During the training, students acquire scientific knowledge on computer modeling of various mechanical processes, develop the ability to think analytically, learn to put into practice the basics of fundamental mathematics, mechanics, physics and other natural sciences.

Graduates find application for their knowledge in engineering centers of industrial companies, gas and oil industries, transnational corporations, research and design bureaus involved in the development of new engineering technologies.

"Mechanics and Mathematical Modeling" - a direction that allows in the future to make a choice from quite a large number interesting professions:

Researcher,

• mathematician,

  analyst,

  supervisor,

  researcher,

  teacher of physical and mathematical disciplines,

  specialist in mathematical modeling.

Direction characteristics

Characteristic	Index
Training leads
Level of training	Undergraduate
Direction code	01.03.03
Total number of budget places	25
of which places for persons with special rights	3
Number of paid places	25
Entrance tests	Informatics and ICT — 42 Russian language - 40 Maths - 39
Priority entrance examinations	Maths; Informatics and information and communication technologies (ICT); Russian language.
Competition for budget places in 2019	8,50
The minimum total score when crediting to the budget in this area in 2019	216
Graduation qualification	Bachelor
Form of study	full-time
Term full-time education	4 years
Cost of full-time education	RUB 139,707 (in 2019)

Academic plan

Basic profile disciplines:

• mathematical analysis;
• differential equations;
• theoretical mechanics;
• partial differential equations;
• fluid dynamics;
• numerical methods in continuum mechanics;
• physics of the oil and gas reservoir;
• dynamic systems;
• application software packages;
• dynamics of compressible media;
• computer mathematics systems.

Classes are taught by full-time teachers: doctors and candidates of sciences:

Tatosov A.V. , professor, doctor of sciences;

Shalaginov S.D. , Associate Professor, Candidate of Sciences;

Machulis V.V. , associate professor, candidate of sciences;

Mosyagin V.E. , Associate Professor, Candidate of Sciences;

Devyatkov A.P. , Associate Professor, Candidate of Sciences;

Butakova N.N. , Associate Professor, Candidate of Sciences;

Basinsky K.Yu. , Associate Professor, Candidate of Sciences.

practices

Siberian and Ural Branch of the Academy of Sciences of the Russian Federation, OJSC Sberbank of Russia, OJSC Zapsibkombank, Schlumberger, LLC Tyumen Institute of Oil and Gas, LLC TyumenNIPIGIPROGAZ, ITAM SB RAS im. Khristianovich, VTB-24 Bank, SibNAC OJSC, UNI-CONCORD LLC, Earth Cryosphere Institute of the Siberian Branch of the Russian Academy of Sciences, Rusgazproekt OJSC, Nizhneobsky NIPI OJSC, NPO Sibtechneft, Giprotyumenneftegaz OJSC, INFA CJSC , SurgutNIPIneft, NPO Fundamentstroyarkos, OOO Gazpromproektirovanie, OOO Ingeoservice, OOO KogalymNIPIneft.

Achievements

• The TSU SPE Student Chapter team (as part of D.V. Balin) reached the finals of the student intellectual games PetroBowl in London.
• Victory in the contest of the best student works Danil Balin - "The impact of the auto-fracturing process on the development of the field", scientific. head M.Yu. Danko, Head of Hydrodynamic Modeling Department, CJSC Tyumen Institute of Oil and Gas

Learning Outcomes

Ability to solve complex problems using information and communication technologies.

The use of mathematical analysis in the field of theoretical and applied mechanics, geometry, differential equations and probability theory.

Work with specialized programs for modeling and optimization of technological processes.

Doing research work independently or in a group.

Solving problems of mechanical modeling without the participation of a PC (if the situation requires it).

Adapting your knowledge to the organization of the educational process in the field of your competence (physics, mechanics, mathematics, computer science).

Organization of pedagogical, scientific, managerial and production-technological activities.

Employment and career

Areas of activity:

Bachelors have the opportunity to work in any field of science, industry, production, management related to mathematics, engineering, physics, mechanics and programming.

Places of employment of bachelors:

Siberian and Ural Branch of the Academy of Sciences of the Russian Federation, Central Bank, OJSC Sberbank of Russia, OJSC Zapsibkombank, OJSC Surgutneftegazbank, OJSC SibNIINP, Schlumberger, LLC Tyumen Institute of Oil and Gas, LLC TyumenNIPIGIPROGAZ, OJSC Gazprom Neft, CJSC VostokNefteGazProekt, ITAM SB RAS im. Khristianovich, VTB-24 Bank, SibNAC OJSC, UNI-CONCORD LLC, Earth Cryosphere Institute of the Siberian Branch of the Russian Academy of Sciences, Rusgazproekt OJSC, Nizhneobsky NIPI OJSC, NPO Sibtechneft, Giprotyumenneftegaz OJSC, INFA CJSC , SurgutNIPIneft, NPO Fundamentstroyarkos, OOO Gazpromproektirovanie, OOO Ingeoservice, OOO KogalymNIPIneft.

Internships for students, undergraduates and graduate students:

• Evgeny Popov – Scholarship of the President of the Russian Federation for studying abroad, Center for Cloud Computing, University of Birmingham (Great Britain);
• Artem Vorobyov - Scholarship of the President of the Russian Federation for studying abroad, Nanyang University of Technology(Singapore);
• Alexander Kropotin - Scholarship of the President of the Russian Federation for studying abroad, Ulm University (Germany);
• Alexander Stupnikov - Scholarship of the President of the Russian Federation for studying abroad, Ulm University (Germany);
• Natalia Derevyasnikova - program "Semester Abroad", University of Passau (Germany);
• Artur Romazanov, Evgenia Egorova - program "Semester Abroad", University of Passau (Germany);
• Andrey Rybkin - program "Semester Abroad", Kindai University (Gosaka, Japan);
• Anna Zhikhareva - Global UGRAD student exchange program, University of Idaho at Boise (USA);
• Ekaterina Lobanova – Fulbright FLTA Program, Wheaton College (Norton, USA)
• Alexander Gorbachev - Fulbright Program, State research university(state of New York, USA);
• Natalia Derevyasnikova, Anton Lyachek – internship, Huawei (Shenzhen and Beijing, China);
• Polina Gultyaeva, Vladislav Fishman – Semester Abroad Program, University of Koblenz-Landau (Germany)
• Lusine Harutyunyan, Mikhail Lyapunov – Semester Abroad Program, University of Guadalajara (Mexico)

• Maria Rudzevich, Director of the Informatization Department Tyumen region
• Garif Romashkin, manager of the regional bank VTB24
• Evgeny Popov, Research Fellow at the Cloud Computing Center at the University of Birmingham (Great Britain), holder of grants from the President of the Russian Federation, the Potanin Foundation, Governor's Scholarships, Winner of IT-Planet and WorldSkills Russia competencies "Network and system administration"
• Mikhail Fuchko, WorldSkills Russia National Expert in Network and System Administration, coach of the WorldSkills Russia National Team, Head. laboratory of network and system administration of Tyumen State University.
• Elena Tolubaeva, head of department information technologies Federal Tax Service of Russia for the Kurgan Region
• Ivan Karyakin, director of IT company Mintrocket
• Pavel Mostovoy, Leading Specialist of the Large Exploration Projects Support Department, Gazprom Neft Science and Technology Center
• Anna Semenova, specialist of the information and analytical department of the MAOU "Information and Methodological Center"
• Olga Chuenko, Deputy Director of the GKU TO "Center for Information Technologies of the Tyumen Region"
• Maria Krovatkina, network engineer, Schlumberger Logelco inc (Europe and Africa)
• Inna Grigorieva, head of Department of Business Process Automation (based on the 1C:Enterprise platform), Ph.D.
• Vladislav Shkabura, developer, Schlumberger
• Alexander Blazhenskikh, developer at Yandex.Cloud
• Mikhail Grigoriev, National Expert of WorldSkills Russia, Associate Professor of the Department of Software and Systems Engineering, Ph.D.
• Yulia Boganyuk, head. computer laboratories IMiKN, winner of the regional competition scientific works, winner of the contest "Miss IT of the Tyumen Region", WorldSkills Russia expert in the "Machine Learning and BigData" competency
• Igor Mashchitsky, Data Processing Specialist at SAP IT-SERVICE LLC (SIBUR)
• Andrey Sorokin, Head of the Processing Group, Operational Support for Seismic Surveys, Gazpromneft NTC LLC
• Sergey Glazunov, one of the most famous white hat hackers in Russia. For his work on finding Chrome vulnerabilities, Google paid him more than $80,000,
• Andrey Labunets, specialist of the information security department of Facebook
• Alexander Gorbachev, winner and prize-winner of national championships, WorldSkills World Championship, European Championship in the nomination of system administration, grant holder for master's studies in the USA.
• Irina Prudaeva, Deputy Director of the Department for the implementation of programs and projects Information and methodological center
• Elena Sycheva, Development Engineer, Tyumen Institute of Oil and Gas
• Tatyana Yuferova, winner of the WorldSkills Russia Tyumen, WorldSkills Russia Ural, WorldSkills Russia National Championships in the Business Software Solutions competency
• Andrey Evdokimov, Technical Specialist, Department of Technological Support for Standardized Procedures for Assessing Student Achievements, TOGIRRO
• Yuri Egorov, Leading Development Engineer at Baspro Group of Companies
• Anna Kozhevnikova, Software Engineer, IMS Service under the Administration of Gazprom Dobycha Urengoy
• Evgeny Kabardinsky, Software Engineer at Leadex Systems
• Konstantin Borisov, Chief Specialist of the Department of Master Planning and Production Calculation, Gazpromneft-Yamal LLC
• Nikita Pogodin, Java developer at Luxoft
• Abdullah Bashiru, Project Manager software Alsart (Lagos/Nigeria)
• N.S. Bakhtiy, Head of the Department of Mathematical Modeling of Oil and Gas Fields, SurgutNIPIneft, Ph.D.
• A.A. Zolotov, Development Director of the Club of IT Directors of the Tyumen Region, Head of the Development Department information systems OOO "Concord Soft"
• I.N. Polishchuk, director of the Tyumen branch of JSC "GIS-ASUproject", Ph.D.
• V.V. Trofimov, Development Director, PJSC Rostelecom branch in the Tyumen and Kurgan regions
• A. Parkhomtsev, director of Luis+ LLC Western Siberia»
• A.P. Devyatkov, Associate Professor, Department of Fundamental Mathematics and Mechanics, IMiKN, Ph.D.

Foreign partner universities

• Northeastern Pedagogical University(China).
• Qufu State Pedagogical University (China).
• University of Passau (Germany).
• University of Münster (Germany).
• graduate School administrative sciences, Speyer (Germany).
• Tallinn University (Estonia).
• Daugavpils University (Latvia).
• Novobolgarsky University of Sofia (Bulgaria).
• University. Humboldt in Berlin.
• University of Navarra (Spain).
• University of Strasbourg (France).
• University of Lorraine, Metz (France).
• University of Toulouse 2 - Le Miray (France).
• Bodo University College (Norway).
• University of Oslo (Norway).
• University of Wolverhampton (UK).
• University of California, Los Angeles (USA).
• Federal University Fluminense (Brazil).
• Cooperation Agreement between the Federal Commonwealth Agency independent states, compatriots living abroad, and for international humanitarian cooperation (Rossotrudnichestvo).
• Eurasian humanitarian Institute(The Republic of Kazakhstan).
• Yerevan public university(Republic of Armenia).
• Tashkent University of Information Technologies.
• University of Informatics and Information Technologies. Apostle Paul, Ohrid.
• University of Lüneburg.

Partner companies

• Microsoft, Samsung
• Zapsibkombank
• SKB Kontur
• OOO "Tyumen Institute of Oil and Gas"
• Base Group Labs

Institute of Mathematics and Computer Science

Undergraduate
• 01.03.01 Mathematics
• 01.03.02 Applied Mathematics and Computer Science
• 01.03.03 Mechanics and mathematical modeling
• 01.03.04 Applied math

Specialty
• 01.05.01 Fundamental mathematics and mechanics

The future of the industry

What technologies should a state have in order to be strong and independent in the 21st century? Space, nuclear energy, encryption, design, humanitarian technologies - mathematics is needed for all these and many other technologies, without which the future is unthinkable.

Mathematics is the basis, the basis for all natural and many humanities. Thanks to the development of this science, humanity has made an impressive technological breakthrough over the past century. Without mathematics, the development of physics, chemistry, engineering, programming, architecture and many other disciplines is impossible. Without knowing mathematics it is impossible to build a house, design an internal combustion engine, create a computer program. Mathematics is a tool, a tool for others scientific disciplines, with which you can translate the real properties of an object or system into abstract mathematical symbols and build models of the future operation of the system or object. Mathematics is a universal language that will be understood in any country.

Without knowledge of mathematics to live in modern world impossible in the era of globalization. But if the elementary foundations of this science are enough for most people, then for successful work in some areas of human activity, deep knowledge of this discipline is required.

Perhaps in the future the line between mathematics and other sciences will be erased, but now specially trained mathematicians are absolutely necessary in science-intensive industries of any profile, in sociology, politics and education.

Students studying in this profile acquire knowledge in the theoretical and applied sections of mechanics:

theoretical mechanics,

management theory,

theories of stability and stabilization of motion,

mechanics of deformable solid body,

hydroaeromechanics,

oscillation theory,

applied mechanics,

robotics and others.

Along with theoretical knowledge, they master experimental and computational methods for studying motion and state material bodies. Much attention is paid to the study of basic mathematical disciplines and computer science. Graduates have the opportunity to continue their education in postgraduate studies at the university and institutes of the Ural Branch of the Russian Academy of Sciences. In the learning process, students actively participate in research work, in All-Russian Olympiads, scientific competitions and conferences.

Students specialize in the following areas: mathematical modeling, stability and control theory, deformable solid mechanics, computer mechanics, as well as in solving development problems using high-performance technologies modern technology, tasks of economics and finance, ecology and biotechnology, management.

The presence of universal knowledge allows graduates to work not only in research institutes, universities and design bureaus of large industrial organizations, but also in the structures of the economy and business. Among the graduates are not only famous scientists, including the President Russian Academy sciences, heads of research organizations, industrial firms and universities, highly qualified specialists, including those in the field of computer technology, but also businessmen and top managers of commercial structures.
A popular video clip about the direction "Mechanics and Mathematical Modeling" with pictures and music.

Why do you need to study mathematics or mechanics?

For many years of the existence of the faculty, one of the best mathematical schools in the country has been formed,

There are many cool teachers here: professors and scientists,

After the second year in both directions, there is a division into specializations and you can choose the most interesting area for study

on math:

Discrete Math;

Mathematical cybernetics;

Mathematical biology and bioinformatics;

Mathematical methods in economics;

System Programming;

And much more

on mechanics:

Math modeling;

Theory of stability and control;

Mechanics of a Deformed Solid Body;

Computer mechanics;

In senior courses, you can conduct scientific activity: conduct own research, write articles in scientific publications;

Each semester, additional courses are taught on various topics, which can be attended regardless of the direction of study and the chosen specialty.

Who will be interested in the first place?

Those who want to develop mathematical thinking;

Those who want to do science;

For those who are strong exact sciences, but has not yet decided what is more interesting to him;

Mechanic direction suitable for those who are interested in both mathematics and physics.

Who can work after graduating in mathematics?

Anyone and in any field!

People who know how to think are highly valued, and the skills of mathematical thinking will allow you to find a job to your liking in any field. Graduates of mathematical areas of mathmech can be found:

In various positions in the IT field: from programmers to interface designers, from system administrators to project managers;

In the financial sector as analysts, economists, financiers, auditors;

Among engineers and technical specialists in any field from construction to the space industry;

In schools, institutes and universities, scientific laboratories and the Academy of Sciences, where they work as scientists, teachers and leaders.

Differences in mathematical directions:
Maths:

More choice of special courses and specializations,

Strong mathematics and a serious programming base
Mechanics:

Most of the courses are read by teachers from one of the oldest departments of the faculty - the Department of Mechanics and Mathematical Modeling,

The main emphasis is on theoretical and applied branches of physics.

Description

Students studying this profile study the disciplines of the mathematical cycle (algebra, geometry, mathematical analysis), computer (databases, computer graphics, operating systems, programming languages, 3D graphics, parallel programming), as well as applied and theoretical sections of mechanics ( theoretical mechanics, fluid, gas and continuum mechanics, deformable solid mechanics, robotics, hydroaeromechanics). In the learning process, special attention is paid to workshops, including computer ones, where computational and experimental methods of studying the state and movement of material bodies are mastered. Depending on the chosen specialization, students may be interested in such disciplines as physical and chemical gas dynamics, biomechanics, the fundamentals of the nonlinear theory of thin-walled structures, problems of dynamic fracture, the theory of stability of plates and shells, methods for creating functional and nanostructured materials, etc.

Whom to work

Due to the fact that graduates of the profile receive fundamental training in mathematics and computer science, they can get a job in both the field of mechanics and in the field of computer technology. The first place of employment may be the computer centers of large enterprises, educational institutions, for example, research institutes, computer firms, design offices of industrial organizations, universities and business and economic structures. In addition, young people in the process of learning can engage in research work, take part in scientific conferences, competitions, seminars and olympiads, and subsequently continue their studies in the magistracy.

Main results, results of work and plans for the future

Undergraduate

In 2015, the first graduation of bachelors took place in the direction with a profile "Experimental mechanics and computer simulation in mechanics". Eight people out of ten who entered the Department of TiPM in 2011 successfully defended their graduation theses and received bachelor's degrees in engineering.

Designed academic plan preparation of a bachelor in the direction "Mechanics and Mathematical Modeling" proved his high quality. In comparison with the previous program of the specialist in "Mechanics", non-core subjects were removed, the ratio between the physical and mathematical cycle of disciplines and special courses, the physical and mechanical workshop and the computational experiment was balanced. At the official level, training has been introduced to work with the universal "heavy" calculation complex ANSYS (ANSYSInc., USA), which is one of the three main finite element complexes used in industry to develop new technology. Based on experience gained and in connection with further development federal state educational standard the undergraduate curriculum will continue to improve and optimize for the needs of high-tech production.

As a result, the achieved level of mastering the basic educational program graduate-bachelor was higher than the graduate-specialist (4.1 vs. 3.8), and the presented graduate theses of bachelors, despite the shorter preparation time, "beat" the diplomas of specialists (4.6 vs. 4.2). At the same time, the solved scientific and practical problems themselves aroused keen interest among the members of the state commission and lengthy discussions.

Master's degree

This year the first enrollment for the new master's program was carried out "Dynamics and strength of complex mechanical systems" directions "Mechanics and Mathematical Modeling". Nine people came to us, including graduates of the bachelor's degree program "Experimental Mechanics and Computer Simulation in Mechanics".

The bachelor's degree level is only the first level in the system of Russian and world education. It provides a basic theoretical level and gives some practical skills. However, to solve the main task of the Russian industry today - the creation in the shortest possible time of a globally competitive and in-demand product of a new generation - specialists of a new formation are needed - "engineering and technological special forces", whose training can only be carried out on master's programs focused on the high-tech sector of the economy. This is the program we offer to our undergraduate students.

Engineers of the 21st century are research and development engineers who own all the world-class advanced technologies, are able to “break through walls”, “solve unsolvable problems”, make innovative breakthroughs, and ultimately ensure the creation of a new generation of industrial products.

Distribution, practice

The distribution this year has been more active than ever, which is associated with the end of the specialist's programs and the double graduation. However, there was no particular interest in specialist graduates compared to bachelor graduates. The "hunger" for the development engineers of new technology is only increasing. Mechanical engineers are in demand in all branches of mechanical engineering: heavy, energy, auto, ship, aircraft and rocket manufacturing. We were visited by both old partners (Galich Truck Crane Plant, Federal Nuclear Center - Scientific Research Institute of Technical Physics, Progresstekh-Dubna LLC, Gazpromtrubinvest OJSC), as well as new ones, among which the Experimental Machine-Building Plant named after A.I. Myasishchev, engaged in the creation of aviation, aerospace, aerostatic and landing equipment. It was there that most of the mechanical graduates of this year went to the design department for a very decent salary.

Industrial practice 3rd year bachelor's degree "Mechanics and Mathematical Modeling" went very well. After a long break, the students worked in the super-equipped materials testing laboratory of the Dipos Group of Companies (Ivanovo), in the Proton Innovation Center (Vladimir). I would especially like to note the practice at the enterprise "GosMKB" Raduga "named after. A.Ya. Bereznyak (Dubna), which produces high-speed aircraft, and in the Moscow engineering center large international company FESTO, Germany.