
GENERAL PROFESSIONAL MODULE (Б1ОПМ) 
Department: 18 Discipline: Basics of engineering and machine elements 
The course allows to obtain basic knowledge in the area of engineering and design of devices and systems applied in nuclear and other high technologies, typical design of machine elements, mechanisms, and parts of devices and installations, methods of design of experimental installations, rules of development of design documentation applied in Russian Federation. 
Б1ОПМ.Б.2 

Department: 67 Discipline: COMPUTATIONAL METHODS IN PHYSICS 
This course is intended to introduce students to the classical basic computational methods designed to solve physical problems in a variety of areas. The course is accompanied by the solution of a large number of examples and problems. As a rule, the solution of many physical problems is carried out in several stages. At the first stage of solving the problem with the help of fundamental principles and equations, an analytical solution is sought, the concrete representation of which can be realized in different forms. It can be a solution of a differential equation, a boundary value problem, a solution in the form of a series, a solution in the form of a onedimensional or multidimensional integral, etc. Analysis of the obtained solution of the problem may require the subsequent application of computational methods. Note also that the solution of the problem can also be sought from the very beginning using computational methods. In this course students are introduced to classical computational methods such as numerical finding of the roots of transcendental and polynomial equations, interpolation and approximation of functions, numerical methods in linear algebra, numerical algorithms for computing onedimensional and multidimensional integrals, numerical methods of solution for ordinary differential equations (ODEs) and boundary value problems, etc. The computational methods used in the course are considered in application to the solution of various problems of mechanics, field theory, theory of linear and nonlinear oscillations. This course also provides students with basic knowledge of computational methods implemented through integrated mathematical tools such as Maple and Mathematica. In particular, students gain knowledge of how to perform various analytical calculations and transformations with their help. 
Б1ОПМ.ДВ1.1 

Department: 8 Discipline: electrical engineering 
Program includes basic methods for calculating electric circuit theory and the theory of long lines in the steadystate and transient conditions 
Б1ОПМ.Б.5 

Department: 67 Discipline: Electrodynamics of Continuum media 
The course covers the most important sections of electrodynamics of continuous media  the basic laws of electrodynamics in a homogeneous and isotropic medium, the theory of electromagnetic waves, radiation in a medium, nonlinear processes. The course is based on the basic principles of electrodynamics, electromagnetism and statistical physics, physics of radiation of charged particles.The course is aimed at giving to a student theoretical knowledge and practical skills in the field of electrodynamics of continuous media. Due to the huge number of practical applications in this area, unsolved problems and opportunities, specialists need to have a clear understanding of the main phenomena in electrodynamics and be proficient in the mathematical apparatus for describing these phenomena. The main attention is paid to the description of these phenomena processes using basic methods of electrodynamics. General theoretical concepts are illustrated with specific physical examples, such as skin effect, selffocusing, second harmonic generation, stimulated Raman scattering, transition radiation, Rayleigh scattering in gases and liquids. The analysis of the significance of the considered phenomena in the applied problems of modern electrodynamics and radiation physics is given. The course is designed for trained bachelor students specializing in condensed matter physics. The course is a set of lectures, accompanied by practical seminars to consolidate the material.

Б1ОПМ.В.2 

Department: 26 Discipline: General Electrical Engineering and Electronics 
The study of electrical laws and properties of a wide class of electronic components; study static pulse and frequency characteristics of semiconductor devices and integrated circuits; Learning the basics of analog and digital circuitry. 
Б1ОПМ.Б.6 

Department: 40 Discipline: Introduction to operating systems 
The course "Introduction to operating systems" aims at making students familiar with computer information technologies and modern operating systems. Main attention is focused on Linux operating system. This course is devoted to training students willing to become specialists in the field of modeling and data processing in elementary particle physics. 
Б1ОПМ.ДВ1.2 

Department: 67 Discipline: Introduction to the specialty 
The objectives of the development of the discipline "Introduction to the specialty" are :  to familiarize Junior students with information about educational and scientific directions of departments INTEL, specializations for bachelor's degree, possible options for employment or further training in a magistracy or postgraduate study;  the formation of students ' conscious choice of profile for the further implementation of NIRS and subsequent employment.; 
Б1ОПМ.В.1 

Department: 1 Discipline: Life safety 
The program is focused on receiving knowledge and skills on maintenance of safety culture at professional activity and at extreme situations. The accent is made on radiation safety. The subjects of other directions include problems of electric, fire and chemical safety, ecological extreme situations and wars. 
Б1ОПМ.Б.7 

Department: 78 Discipline: Metrology, Standardization and Certification 
The course "Metrology, Standardization and Certification" is a required course for students. The purpose of discipline is to deepen the acquaintance with the basics of modern measurement theory and the relationship of measurement technology with quality products. The course learning objectives are the following:  Study of the material on standardization, metrology, measurement techniques and quality control in analytical tests;  Study questions of estimations of the accuracy of measurement systems, forms of presentation of signals, principles of measurement values of various kinds. This course covers the following topics: Product Quality Assurance, Technical Regulations, General Standards, Standards and Standardization, Conformity assessment (certification), basics and concepts of metrology, metrological characteristics of measuring methods, error estimations and measurements, processing of measurement results based on the concept of measurement error, processing of measurement results based on the concept of uncertainty, the State ensuring of the uniformity of measurements, State regulation in the area of traceability. 
Б1ОПМ.Б.8 

Department: 16 Discipline: strength of materials 
familiarity with the basic concepts of the course, solving problems of tensioncompression, torsion, bending, stress state 
Б1ОПМ.Б.3 

Department: 34 Discipline: Инженерная и компьютерная графика/ 
Данная учебная дисциплина позволяет развить пространственное представление и конструктивногеометрическое мышление, способность к анализу и синтезу пространственных форм и отношений на основе графических моделей пространства, практически реализуемых в виде чертежей. В ходе освоения курса вырабатываются компетенции, необходимые студентам для выполнения и чтения технических чертежей различного назначения, составления конструкторской и технической документации. Курс позволяет получить понимание принципов и овладеть навыками построения моделей сложных физических установок, которые впоследствии используются в смежных областях обучения и науки. Изучение учебной дисциплины основывается на теоретических положениях начертательной геометрии и машиностроительного черчения, государственных стандартах ЕСКД, овладении основами работы в одном из графических пакетов САПР (КОМПАС3D, TFLEX/CAD). Задачей изучения дисциплины является обеспечение студента минимумом фундаментальных инженерногеометрических знаний, на базе которых возможно успешно изучать конструкторскотехнологические и специальные дисциплины, а также овладевать новыми знаниями в области инженерной графики, геометрического и математического моделирования./ 
Б1ОПМ.Б.1 

Department: 9 Discipline: Материаловедение/Materials Science 
В дисциплине изучаются условия работы, свойства и поведение под облучением топливных и конструкционных материалов ядерных энергетических установок.
Discipline examines the working conditions, the properties and the behavior under irradiation of fuel and structural materials of nuclear power installations 
Б1ОПМ.Б.4 
