: 1. develop recommendations for the necessary actions for eliminating deficiencies and improving the work of the certification of quality systems; 2. choose programs of certification quality system; 3. apply programs of testing products and services to confirm compliance with the requirements of the legislative framework; 4. analyze the activity of the QMS organization in accordance with the requirements of ISO 9001; 5. evaluate the criteria for making decisions on compliance or non-compliance of QMS with the established requirements. During the study of the discipline students will learn following aspects: Mechanisms of quality management. Quality management systems. Preparation for certification of the quality management system. Definition, purpose, and objectives of certification of quality systems. Objects to check. Stages and organization of work on certification of quality management systems. Certification of quality systems in Kazakhstan and abroad. Types of audits: quality system audit, process audit, product audit. Internal and external audit of quality systems.

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.

Database and Expert Systems
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Database and Expert Systems": is the formation of students' a systematized form of practical skills in building databases and expert systems to ensure product quality and using the databases for expert assessments of product quality. During the study of course, students should be competent in: 1. work with databases in MS Access by using queries, reports, and screen forms; 2. identify the objects and relationships describing the relevant subject area for the development of databases; 3. apply basic database models and explain the methodology for designing relational databases; 4. develop a domain model; create an appropriate database to ensure product quality; 5. use methods of expert assessments to obtain objective information about the properties of the products. During the study of the discipline students will learn following aspects: In studying the discipline, the following aspects will be considered: The concept of a database, database, database management systems (DBMS). Structure and structure of DBMS, properties of databases. Classification of database types: the volume of information and ways to reflect relationships, the relational database model, the composition and structure of relational databases, the network model of the database, the administration of databases. Hierarchical database model, database design levels: conceptual, logical and physical. Database management system. Expert system: basic concepts and concepts; requirements for the expert system; consideration of large-scale expert systems. The classification scheme of expert systems. The basic concepts of building expert systems. Methods of expert assessments: methods and methods of applying expert assessments.

Electrical and optical measurements
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Electrical and optical measurements ": is the formation students' basic knowledge about physical phenomena, concepts, and laws of the "Electrical and optical measurements", 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. During the study of course, students should be competent in: 1. interpret and independently work with educational and reference literature; 2. solve the typical tasks of electricity and magnetism by using the theory of electrical circuits; 3. apply the laws of electrodynamics for explaining physical phenomena in nature and technology; 4. use physical laws when analyzing and solving problems of professional activity; 5. evaluate, measure and process the results of the experiment of electrical quantities with the required accuracy of measurements. During the study of the discipline students will learn following aspects: Electrostatics. Interaction of electric charges. The law of conservation of electrical 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 circuit with a galvanic cell. The rules of Kirchhoff. A magnetic field. The principle of superposition. The Biot-Savart-Laplace law. Calculations of the magnetic fields of the simplest systems.

Estimation of measurement uncertainty
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of practical skills for assessing and expressing uncertainty in a wide range of measurements. As a result of studying the discipline, the student will be able to: 1. describe the measurement and make its model; 2. use the methodology for estimating uncertainty; 3. evaluate the values and standard uncertainty of the input values of the measurement results; 4. to conduct a study of the causes of defects in the production of low-quality products and the development of measures to reduce the number of defects within the production process, using the methodology for calculating the uncertainty of measurement results; 5. calculate extended uncertainty. While learning the discipline, students will study the following aspects: The process of assessing uncertainty. Estimation of values and standard uncertainties of input quantities. Correlation analysis. Definitions of measurement uncertainty and uncertainty. Uncertainty assessment during calibration of measuring instruments. Calculation of uncertainty using instruments. Budgeting uncertainty. Calculation of estimates of the output value. Calculation of the standard uncertainty of the output quantity. Calculation of extended uncertainty. Presentation of the final measurement result. Calculation of total standard uncertainty. ST RK 2.184-2010 Uncertainty assessment during calibration of measuring instruments (EA-04 / 02-1999, NEQ).

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.

Fundamentals of auditing an enterprise quality system
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Basis of audit quality system of the enterprise": is to form students' knowledge of the prospective areas of modern management; about quality management in accordance with the requirements of international standards series ISO 9001; about the specifics of the audit of the quality management system of enterprises. During the study of course, students should be competent in: 1. develop documents for conducting an audit in the organization; 2. organize and conduct an audit of the unit; 3. evaluate, compare and verify the QMS elements; 4. perform an audit of the process; 5. to evaluate actions based on the audit results. During the study of the discipline students will learn following aspects: A modern concept of quality audits. International standard on audit. Terminological base. Purpose of the audit. Types of audit. Qualification criteria for expert auditors. Audit of products, process, quality system. Internal audit. Organizational principles of internal audit. Audit planning. Preparation of audit. Conducting internal audit. Objects to check. Participants in the audit. Execution of results of verification and evaluation. External audit (second and third parties). Organization of works. Inspection control.

Fundamentals of electrical engineering and electronics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of knowledge about the principles of work of electronic equipment, electrical appliances, and equipment with certain parameters and characteristics; about their constituent elements, about their mathematical descriptions, the basic methods of analysis and calculation in static and dynamic modes of operation; training in the ability to conduct observations and calculations on steady and transient processes in electrical circuits for the preparation and calculation of equivalent circuits of electrical devices. As a result of studying the discipline, the student will be able to: 1. apply the methods of measuring electrical quantities using electrical measuring instruments; 2. describe and interpret, in practice, an effective methodology for the experimental study of the parameters and characteristics of devices, circuits; 3. adhere to the basic rules for the operation of electrical equipment and methods for measuring electrical quantities; 4. predict the results of the study, to solve experimental problems of various difficulty levels; 5. select electronic devices, electrical appliances, and equipment with certain parameters and characteristics. While learning the discipline, students will study the following aspects: Electric current. DC electric circuits. Simple and complex DC circuits. Alternating sinusoidal electric current. The concept of vector diagrams. Elements and parameters of electric circuits of alternating current. Calculation of unbranched AC circuit. The calculation of branched AC circuits. Resonance in electrical circuits. Three phase circuits. Transformers Quadripoles. Transients in electrical circuits. Electrophysical properties of semiconductors. Semiconductor resistors. Diodes. Transistors Varieties of indicator devices. Integrated circuits. Logical elements. Classification of amplifiers.

General Theory of Measurements
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " General Theory of Measurement ": is the formation of students’ theoretical knowledge about providing the unity of the required accuracy of measurements, the methods of measuring various physical quantities and processing their results. During the study of course, students should be competent in: 1. carry out the processing of measurement results; 2. organize a measurement experiment, correctly select and use measuring instruments, analyze experimental data; 3. analyze the measurement schemes of various physical quantities, determine the factors that affect to the measurement result; 4. relate the concepts and methods of measurement theory to the concepts and methods of mathematical statistics; 5. provide the guaranteed accuracy, correctness and reliability of measurement results, use metering information competently. During the study of the discipline students will learn following aspects: Basic representations of the general theory of measurements. The first axiom of metrology. The second axiom of metrology. The third axiom of metrology. Multiple measurement. Single measurement. Quality of measurements.

Information and Communication Technologies
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of discipline: it consists in the formation of a new "digital" thinking, a critical understanding of the role and importance of modern information and communication technologies, the ability to apply information and communication technologies in various professional activities During the study of this course, students should be competent in: - to explain the purpose, content, and trends of information and communication technologies, to justify the choice of the most appropriate technology for specific tasks; - explain the methods of collection, storage, and processing of information, methods of implementation of information and communication processes; - describe the architecture of computer systems and networks, the purpose and function of the main components; - use Internet information resources, cloud, and mobile services for search, storage, processing, and dissemination of information; - use software and hardware of computer systems and networks for data collection, transmission, processing, and storage; - analyze and justify the choice of methods and means of information protection; - using digital technologies to develop data analysis and management tools for different activities; - to carry out project activities in the specialty with the use of modern information and communication technologies. During the study of the discipline, students will learn the following aspects: The role of ICT in key sectors of society. Standards in ICT. Introduction to computer systems. The architecture of computer systems. Software. Operating system. Human-computer interaction. Database system. Data analysis. Data management. Networks and telecommunications. Cybersecurity. Internet technology. Cloud and mobile technologies. Multimedia technologies. Smart technology. E-business. E-learning. E-government. Information technologies in the professional sphere. Industrial ICT. ICT development prospects.

International quality standard
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: familiarization with the international ISO standardization system, studying the requirements of international standards about quality management of production and services. As a result of studying the discipline, the student will be able to: 1. apply the principles and main provisions of international quality standards; 2. know the regulatory and methodological documents regulating product quality issues 3. evaluate products (services) for compliance with the requirements of regulatory documents of international standardization and certification. 4. explain the current requirements of international standardization and certification. 5. interpret the prospects for the development of international standardization. When learning the discipline, students will study the following aspects: The essence of international standardization, its objectives, development prospects. The main stages and prospects for the development of international standardization. International Organization for Standardization (ISO), its goals, principles of work. International Electrotechnical Commission. ISO international standardization system. Development of standards for organizations. Purpose and content of the EU Guide to Good Manufacturing Practice for Medicinal Products (GMP). The principles of TQM and their implementation in quality management systems (QMS). Purpose and content of the international standard (MS) ISO 9001: 2015. The requirements of MS ISO 9001: 2015 ISO and the procedure for their implementation in the QMS.

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.

Methods of Experimental Data
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Methods of experimental data ": 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.

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.

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.

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.

Organization and technology testing
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Organization and technology testing": is the formation of future specialists' systematic view of the different kinds and types of tests, as well as assessing the quality and assessing compliance with regulatory technical documents based on the results of the carried out tests; ability to solve methodical, technological and other tasks of testing, arising in the development, manufacture, and certification of materials, structures, and products. During the study of course, students should be competent in: 1. develop programs and test methods; 2. generalize and interpret the results of the tests; 3. use the criteria for selecting test equipment; 4. analyze facts, phenomena, patterns and independently formulate conclusions; 5. develop recommendations for improving test methods. During the study of the discipline students will learn following aspects: Goals and tasks of the tests. Terms and Definitions. Types of tests. Objects and classification of tests. General requirements for testing technology. Normative bases of tests. Program and test procedure. The main requirements for technical documentation submitted for testing. Planning of the test process. Procedure for conducting metrological examination of technical tasks for the development of measuring instruments. Evaluation of the technical level of measuring instruments. Technical level and quality map. Preparation of measuring instruments and technical documentation for testing. Metrological characteristics of measuring instruments. Completion of tests by means of measurements. Conditions and place of testing. Time of the test works. Stages and operations of preparation and carrying out of tests. Conducting tests at the level of modern requirements. Methods of testing. Tests with recovery and without restoration. Tests for functioning. Simulation of external factors and their reproduction.

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 and chemical methods of analysis and control
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of students' knowledge about the physicochemical properties of raw materials, materials, and finished products according to industry specialization; about devices and principles of operation of the main laboratory equipment, instrumentation used in chemical laboratories, about means of automatic control and regulation, about rules for drawing up technical documentation for laboratory analyzes and tests. As a result of studying the discipline, the student will be able to: 1. have skills in using physicochemical methods of analysis; 2. use laboratory and control equipment; 3. conduct a physicochemical analysis of the products and evaluate its results; 4. apply production technological calculations; 5. carry out mathematical processing and evaluation of the results of the analysis. When learning the discipline, students will be studying the following aspects: Optical methods of analysis. Photometric analysis method. Nephelometric and turbidimetric methods of analysis. Luminescent analysis method. Refractometric analysis method. Polarimetric analysis method. Chromatographic analysis methods. The technique of chromatographic analysis of liquids. Electrochemical methods of analysis. Conductometric analysis method. Modern methods of analysis. Flame photometry method. Physico-chemical analysis of products. Mathematical processing and evaluation of analysis results.

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.

Physical Training
  • Number of credits - 8
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • 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-1
  • 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.

Physics-2
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Molecular physics ": is to form the students' knowledge of this section of the course as a physical theory based on the generalization of observations, experiment and practical experience, explaining the statistical nature of the laws of molecular physics; application of molecular form of movement in ecology and methods of molecular physics for the study of ecosystems. During the study of course, students should be competent in: 1. solve typical tasks in molecular physics and thermodynamics; 2. choose the laws of molecular physics for the quantitative solution of qualitative tasks; 3. apply the statistical nature of the motion system of a large number of particles in the sphere of professional activity; 4. use the laws of molecular physics in research and study of the structure and properties of the objects of nature at various levels of its organization; 5. evaluate the degree of reliability of the results obtained with the help of experimental or theoretical methods of investigation. During the study of the discipline students will learn following aspects: Molecular physics and thermodynamics. Fundamentals of the molecular-kinetic theory. Molecular-kinetic meaning of temperature. The average kinetic energy of molecules of an ideal gas. Thermodynamic parameters. An equation of state of an ideal gas. Statistical Distributions. The pressure in liquid and gas. An equation of continuity. The Bernoulli equation. Some applications of the Bernoulli equation. Modes of fluid flow. The first law of thermodynamics. Thermodynamic Processes. Carnot cycle and its efficiency. Real gases. The Clapeyron-Clausius equation.

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.

Probability Theory and Mathematical Statistics
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Probability theory and mathematical statistics ": is forming students' knowledge about the fundamentals of probability theory and mathematical statistics, random processes, statistical estimation and testing of hypotheses, and statistical methods of processing experimental data. During the study of course, students should be competent in: 1. conduct primary processing and control of surveillance materials; 2. select standard methods and models for solving probabilistic and statistical tasks; 3. apply calculated formulas, tables, graphs in solving statistical problems; 4. analyze the results of the experiment by using methods of mathematical statistics; 5. substantiate the choice of typical methods and ways of calculating statistical tasks, evaluate their effectiveness and quality. During the study of the discipline students will learn following aspects: Basic concepts. Elements of combinatorics. Random values (RV) and the laws of their distribution. Distribution function. The density of distribution. Investigation of the system of two RV. Limit theorems of probability theory. Elements of mathematical statistics. Determination of the characteristics and laws of the distribution of RV based on experimental data.

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.

Qualimetry
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Qualimetry ": is to form students' knowledge about the history and current state of qualimetry in the country and abroad; about the connection between the standard of living and the quality of products and services; about the connection of qualimetry, standardization and certification; about the basic methods of qualimetry, the fundamentals of qualimetry technology; about the collection and processing of raw data to determine the numerical values of quality indicators; about legislative and legal acts, methodological materials and the system of supervision and quality control of products; about the main technical and design characteristics of products, the principles and methods of evaluating the level of product quality, the specifics of the choice of product quality indicators. During the study of course, students should be competent in: 1. solve problems of the quality control for improvement of the production; 2. calculate and select quality indicators for various types of products; 3. apply the composition of product quality indicators in forecasting and planning the improvement of product quality, methods for analyzing data on product quality and ways of finding causes of marriage, computer technology for planning and conducting work to improve product quality; 4. use methods of quality control of the products and processes in the performance of works on certification and quality systems, instrumentation and testing equipment for quality control of products; 5. evaluate the quality level of heterogeneous products and determine the indexes of defects in heterogeneous products. During the study of the discipline students will learn following aspects: Classification of products. Nomenclature of quality indicators. Evaluation of the level of product quality. Qualitative scales. Scale of order. Scale of intervals. Scale of relations. Basic rules for developing a methodology for assessing the quality level. Differential method of assessing the level of product quality. Accounting for different conditions of product use. Evaluation of the quality level of heterogeneous products. Definition of product defect indexes.

Quality systems
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Quality systems ": is the formation of students' knowledge for the development, creation, and implementation of quality systems at enterprises and organizations of the relevant industries. Obtaining a knowledge system about the history of the development of the quality management system, about the technical and functional quality of products, about the life cycle stages of the product and the need for their support, about the need to introduce the MS ISO family 9000 into production; about the general principles and approaches of building QMS and QMS model; on the principles and approaches for building a QMS (eight principles on ISO 9000: 2000), about the process and system approaches in building a QMS; about the QMS documentation; about the policies and objectives of enterprises in the field of quality; the role of senior management in the QMS; about constant improvement of QMS; about total quality management (TQM); about quality assurance; about the methods of quality management, about certification and audit of QMS; about technological systems of organizational design and management of enterprise processes; about information support of QMS; about the algorithm for introducing QMS at enterprises of the Republic of Kazakhstan. During the study of course, students should be competent in: 1. participate in the development and implementation of a quality system; 2. analyze and evaluate the existing enterprise's quality system; 3. conduct certification of the quality system; 4. develop an internal audit program, carry out corrective and preventive actions; 5. organize measures for improving the quality system. During the study of the discipline students will learn following aspects: Evolution of the forms of quality management. The concept and models of TQM (universal quality management). Asian model of quality. Procedure for the development, implementation, functioning of the quality system. Organization policy in the field of quality. Quality guide. Contents of the elements of the quality manual. Documentation of the quality system. Process and system approach. Information support of quality systems - САLS, ARIS - technologies. Methods and the role of the quality system in the integrated management system of the organization. Quality assurance. External and internal audit of the quality system.

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.

Standardization
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' knowledge about the basic principles and provisions of standardization in the Republic of Kazakhstan; about fields of applying standardization; about standardization methods, about the organizational structure of the state standardization system and the state fund of standards. As a result of studying the discipline, the student will be able to: 1. classify the types of regulatory documentation for standardization; 2. use the information base for standardization, national and international standards, regulatory and technical documents in the field of technical regulation; 3. participate in the development of regulatory documents for the implementation of decisions of the national and interstate technical committee and (or) international technical committee for standardization using electronic databases and documents in the field of technical regulation. 4. provide meaningful and relevant information in the framework of consultation and explanatory work on the application and content of documents in the field of technical regulation in cooperation with interested parties on the basis of consensus according to industry specialization; 5. carry out a systematic updating of normative documents on standardization and certification. Whilelearning the discipline, students will study the following aspects: Legislation of the Republic of Kazakhstan on Technical Regulation. The Law of the Republic of Kazakhstan “On Technical Regulation”. Law of the Republic of Kazakhstan “On Standardization”. General Provisions The goals of standardization. The principles of standardization. National standardization system. The structure of the national standardization system. Competencies of the Government of the Republic of Kazakhstan in the field of standardization. Competencies of the authorized body. Competencies of state bodies in the field of standardization. Standardization documents. The procedure for developing standardization documents. Application of standardization documents. The system of cataloging documents for standardization and information support. International and regional cooperation in the field of standardization. Final and transitional provisions.

Standardization and Certification
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Standardization and сertification ": is the formation of the students knowledge about the basic principles and provisions of standardization and certification in the Republic of Kazakhstan, the areas of application of standardization and certification, schemes and systems for confirmation of compliance, the rules and procedures for verifying the conformity of the products and services, and the scientific and technical support for standardization and certification. During the study of course, students should be competent in: 1. explain the types of regulatory documentation of standardization and certification; 2. use the information base of standardization, national and international standards, normative and technical documents in the field of certification; 3. apply in practice the rules of the development of standards when it will need changes or going to be canceled; 4. use computer technologies for planning and conducting work on standardization and confirmation of compliance; 5. carry out systematic updating of normative documentation of the standardization and certification. During the study of the discipline students will learn following aspects: The history of the emergence of standardization as a science. The main provisions of the state system of standardization. Legal basis of standardization in the Republic of Kazakhstan. State (national) system of standardization. Law of the Republic of Kazakhstan "About technical regulation". Standardization in the service of consumer protection. Law of the Republic of Kazakhstan "About Protection of Consumer Rights". Bar coding of products. International experience in the field of standardization. The order of application of normative documents on standardization of the CIS countries in the territory of Kazakhstan. Interindustry complexes of general technical and organizational-methodological standards, their structure and purpose. Scientific and methodological basis of standardization. Methods of standardization. Standardization of indicators of product quality and its elements. Standardization in various industries. Terms and definitions in the field of certification. Structure and main provisions of the legislation of the Republic of Kazakhstan in the field of certification. Regulations on the system of confirmation of conformity of the Republic of Kazakhstan. Areas of application for certification.

Standards development technology
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Technology of Working Standards ": is to form students' ability to participate in the development of draft standards, methodological and regulatory materials, technical documentation and in the practical implementation of the developed projects and programs; to monitor compliance of the established requirements, existing norms, rules, and standards. During the study of course, students should be competent in: 1. determine the optimal requirements for the nomenclature and product quality; 2. argument the main provisions of the standards; 3. apply methods and principles of standardization in the development of standards and other normative documents; 4. use the theoretical provisions of standardization activities, principles, and methods of construction and rules for the application of standards, sets of standards and other normative and technical documentation; 5. give the evaluation of the developed standards, methodological and regulatory materials of technical documentation. During the study of the discipline students will learn following aspects: The current state of the regulatory framework of the national standardization system. Development and design of the standard. National standards. The main elements of the standard. Structure of the construction of the standard. Construction, presentation, design and content of the technical assignment for the development of the standard. Development of technical regulations. Product quality and consumer protection. Basic terms and definitions. The objectives of the adoption of technical regulations and their content. Objects of technical regulation. Development of rules and recommendations. Development of interstate standards.

Statistical Methods of Quality Control of Products and Processes
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Statistical Methods for Quality Control of Products and Processes": is to form students' holistic system view about the basic methods of statistical control and quality management of products and processes. During the study of course, students should be competent in: 1. choose different methods of statistical control and quality management of products at all stages of the product life cycle; 2. carry out technical control of production, including the introduction of quality management systems; 3. apply special technologies for the development and analysis of the products and processes of the enterprise; 4. analyze the state and dynamics of the objects of activity by using the necessary methods and means of analysis; 5. evaluate the methods and possible measuring instruments for monitoring and controlling technological processes. During the study of the discipline students will learn following aspects: Basic concepts and definitions from the field of statistical methods of control and quality management of products and services. A comprehensive solution to the problem of quality control and management at all stages of the technological process, the organization of technical control and quality management of products with the lowest costs. Implementing random choices; distribution of qualitative and quantitative characteristics; selective characteristics and their properties; distribution of sample characteristics. Theory of sampling control. Testing of statistical hypotheses. Methods of statistical quality management. Single, multiple and consistent plans for receiving control by quality.

Technology of construction materials
  • Number of credits - 5
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the study of the basics of scientific knowledge about the atomic-crystalline structure of materials and the laws of its influence on the basic physical, technological and operational properties of structural materials; determination of types of materials for given operating conditions of technological plants, their hardening, and processing As a result of studying the discipline, the student will be able to: 1. analyze the structure and properties of electrical and structural materials; 2. build characteristic state diagrams of double alloys; 3. use the methods of thermal and chemical-mechanical processing to obtain the required properties of materials using the theory of mathematical statistics and the basic laws of physics; 4 apply the latest achievements in the field of materials science and material processing; 5. correctly present physical and mathematical laws and theorems for solving physical and mathematical problems in the field of their professional activity; 6. classify grades of materials to determine their physicochemical and mechanical properties of materials. While learning the discipline, students will study the following aspects: Classification of structural materials and their properties. The structure, physico-chemical, technological properties of materials. Heat treatment of metals and alloys. The structure of metallic and nonmetallic materials, patterns of crystallization of alloys, phase diagrams of binary and ternary systems, the basics of phase transformations in metal alloys, structure formation during plastic deformation and recrystallization.

Testing, control and safety of products
  • Number of credits - 6
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Testing, control and safety of products": is to create knowledge about the basic principles of planning methods, organizing and conducting tests and control, about processing test results for the subsequent use of knowledge in solving organizational, methodological and technical issues of conducting research, determining and controlling tests of products of various industries. During the study of course, students should be competent in: 1. conduct processing of the test results according to its reliability; 2. carry out separate fragments of tests for checking the influence of mechanical, climatic and biological factors; 3. use the technique and technology of testing for the effects of mechanical, climatic and biological factors; 4. to conduct processing and ensure the receipt of reliable, objective and accurate test results; 5. evaluate and make decisions about the quality of products based on test results. During the study of the discipline students will learn following aspects: Tasks and types of testing and control. The task of the test. The task of control. Classification of types of control. Classification of tests. Types of external influences on the product and materials. Types of tests. Research, control, lapping, preliminary, acceptance, classification, acceptance, standard, inspection, certification tests. Level of testing. Tests as a technological process. Test definition. Object of the test. The level of testing, means of testing. Performers of tests. Normative and methodical basis of tests. General provisions and requirements for ensuring the unity of tests. Accuracy and reproducibility of test results. Indicators of accuracy. Indicators of reproducibility of test results. Test certification. Essence, objectives and tasks of certification tests. Procedure for conducting certification tests. Conditions for mutual recognition of tests. Tests for mechanical effects. Classification of test types. Tests for climatic effects. Tests on the effect of low atmospheric pressure. Tests on the effects of dust and sand. Tests on the effects of solar radiation. Tests for reliability. Test Automation. Processing and analysis of test results. Technical support of testing and control.

Data for 2017-2020 years

disciplines

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.

Assessment of economic efficiency of alternative energy sources
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Assessment of economic efficiency of alternative energy sources ": formation of students ' holistic understanding of the physical nature of the phenomena associated with renewable energy; training analysis and proper assessment of renewable energy resources (solar energy, wind, hydraulic and biomass), the problems of their practical use; assessment of the quality of renewable energy sources. During the study of course, students should be competent in: 1. perform a system description of the analysis object; 2. calculate the performance of various energy sources; 3. to carry out a quantitative analysis of the impact of various factors on the efficiency of thermal power plants; 4. use energy schemes of objects with traditional and non-traditional energy sources; 5. develop algorithms and programs for calculating the optimal parameters of renewable energy sources. During the study of the discipline students will learn following aspects: Principles of calculating the solar energy resource. Streams of radiant energy in the atmosphere. Basic information about radiant energy. Methods for measuring radiant energy in the atmosphere. Solar activity and factors affecting solar radiation. Water. Wind. Biomass. Principles of resource calculation. The emergence of air currents in the atmosphere. Energy of atmospheric motions. Observations on weather stations and the principles of their use for determining wind energy resources. Use of wind energy.

Automation of measuring, testing and control
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Automation of measuring, testing and control": is the formation of the basic knowledge about tasks and components of automation of measurements, control, and testing; about the basic elements of technical support, which carry out the perception, transmission, processing and presentation of measurement information; about features of application of modern information and program technologies for construction of automated systems of tests and measurement control (ASTMC); about the metrological characteristics of ASTMC and methods for calculating errors; about the development trends of automation systems; about the normative and technical documentation on ASTMC. During the study of course, students should be competent in: 1. determine the characteristics of the product in the specified conditions of its operation; 2. explain the standard interfaces for the organization of the ASTMC work when controlling, testing, diagnosing of controlled parameters according to a given program; 3. apply the means of automation of test and control-measuring operations; 4. use ASTMC components in static and dynamic modes; 5. analyze the results of the tests for making recommendations for improving the reliability of products and improving the system and test methods, as well as upgrading existing and creating new test devices. During the study of the discipline students will learn following aspects: Basic concepts and terms. Purpose, composition, структуре of ASTMC. Primary measuring transducers (sensors). Types of interfaces. Information processing and automation in ASTMC. Metrological characteristics of automation systems. Features of automation of control and tests. Features of automation of means of nondestructive testing. Features of automation of tests. Information support of automated testing stations, information description of test processes, individual test operations and test management procedures.

Basis of audit quality system of the enterprise
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Basis of audit quality system of the enterprise": is to form students' knowledge of the prospective areas of modern management; about quality management in accordance with the requirements of international standards series ISO 9001; about the specifics of the audit of the quality management system of enterprises. During the study of course, students should be competent in: 1. develop documents for conducting an audit in the organization; 2. organize and conduct an audit of the unit; 3. evaluate, compare and verify the QMS elements; 4. perform an audit of the process; 5. to evaluate actions based on the audit results. During the study of the discipline students will learn following aspects: A modern concept of quality audits. International standard on audit. Terminological base. Purpose of the audit. Types of audit. Qualification criteria for expert auditors. Audit of products, process, quality system. Internal audit. Organizational principles of internal audit. Audit planning. Preparation of audit. Conducting internal audit. Objects to check. Participants in the audit. Execution of results of verification and evaluation. External audit (second and third parties). Organization of works. Inspection control.

Classification and coding of goods in accordance with CN of FEA CU
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' knowledge of the commodity nomenclature of foreign economic activity (HS); reinforcing students' skills in the application of HS in customs control; development of practical skills in the application of the HS for the classification of goods. As a result of studying the discipline, the student will be able to: 1. know the scientific principles of terminology, systematization, and coding of various groups of goods; 2. Use the HS for the unification of customs procedures and improve customs methods and technologies; 3. apply product classification and coding 4. determine the product code and control the declared code in accordance with the HS; 5. to monitor compliance with customs legislation and the legislation of the Republic of Kazakhstan on customs during customs operations by participants of foreign economic activity and other persons engaged in customs activities. While learning the discipline, students will study the following aspects: Classification of goods in accordance with the unified Commodity Nomenclature of Foreign Economic Activity of the Eurasian Economic Union. The basic rules of interpretation of the Commodity Nomenclature of Foreign Economic Activity. The structure of the HS EEU. Legal regulation of foreign economic activity. Classification and coding of products. Principle and criteria for the classification of goods. Commodity nomenclature of foreign economic activity: purpose, scope, structure, and content. The content of sections and groups of HS. Customs business.

Computational methods in standardization
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Computational methods in standardization": is the formation of solid theoretical knowledge among students about the most important numerical methods and practical skills in working with integrated packages of applied programs for automation of engineering and technical calculations which are used to solve applied tasks in the field of standardization. During the study of course, students should be competent in: 1. process the results of measurements and evaluate their accuracy; 2. apply computational methods in the field of production for quality control of products; 3. apply the basic provisions of standardization, metrology, and product quality control, use units of physical quantities, types, and errors of measurements, technical characteristics of measuring instruments, methods of monitoring and evaluation of product quality; 4. use the system of standards for the certification of products and services by using computer technology; 5. properly choose the optimal means of measurement based on the comparative analysis of metrological characteristics. During the study of the discipline students will learn following aspects: Bases of the theory of errors. The concept and properties of errors. Types of errors. Properties of errors. The technical approach to the calculation of errors. Direct and inverse problems in the theory of errors. Approximate error estimation. Interpolation and best approximations. Approximation of functions. Interpolation. Interpolation polynomials. Optimization of calculations in the field of standardization. The solution of applied problems using numerical methods.

Computer methods of data processing in quality management
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' skills in working with application software packages for using numerical methods for solving problems and features of using system software products. As a result of studying the discipline, the student will be able to: 1. use the basic numerical methods for solving mathematical problems; 2. analyze the methods of storing numbers in computer memory and actions on them, the estimation of accuracy of calculations, i.e. actions with approximate numbers; 3. develop algorithms for practical modeling of the data processing problem in quality management; 4. use software tools for processing, analysis, and systematization of information; 5. manage the basic methods, methods, and means of obtaining, storing, processing information. While learning the discipline, students will study the following aspects: Tasks of computer simulation. Mathematical models. Numerical methods for computer simulation. Techniques and methods for developing a mathematical model of a technological process. Stages of computer simulation. Typical computer simulation systems. Computer methods of data processing in quality management. Computer simulation tools. Theory of Mathematical Modeling. The concept and foundations of the finite difference method. Overview of the main methods of numerical modeling. Classification of physical and mathematical models. Methods of mathematical modeling. Application of numerical methods for solving problems in data processing in quality management. Computer implementation of mathematical models. Identification and justification of models in quality management.

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 Management system
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' knowledge about conducting a comparative technical and economic calculation of energy-saving options; about energy efficiency assessment; calculating possible energy savings; about adapting to changing conditions associated with energy conservation issues; about the selection of methods and means for conducting an energy audit. As a result of studying the discipline, the student will be able to: 1. put into practice the basic methods of accounting and assessment of the energy intensity of industrial products, as well as the main trends in energy conservation; 2. to analyze the equipment of the enterprise with metering devices and control over the consumption of energy resources 3. use energy-saving technologies to improve the metrological systems for the energy consumption of the enterprise; 4. carry out environmental control and technical certification of equipment at facilities that produce various types of energy, using the experience of the best world practices of energy-efficient technologies. 5. competently fill out information sheets, conclusion forms, acts of inspection check, and other documents based on the results of inspection control using modern computer technologies. While learning the discipline, students will study the following aspects: The structure of the energy economy of industrial enterprises. International Standard ISO 50001: 2011 Energy Management. Energy management system. Planning energy consumption at the enterprise and in the housing sector. Development of energy-saving programs and energy consumption standards. Feasibility study of energy-saving program activities. Energy service contracts.

Energy saving methodology
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Energy Saving methodology": is to form students' knowledge of the requirements of regulatory documents, stages, and procedures for conducting energy inspections at an industrial enterprise and in energy networks; about the methodological and instrumental basis of energy audit; about typical energy-saving measures; about the elements of the economic analysis at a choice of principles of power savings. During the study of course, students should be competent in: 1. develop a system of actions to manage energy conservation; 2. introduce new mechanisms of energy and resource saving based on world experience; 3. apply energy saving strategy and technology in the Republic of Kazakhstan; 4. attract investments in solving problems related to energy-saving technologies; 5. evaluate the economic efficiency of energy saving measures. During the study of the discipline students will learn following aspects: 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 the loss of electrical energy. Normalization of specific electricity consumption. Use of renewable energy resources.

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.

Environmental and applied Metrology
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the study of the essential and substantive aspects of environmental applied metrology; of fundamentals of measurement theory, of metrological foundations and of biometric principles of environmental measurement systems As a result of studying the discipline, the student will be able to: 1. know the content, legal and economic basis of environmental certification and standardization; 2. apply the principles of building international and domestic standards, the rules for using standards, sets of standards and other normative documents 3. navigate the current legislation governing environmental certification and standardization; 4. analyze and process arrays of normative, statistical and other data, 5. identify factors affecting environmental performance indicators. While learning the discipline, students will study the following aspects: Environmental Management Systems (EMS). Quality indicators of environmental and applied metrology. State standards and other regulatory documents in the field of environmental protection. Regulatory documents in the field of environmental standards. Environmental regulatory documents. Standardization as a legal mechanism for nature conservation. Methods and principles of environmental standardization. Certification system for environmental requirements. Metrological activities in the field of environmental protection. The general theory of environmental quantities and measurements. Methods and means of measurement. Features of metrology of ecological and economic systems.

Environmental and Patent Law
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Environmental and Patent Law": is the formation of students knowledge of the laws of interaction between society and nature, theoretical knowledge about environmental law, the current environmental legislation that establishes requirements for environmental protection and rational use of nature; formation of patent and legal culture of students on the profile of their future activities, which is necessary for solving urgent problems of improving production. During the study of course, students should be competent in: 1. use the normative documents in the field of ecology and apply the patent legislation of the heat-energy industry; 2. justify the choice of actions and technical means of environmental protection; 3. assess the extent and nature of anthropogenic impacts on the components of the environment; 4. develop recommendations for environmental protection, by taking into account the specifics of the enterprise; 5. assess the environmental impact of environmental pollution. During the study of the discipline students will learn following aspects: Ownership of natural resources. The right of nature use. The legal basis for environmental management and environmental protection. Legal regulation of information support of nature management and environmental protection. The legal basis for assessing the impact of the proposed activity on the environment and environmental impact assessment. The concept of patent law. Essential features of the invention (utility model) and their classification.

Environmental aspects of the use of alternative energy sources
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Environmental aspects of the use of alternative energy sources": is the formation of students' skills in using methods to increase the efficiency of renewable energy sources in the energy balance of the country and the region with the least damage to the environment. During the study of course, students should be competent in: 1. to substantiate methods for calculating the energy characteristics and design parameters of wind power plants; 2. develop practical recommendations based on the results of studies on the use of wind power plants and the environmental aspects of their operation; 3. they can apply the physical processes and phenomena of wind transformation into energy for understanding the principles of operation of wind power plants; 4. use modern methods to increase the efficiency of wind power plants; 5. organize typical environmental measures in the operation of wind turbines. During the study of the discipline students will learn following aspects: Stages of wind energy development abroad and in the RK. Foreign and domestic experience of using wind turbines. Ecological aspects of the use of wind energy. Methods of increasing the efficiency of using wind power plants. Current state and development trends of wind energy.

Environmental management system
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Environmental management system ": is to form the theoretical and practical knowledge of students in ecology, sustainable development, environmental protection and rational nature management, formation the knowledge about the economic evaluation of the consequences of environmental pollution, assessment the characteristics of risky species of various industries and to establish a link between the environmental management system and the quality level nature use. During the study of course, students should be competent in: 1. explain the functions of different types of structures of the environmental management system; 2. substantiate the organization's policy in the development of activities on environmental management; 3. apply quantitative and qualitative assessments of the effectiveness of environmental management systems; 4. develop a program of environmental measures for production facilities; 5. orient in the systems of international standards and international recommendations in the field of environmental management. During the study of the discipline students will learn following aspects: History of the development of environmental management. Regulation of environmental management in Kazakhstan. The concept of environmental management. Ecological marking (certification). The role of environmental measures in the structure of environmental programs of production facilities. Environmental management system. Energy audit.

Identification and marking of products and measuring instruments
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' legislative and regulatory requirements for identification, labeling of products and measuring instruments, features of labeling by categories and types of products, the ability to choose TR TS depending on the object of technical regulation, skills for identifying products, identifying falsified products by labeling products. As a result of studying the discipline, the student will be able to: 1. use types of product identification; 2. determine the methods and methods of product identification; 3. label and draw up normative documents to exclude low-quality or illegal objects from entering the market; 4. introduce electronic accounting systems, quality control and quantity of consignments in order to ensure traceability of goods in the member states of the Eurasian Economic Union; 5. conduct a qualimetric analysis of the types and forms of information for identification, labeling of products of measuring instruments. While learning the discipline, students will study the following aspects: Basic concepts and definitions in the field of identification. Identification Methods. Methods for classifying objects. Methods of unification of documents. Unified documentation systems. Identification of details in organizational and administrative documents. Types of classifiers. The order of development and designation of classifiers. Maintaining classifiers. The use of classifiers. Product identification in the commodity nomenclature of foreign economic activity. Product classification in standards. Identification of products and documents when confirming compliance. Product cataloging. Color, sound, and symbolic identification. Authentication Production labeling, trademarks, and service marks. The basic concept, signs, and functions of trademarks, classification of trademarks, bar codes, manipulation and danger signs, eco-labeling. The main provisions and the procedure for marking measuring instruments.

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 and means of measurements, tests and control
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Methods and means of measurements, tests and control ": is the mastering by the students the methods of analysis and statement of the measurement problem; mastering the main types and methods of measurement, testing and control, and their connection with mathematical concepts; studying the principles of constructing means for measuring physical quantities, primary measuring transducers, intermediate converters, conditions for their matching, and means for displaying measurement results; development of species, methods and instruments of control. During the study of course, students should be competent in: 1. select the measuring instruments, plan and implement the measurement procedure for ensuring the required accuracy; 2. express the limits of tolerable errors with the help of a monomial or two-term formula; 3. calculate the errors in measurements and instruments; 4. compare the additive and multiplicative errors of the measuring instruments; 5. evaluate the behavior of the test object when various factors act on it. During the study of the discipline students will learn following aspects: Objects of measurements, measuring signals, measuring information; Testing and control. Objects of measurements, physical quantities, forms of representation of signals, measuring information. Measuring converters of physical quantities. Measurement of physical quantities. Methods of measurement. Method of direct transformation (direct evaluation) and the comparison method, their features. Means of measurement. The definition and classification of measuring instruments of electrical quantities. Electrical measuring bridges and expansion joints. Types and means of control. Types and means of testing. Automation of measurements.

Metrological examination of measuring instruments
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: to familiarize students with the theoretical and practical foundations of metrological examination of measuring instruments and test equipment. As a result of studying the discipline, the student will be able to: 1. have the skills to work with reference complexes to assess the quality of measuring instruments and test equipment; 2. determine the metrological characteristics of measuring instruments and test equipment, 3. select scales for numerical evaluation and measurement method in compliance with the metrological characteristics of measuring instruments and installations 4. conduct laboratory and technical tests to ensure the quality and safety of products, processes and services on specialized control and measuring equipment; 5. carry out metrological and technical control over the state of measuring equipment and automation using the selection and adaptation of methodological, didactic, and diagnostic tools in interlaboratory comparative tests (examination) by introducing the best available technologies into production. While learning the discipline, students will study the following aspects: State metrological control and supervision of measuring instruments, verification and calibration of measuring instruments, metrological certification of measuring instruments, metrological characteristics of measuring instruments. Methods and means of measurement and control of mechanical quantities. Methods and means of measurement and control of heat engineering quantities. Methods and means of measuring electrical quantities. Metrological examination of measuring instruments. Ways and types of expertise. Comprehensive analysis.

Modern control technologies for production systems
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Modern control technologies for production systems ": is the formation of fundamental knowledge of modern technologies of management of complex production systems used in heat power engineering for students. During the study of course, students should be competent in: 1. use modern instrumentation and information and communication technologies in the management of production systems; 2. to reasonably conduct an analysis of new techniques and technologies for managing complex production systems in terms of their applicability to the tasks of professional activity; 3. can apply methods, algorithms and tools for automating complex technological processes and industrial productions; 4. be able to solve the main problems in the field of expert, robust, group and multi-mode control systems, choose methods and means to solve them; 5. evaluate the process control technology in accordance with the practical tasks being solved in the heat power industry. During the study of the discipline students will learn following aspects: Assignment of various control systems, their functionality and application features. Modern requirements for control systems. Business processes. Algorithms for managing production processes. Intelligence management. Forecasting and optimization of production planning.

Modern problems of energy saving
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Modern problems of energy saving": is the formation of knowledge about carrying out a comparative feasibility study of energy saving options; energy efficiency assessment; calculation of possible energy savings; adaptation to changing conditions associated with energy conservation problems; choice of methods and means for conducting the energy audit. During the study of course, students should be competent in: 1. calculate the need for energy and heat of various heat-technological processes; 2. determine the energy losses of thermal or technical installations and systems, propose measures to reduce them; 3. analyze fuel-energy balances of industrial enterprises; 4. evaluate the efficiency of energy use in the sectors of the national economy; 5. develop energy-saving measures. During the study of the discipline students will learn following aspects: Normative-legal and the normative-technical basis of energy saving. The modern market for lighting products and wiring accessories. Accounting and regulation of energy consumption. Carrying out the energy audit of the enterprise. Energy calculations in lighting installations. Ecological problems of power engineering. Ecological problems of power engineering. The efficiency of energy use.

Numerical methods in standardization
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of theoretical knowledge of students about the most important numerical methods and practical skills in working with integrated packages of applied automation software for engineering and technical calculations which are used for solve applied problems in the field of standardization and certification. As a result of studying the discipline, the student will be able to: 1. use numerical methods in solving engineering tasks in the field of professional activity; 2. optimize the calculation processes during testing for quality control of products; 3. apply the methodology of constructing, analyzing and interpreting the results of analysis of mathematical models of situational tasks; 4. have the skills of applying modern mathematical tools for solving technological tasks; 5. estimate the error of approximations of the experimental data. During the study of the discipline students will learn following aspects: The study and application of the methods of computational mathematics to the study and implementation on the computer of various applied problems in standardization based on algorithmization and programming. Bases of the theory of errors. The concept and properties of errors. Types of errors. Properties of errors. The technical approach to the calculation of errors. Direct and inverse problems in the theory of errors. Approximate error estimation. Method of simple iterations. Interpolation and best approximations. Approximation of functions. Interpolation. Interpolation polynomials. The error of function. Determination of the permissible error of the arguments with respect to the permissible error of the function. The solution of a system of linear algebraic equations of a special type by the sweep method. Numerical modeling of the reliability of functioning of complex systems.

Numerical solution of applied problems in standardization and certification
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of theoretical knowledge among students about the most important numerical methods and practical skills for working with integrated software packages for the automation of engineering calculations used in solving technical problems of standardization and certification. As a result of studying the discipline, the student will be able to: 1. use a computational experiment in mathematical modeling based on numerical solutions of applied problems in standardization and certification; 2. choose mathematical models for analyzing the properties of objects of study; 3. use the basic numerical and statistical methods of quality management for a theoretical study of the mathematical model of the process; 4. use numerical methods in solving engineering problems in the field of professional activity; 5. evaluate the error of approximation of experimental data to obtain objective information about the properties of products and services of high-performance, environmentally friendly, and waste-free technologies. While learning the discipline, students will study the following aspects: Numerical solution of nonlinear equations. Numerical integration. Numerical methods for solving ODE. Cauchy's task. Numerical methods for solving ODE. Boundary value problem. Difference schemes for partial differential equations. Stability of difference schemes. Integral equations and optimization methods. Quadrature formulas. The formula of the rectangles. Trapezoid method. Methods for processing experimental data. Least square method. Numerical solution of ordinary differential equations. Euler Method Numerical solution of applied problems in standardization and certification. Numerical modeling of technical problems. Mathematical modeling of complex objects.

Parameters and characteristics of wind turbines
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Parameters and characteristics of wind turbines": is the formation of knowledge about proven methods of designing installations and systems of renewable energy; preparation of specialists for application in the practical activities the knowledge acquired for performing calculations of the parameters of the main units of renewable energy sources; for strict adherence to standards and other normative materials, competent technical documentation; development of skills to search for rational solutions in the operation of renewable energy installations and systems. During the study of course, students should be competent in: 1. perform calculations to determine the main categories of potential wind resources, taking into account social and environmental factors; 2. apply the requirements of international standards to the parameters and methods of testing wind turbine generators; 3. use the modern domestic and foreign information support for wind resources; 4. substantiate the application of modern domestic and foreign software for the selection of parameters of wind-energy plants (WEP) for power supply to centralized and decentralized consumers; 5. evaluate and select the optimal parameters of WEP. During the study of the discipline students will learn following aspects: Principles of designing and developing power plants with renewable energy sources. Determination of the rotor parameters of the wind power plant. Design and development of wind power plants. Design and development of combined energy systems based on traditional and renewable energy sources and integrated energy systems based on renewable sources. International standards in the field of wind energy.

Protection of Іntellectual Рroperty and Рatenting
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Protection of Іntellectual Рroperty and Рatenting": is the formation of knowledge about the legal protection of intellectual property, objects of intellectual property; familiarization with the rules of making the application materials for the having protection documents for intellectual property objects, including abroad; patent and technical documentation of the RK and other countries, patent research, licensing, registration of copyright. During the study of course, students should be competent in: 1. determine the objects of intellectual property in the sphere of their professional activity; 2. make actions according to the law to preventing violations of rights to the results of intellectual activity; 3. hold negotiations about the conclusion of contracts about the use of the results of intellectual activity; 4. evaluate the degree and significance of a particular result of intellectual activity; 5. take into account the results of intellectual activity in the economic practice of the enterprise. During the study of the discipline students will learn following aspects: The concept of intellectual property: copyright, related rights, intellectual industrial property. Regional patent systems: features of regional systems. International patent system. European Regional Patent System. Eurasian regional patent system. World Intellectual Property Organization. Patent legislation of Kazakhstan. Objects of intellectual property. Invention. The rights of inventors and the legal protection of inventions. Application for an invention and its expertise. Unfair competition: protection from unfair competition. International trade in licenses for intellectual property: forms of international scientific and technological exchange and participation in it of Kazakhstan. Prelicensing contracts. Treaty on technology assessment. Agreement on cooperation. Patent cleanliness treaty.

Quality assessment of renewable energy sources
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Quality assessment of renewable energy sources": is to form students' holistic view of the physical nature of the occurrence of phenomena associated with renewable energy sources; training in the analysis and proper evaluation of the resources of renewable energy sources (solar energy, wind, hydraulic and biomass), the problems of their practical use; assessment of the quality of renewable energy sources. During the study of course, students should be competent in: 1. perform a system description of the analysis object; 2. calculate the economic indicators of the of various energy sources; 3. carry out a quantitative analysis of the influence of various factors on the economics of thermal-energy plants. 4. use energy schemes of objects with traditional and non-traditional sources of energy; 5. develop algorithms and programs for calculating optimal parameters for renewable energy sources. During the study of the discipline students will learn following aspects: Principles of calculating the solar energy resource. Streams of radiant energy in the atmosphere. Basic information about radiant energy. Methods for measuring radiant energy in the atmosphere. Solar activity and factors affecting solar radiation. Water. Wind. Biomass. Principles of resource calculation. The emergence of air currents in the atmosphere. Energy of atmospheric motions. Observations on weather stations and the principles of their use for determining wind energy resources. Use of wind energy. Evaluation of the quality of renewable energy sources.

Quality management in laboratory tests
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: to study the foundations of the theory of tests, the main types and methods of testing, the development of programs and methods of various types of tests, quality control and methods of product quality management As a result of studying the discipline, the student will be able to: 1. implement in practice a system of state supervision and control, interdepartmental and departmental control over product quality, standards, technical regulations and the uniformity of measurements; 2. apply the basic laws of measurements, the influence of the quality of measurements on the quality of the final results of metrological activity, methods, and means of ensuring the uniformity of measurements; 3. apply methods of quality control of products and processes when performing work on certification of products and quality systems based on international ISO standards; 4. use the digital information resources of science and technology for quality management in laboratory tests; 5. conduct accreditation and certification of conformity assessment bodies, testing centers, and laboratories in accordance with the provisions of the Law "On Accreditation in the Field of Conformity Assessment" and for the implementation of the requirements of GOST ISO / IEC 17025-2009. While learning the discipline, students will study the following aspects: Quality as an object of management. Quality Management Functions. Evaluation and measurement of product quality. Development of a quality management system. Laboratory quality management. Laboratory quality management system. Process control. Quality control of quantitative research. Analysis of the accuracy of technological operations on control charts. Types of control. Control methods. Control plans for statistical analysis. Test methods. The study of test equipment used to simulate environmental conditions and measuring instruments. Law on Accreditation in the Field of Conformity Assessment. Features of accreditation in the field of ensuring the uniformity of measurements. Features of accreditation of certification bodies and testing laboratories. GOST ISO / IEC 17025-2009.

Regulatory and technical base of the fuel and energy complex
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Regulatory and technical base of the fuel and energy complex": is the formation of students' knowledge about the current trends in the development of technical progress;about general problems of energy saving at the present stage, about the perspectives and the state policy of the Republic of Kazakhstan on energy saving and introduction of non-traditional energy sources; about familiarization with production, technical and economic measures aimed at the efficient use of energy resources; about studying energic balances of heat engineering installations and systems. During the study of course, students should be competent in: 1. classify factors that determine the level of use of material resources; 2. calculate the energy losses of heat engineering installations and systems; 3. use the technical and economic evaluation of resource-saving programs and projects; 4. evaluate the efficiency of energy use in industries; 5. conduct a technical and economic evaluation of resource-saving programs and projects. During the study of the discipline students will learn following aspects: Development of the fuel and energy complex. Operation of heating systems. The regulatory and legal foundation of energy conservation. Energy audit. Energy passport of the power facility and buildings. Tariffs for housing and communal services. Analysis of the volumes of energy resources released by manufacturing enterprises. Analysis of business activity. Analysis of financial sustainability.

Reliability and risk management
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: students mastering the theoretical and methodological foundations of reliability and risk management, obtaining practical skills and professional competencies in the field of risk management, forecasting, analysis and risk assessment in the activities of enterprises and organizations As a result of studying the discipline, the student will be able to: 1. substantiate reliability criteria and risks; 2. assess the impact of risk decisions on improving the quality of products (services) and processes; 3. apply quantitative and qualitative methods of analysis when making decisions; 4. use the results of the analysis of types of risks for making management decisions aimed at improving the quality of products and services; 5. develop scenarios for the development of organizations, taking into account the identified and assessed risks that affect the quality of the product (service), process (work). While learning the discipline, students will study the following aspects: Risk management and regulatory systems. Basic concepts of reliability and risk management. The main functions of the risk management process: establishing the context, risk identification, risk analysis and assessment, selection, and implementation of risk treatment strategies. Reliability and risk management in standards and regulations. Standards of the European Risk Management Association, FERMA risk management standard. Risk management in regulatory systems.

Reliability design
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: to study the fundamentals of the theory of designing reliability, the basic methods for ensuring the reliability of technical systems, and the evaluation of reliability indicators. As a result of studying the discipline, the student will be able to: 1. put into practice the basics of the theory of reliability and the mathematical apparatus (elements of probability theory and mathematical statistics); 2. to calculate and evaluate the reliability indicators of the designed measuring instruments; 3. analyze the operation of technical systems and its individual elements from the point of view of reliability design; 4. characterize failures in accordance with their classification; 5. have the skills to conduct joint and independent calculations of reliability indicators, perform virtual laboratory (practical) work and control tasks to obtain objective information about the properties of products and services of high-performance, environmentally friendly, and waste-free technologies. While learning the discipline, students will study the following aspects: Basic concepts in the field of reliability, methods for ensuring reliability. Elements of the theory of reliability of measuring instruments. Calculation of the reliability of measuring instruments at the design and testing stage. Metrological reliability of measuring instruments. Parametric reliability of objects. Reliability Design. Calculation of reliability in the design. Exponential model of reliability, Weibull-Gnedenko model. Rayleigh-Rice Model. The main connection of the elements. Reliability characteristics at the main connection of elements. The concept of redundancy. Types of redundancy. Permanent (active) reservation. Full and separate reservation. Reservation by substitution. “Warm” and “cold” reserve. Key reliability features for parallel redundancy. Flowcharts of reliability.

Standards of alternative and renewable energy
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of " Standards of alternative and renewable energy ": is to form students' holistic view about issues related to alternative, renewable energy sources, the principles of functioning and construction of non-traditional energy installations; the formation of the ability to perform research on schemes and technical means of converting the energy of renewable sources into mechanical, electrical and thermal energy. During the study of course, students should be competent in: 1. have the skills of calculations in determining the possible capacity of power plants for obtaining various types of energy; 2. possess the methodology and skills of developing draft standards on the use of non-traditional and renewable energy sources; 3. use the basic schemes of installations for the use of renewable energy sources; 4. perform calculations to assess the parameters of energy sources of energy, the density of energy flows; 5. assess the possibility of using non-traditional and renewable energy sources in production in order to ensure the ecological safety of energy and resource saving. During the study of the discipline students will learn following aspects: Fuel and energy balance of the Republic of Kazakhstan. Estimates of fossil fuel reserves. Prospects for the development of renewable energy. Harmful effects of traditional energy on the environment. Traditional and non-traditional sources of energy. Possibilities of using the energy of the Sun. Solar energy as the primary source of the Earth's energy resources. Use of wind energy. Wind power resources in Kazakhstan. World experience in the field of wind energy. Types of wind power plants. Geothermal energy. Thermal regime of the earth's crust. Sources of geothermal heat. Methods and methods of using geothermal heat for power generation and in heat supply systems. Using the energy of the ocean. Energy resources of the ocean. Schematic diagrams of installations for the use of ocean energy. Biofuel. Photosynthesis as a natural solar energy battery. International standards in the field of renewable energy.

Technical regulations of Customs union and EACU
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of practical skills and ability to work with regulatory documents in the field of a technical regulation to establish product requirements (appearance, composition, etc.) that are mandatory for application and fulfillment in the customs territory of the EEU, related to requirements for products and production processes, installation, commissioning, operation (use), storage, transportation, sale, and disposal. As a result of studying the discipline, the student will be able to: 1. protect the life and (or) human health, property, environment, life and (or) the health of animals and plants; 2. Prevent actions that mislead consumers; 3. apply technical regulations for the safety of products traded within the framework of the Eurasian Economic Union; 4. to conduct an examination of state standards and classifiers of technical and economic information, international, regional, national standards, and amendments to them in accordance with the State Planning Standardization of the Republic of Kazakhstan. 5. to make changes and additions to the normative and technical documentation in accordance with the main provisions of the Technical Regulations of the Customs Union and the EEU. While learning the discipline, students will study the following aspects: Eurasian Economic Commission. Technical regulation and standardization. Development of technical regulations of the Eurasian Economic Union. Technical regulations of the Customs Union. The authorized bodies of the member states of the Eurasian Economic Union. Economics and financial policy. Trade. Customs cooperation. Plan for the development of technical regulations of the Eurasian Economic Union and amendments to the technical regulations of the Customs Union.

The system of confirmation of conformity in the EurАsEC
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: to study the requirements of the technical regulation system for the development and approval of regulatory documents (technical regulations, preliminary national standard, consortium standard) of the technical regulation system of the Republic of Kazakhstan, the Customs Union and the Eurasian Economic Community, the formation of the ability to analyze the changes and additions to the regulatory framework of the technical regulation system. As a result of studying the discipline, the student will be able to: 1. classify restrictions in mutual trade; 2. use the technical regulations of the EurAsEC, establishing the requirements for the objects of technical regulation binding on the application and implementation; 3. ensure the unity of mandatory requirements for the object of technical regulation on the territory of the Republic of Kazakhstan; 4. apply comparable test methods (control and measurements) when assessing (confirming) the conformity of products and processes of production, installation, commissioning, operation (use), storage, transportation (transportation), sale and disposal; 5. participate in the accreditation of certification bodies (confirmation of compliance) and the accreditation of testing laboratories (centers) involved in the process of mandatory confirmation of compliance at EurAsEC. While learning the discipline, students will study the following aspects: Typical conformity assessment schemes. Treaty on the Eurasian Economic Union of May 29, 2014. Conformity assessment of technical regulation objects. Certification schemes for products in the Customs Union. Certificate of the Eurasian Economic Union. An integrated information base of the legislation of the EurAsEC member states. Basic documents of the EurAsEC. Statistical data. Memoranda of cooperation. Technical regulations of the EurAsEC. EurAsEC conformity confirmation system. On the Unified List of Products Subject to Mandatory Assessment (Confirmation) of Conformity within the Customs Union with the issuance of uniform documents.

Thermophysical measurements and devices
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The main purpose of "Thermophysical measurements and devices": is the formation of the knowledge about the advantages and disadvantages of the methods of thermophysical measurements, the field of their application, the main sources of errors and the basic diagrams of the most common devices. During the study of course, students should be competent in: 1. conduct measurements of thermophysical parameters; 2. determine the errors and mistakes in thermal engineering measurements; 3. evaluate the results of the thermophysical experiment; 4. make measuring schemes in accordance with the research tasks and choose the measuring instruments, based on the analysis of the requirements for the accuracy of experimental results; 5. perform a set of calculations using a set of thermo-technical measurements and instruments. During the study of the discipline students will learn following aspects: Review of thermophysical quantities and thermophysical parameters of substances. Temperature and heat flux. Dependence of the properties of matter on temperature. Thermal conductivity and thermal diffusivity of substances. Thermocouples and resistance thermometers. Thermocouples (TC). Single and differential thermocouples. Industrial thermocouples. Types of thermocouples. GOSTs on TC. Resistance thermometers (TR). Measurement of temperature with the aid of a vehicle. Industrial vehicles. GOSTs on the TS. Measurement of the thermal conductivity of solid and liquid materials. Thermal conductivity of substances. Determination of the thermal diffusivity of substances by regular-mode methods. Evaluation of measurement error.

Writing and Presentation of Diploma Work (Project)
  • Type of control - ГЭК по фунд.дисциплинам
  • 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.

Еnvironmental management
  • Type of control - [RK1+MT1+RK2+Exam] (100)
  • Description - The purpose of the discipline: the formation of students' knowledge of environmental management, the main content of which is the creation of an effective mechanism for managing the object of environmental management, providing a balanced solution of economic problems and environmental safety requirements. As a result of studying the discipline, the student will be able to: 1. analyze information about the state of the environment and environmental problems of global, state and regional scale; 2. evaluate the environmental and economic efficiency of resource-, energy- and environmental-saving technological processes and production modes of products (services) 3. put into practice modern scientific environmental and legal instruments of rational nature management; 4. evaluate the quality of the environment, including its environmental intensity; 5. reasonably use of effective methods of environmental management in specific business situations; 6. develop plans and programs of practical activities of enterprises in the environmental management system. While learning the discipline, students will study the following aspects: Environmental management. The system of international standards ISO 14000. Assessment of the initial environmental situation in industrial enterprises. Ecological mission, policies, and goals of industrial enterprises. Organization and practical implementation of activities in the field of environmental management. The general methodology for the development and implementation of an audit program for environmental management systems. Audit criteria for environmental management systems.

Тhe preparation and delivery of complex examination
  • Type of control - Выпускная работа
  • 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.

Professional
  • Type of control - Защита практики
  • Description - Upon successful completion of this module, undergraduates should be able to: 1. to form and consolidate the necessary professional skills and competencies acquired during the course of professional practice; 2. to solve problems in academic and work environments; 3. critically evaluate the content of the research and professional activities of organizations and enterprises where the undergraduate student practices; 4. create, develop and combine an important research process with educational activities; 5. to use in professional activity profound knowledge in the field of management and to carry out a critical analysis of the state of modern research in this field. 6. develop system skills related to solving economic problems, critical assessment of statistical data and making effective management decisions in the field of management. 7. perform a master's project, which requires in-depth practical and theoretical knowledge, providing a result aimed at improving the efficiency and competitiveness of the company and solving the research goal. 8. conduct a study of the external and internal environment of the enterprise, work out the development strategy of the company, analyze the main factors shaping the dynamics of consumer demand for the company's products;

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