Module purpose: the main concepts of the automated information
processing; appointments, structure, main characteristics of computer and
organizational equipment; main methods and means of processing,
storage, transfer and information accumulation; appointment and
principles of use of the system and applied software; bases of
algorithmization of tasks; main components of computer networks,
principles of a packet transmission of data, organizations of gateway
interaction; technologies of information search on the Internet; main
threats and methods of ensuring information security; the principles of
information security from unauthorized access; legal aspects of use of
information technologies and software.
Knowledge: to use information resources for search and
information storage; to use the automated systems of office-
work; to apply methods and information means of protection; to
apply anti-virus means of protection of information; to apply
the specialized software to collecting, snore and information
processing in the professional sphere according to studied
professional modules; to carry out control of a computer
network.
Possession of skills of creation of algorithms and flowcharts;
main concepts of development network and Web of appendices,
applications of methods of information security, methods of
information and communication technologies and electronic
training.
OOP2423
Object – oriented programming 3 credit/
5ECTS
Prerequisites: Programming
1+0+2
Module purpose: studying of life cycle of programs, methods of an
assessment of quality of software products, technologies of development
of program complexes, CASE means; methods and algorithms of object-
oriented programming; techniques, languages and standards of
information support of products (CALS technologies) at various stages of
their life cycle; principles of cryptographic data security; principles of
development and methods of design of program systems; methods of
control over design of program systems; the state standards regulating
process of development of program systems and their description;
theoretical bases of methods of development of the software; ways of
creation of functional specifications; methods of design of program
complexes, creations of abstract types of data, proofs of correctness of
programs, organizations of tests and maintenance of program complexes.
Knowledge: independently to carry out a cycle of design of the
software; to develop specifications and abstract types of the
demands given on the basis of the analysis made to the
software; to prove correctness of programs; to project and code
necessary tests, to use standard terms and definitions; to design
system of protection of the software product; Ability of
techniques of design of the software, collecting, processing and
representation of scientific and technical materials by results of
researches; detection of vulnerabilities of the software for the
purpose of its protection; object-oriented decomposition of a
task according to the set requirements; implementation of the
set specification (architecture) of program system in the
languages Java, C ++.
ECG2424
Engineering and Computer Graphics 2 credit/ 3
ECTS
Prerequisites: Programming
1+0+1
The purpose of the course is the development of spatial representation and
imagination, constructive and geometric thinking, the ability to analyze
and synthesize the spatial forms and their relationships based on the
drawings of specific objects, understanding by design drawing technical
articles and operation of the depicted object.
Skills in computer search, collection, preparation and
processing of the information used in professional work, be able
to do a computer presentation on a given topic.
CM3425
Computational Mechanics
3 credit/ 5ECTS
Prerequisites: Programming
2+0+1
The main purpose of the course is to provide the students with the
fundamental concepts and operating tools to solve problems numerically.
The ability to solve numerically problems of the mechanics; to
know the principles of mathematical modeling of the mechanics
problems, techniques of construction and investigation of
difference schemes used for the numerical solution of ordinary
differential equations and partial differential equations,
numerical implementation execute them on the computer
IET 1 – Theoretical and celestial mechanics
SW 3501
Scientific writing (каз/рус/анг)
1 кредит/ 1,5 ECTS
Prerequisites: Kazakh (Russian) Language for
Professional Purposes: Foreign Language for
Professional Purposes
0+1+0
The purpose of this course is to examine the scientific Kazakh / Russian /
foreign language tion. Learn to use scientific terminology in the specialty.
The ability to write research papers and participate in scientific
discussions in the Kazakh / Russian / foreign language.
NM 3502
Nonholonomic mechanics
2 credit/ 3 ECTS
Prerequisites: Theoretical Mechanics
1+1+0
The purpose of this subject is to teach students to deduce the basic types
of the motion equations of the mechanical systems with linear
nonholonomic ideal constraints: equations with the undetermined
Lagrange multipliers, Appell equations, Tsenov equations, Chaplygin
equations, Voronets equations, Boltzmann-Hamel equations.
- To know the basic concepts of nonholonomic mechanics;
- be able to deduce the motion equations of the nonholonomic
systems
PGT3503
Principles of gyroscope theory
3 credit/ 5ECTS
Prerequisites: Theoretical Mechanics
2+1+0
The purpose of this subject is study of the basics of the theory of
gyroscopes. Gyroscopes have the widest sphere of application, beginning
from motion control of the space and flying vehicles, rocket technique,
and finishing with construction of the underground and ground roads and
mining.
- to know the basic types of gyroscopes, principle of their
action;
- to know the approximate theory of gyroscope, its application
in technique
STAM3504
Software for theoretical and applied mechanics
3 credit/ 5ECTS
Prerequisites: Programming
1+0+2
This subject has an applied character and is focused on the acquisition by
students of skills of numerical solving of the problems of mechanics with
a help of application packages. The software packages are considered for
solving the problems of theoretical and applied mechanics.
- have skills of solving the problems of theoretical and applied
mechanics with a help of application packages;
- be able to analyze the obtained results and make the informed
judgments
DBVM4505
Dynamics of bodies with variable masses
3 credit/ 5ECTS
Prerequisites:Theoretical Mechanics
2+1+0
The purpose of this subject is studying of the main concepts, theorems and
methods of mechanics of bodies with variable masses, the knowledge of
bases of mechanics of bodies with variable masses is necessary by
consideration of problems of practical celestial mechanics: dynamics of
space flight, rocket dynamics.
- To know the main concepts and theorems of mechanics of
bodies with variable masses;
- to be able to work out the equations of motion of bodies with
variable masses
CPCM4506
Classical problems of celestial mechanics
3 credit/ 5ECTS
Prerequisites: Theoretical Mechanics
2+1+0
The purpose of this subject is studying of bases of theoretical celestial
mechanics, studying of classical problems of celestial mechanics. The
celestial mechanics is the important section of mechanics which studies
the celestial bodies motion, the equations of motion and their first
integrals are removed, ways of transition to various relative systems of
coordinates are studied
- To know the main concepts and laws of celestial mechanics;
- to know statement of classical problems of celestial
mechanics and a conclusion of the equations of motion in them
SMMS4507
Stability of motion of mechanical systems
3 credit/ 5ECTS
Prerequisites: Theoretical Mechanics
2+1+0
The purpose of this subject is studying of the main methods of research of
stability of motion. The theory of stability of motion particularly
important in solving practical problems, as the solution of any mechanical
problem will inevitably raise questions about the sustainability and
possible traffic control of system.
- To know bases of the theory of stability of motion of
mechanical systems;
- to own skills of research of stability of motion
PMM4508
Perturbation methods in mechanics
3 credit/ 5ECTS
Prerequisites: Theoretical Mechanics
2+1+0
The purpose of this subject is studying of methods of the theory of
perturbation in mechanics, their description is given, advantages and
applicability limits are defined. Recommendations to application of these
methods for research of motion of a rigid body with one fixed point are
made.
- To know the main methods of the theory of perturbation;
- to be able to apply these methods to finding of the
approximate solution of a task
NAMM4509
Numerical analysis of the mechanics models
3 credit/ 5ECTS
Prerequisites: Computational methods
1+0+2
The purpose of this subject is – to acquaint students with the main
numerical methods which are using at the solution of stationary and non-
stationary problems of mechanics.
Problems of subject – on the example of various tasks to present the main
numerical methods: method of grids, method of final elements, method of
boundary elements.
- To know bases of mathematical modeling of mechanical
systems;
- to be able to carry out the numerical analysis of models of
mechanics
APMPAS4510
Applied problems of motion of the planet
artificial satellite
3 credit/ 5ECTS
Prerequisites:
Theoretical Mechanics
2+1+0
The purpose of this module is to study the theory of motion of artificial
satellites of the Earth, is presented on the basis of the generalized problem
of two fixed centers with the main perturbing forces. The possibilities of
application of this theory to other planetary systems are analyzed.
- Know the general statement of the problem of the motion of
artificial satellites of the planet;
- Be able to deduce the equations of motion and solve simple
application tasks
PT4511
Principles of tribology
2 credit/ 3 ECTS
Prerequisites: Theoretical Mechanics
1+1+0
The purpose of subject is formation at students of system of knowledge
and skills on fundamental questions of the theory of friction and wear of
rigid bodies and ability of their use in practice.
Problems of studying of subject:
to study regularities of friction and wear under various conditions and
modes of loading of rigid bodies.
- To know the main concepts of a tribology;
- to show understanding of the processes happening at contact
interaction of firm deformable bodies and their value in
equipment
IET 2
Fluid and gas mechanics
SW 3501
Scientific writing (каз/рус/анг)
1 credit / 1,5 ECTS
Prerequisites: Kazakh (Russian) Language for
Professional Purposes;
Foreign Language for Professional Purposes
0+1+0
The purpose of this course is to examine the scientific Kazakh / Russian /
foreign language tion. Learn to use scientific terminology in the specialty.
The ability to write research papers and participate in scientific
discussions in the Kazakh / Russian / foreign language.
TFCV 3502
Theory of functions of complex variable
2 credit/ 3 ECTS
Prerequisites: Mathematical analysis 3
1+1+0
The main task of teaching courses is to teach students skillfully apply the
methods of the theory of functions of a complex variable to solve
problems and analyze the results.
- Know the basic concepts and ideas of the theory of functions
of a complex variable;
- Be able to apply the methods of the theory of functions of a
complex variable to solve the practical problems of fluid
mechanics.
EG 3503
Experimental hydromechanics
3 credit/ 5ECTS
Prerequisites: Fluid and gas mechanics
1+1+1
The aim of the course: to give students knowledge on modeling of the real
flow of fluid and gas, on technique and methodology of experimental
investigation of fluid dynamics.
The task of the course is that students should know about principle of the
equipment and works of wind channel, laboratory bench and instruments.
To know about various experimental methods of
investigation of the process and phenomenon in mechanical
system.
To know the main point, application methodology,
advantages and disadvantages of various experimental methods.
To be able to ground the choice of the experimental
method for solving one or another problem, to mathematically
development the results of the experimental investigation
•To have practical skill on work with simulation machine, plant,
gauge and measuring device , on statement of experimental
investigations
SFGM 3504
Software for fluid and gas mechanics
3 credit/ 5ECTS
Prerequisites: Programming
1+0+2
Course objective: To teach students to analyze the results of simulation of
fluid dynamics with ready-made software packages.
- Know the basic principles of settlement in packages of applied
programs for problems of fluid dynamics;
- To be able to solve the problems of fluid dynamics using the
software packages;
- Own method of processing and analysis of the results.
FD 4505
Fluid dynamics
3 credit/ 5ECTS
Prerequisites: Fluid and gas mechanics
1+1+1
The aim of discipline is to teach students to analyse physics of the real
phenomenons encountered in fluid dynamics and their investigation with
the help of mathematical body.
Tasks of course to teach students:
- analyse physics of the real phenomenons encountered in fluid
mechanics;
- determine the main parameters defining the behavior of phenomenons
and construct their models.
- be able to analyse physics of real phenomenons encountered in
fluid mechanics;
- be able to determine the main parameters defining the
behavior of phenomenons;
- own methodology of construction of model and investigation
of flows with the help of mathematical body
CFD4506
Computational fluid dynamics
3 credit/ 5ECTS
Prerequisites: Computational Mechanics
1+0+2
The purpose of the given discipline is to teach students the basic
numerical methods for the study of viscous fluid modeled by the Navier-
Stokes equations and their properties. To be able to select and construct
viscous fluid flow models and have practical skills in numerical
realization on computer program.
- to have a knowledge of theoretical basics and principles of
numerical model construction and their properties;
- to be able to choose and construct numerical models of fluid
and gas flows, have a practical skills of their numerical
implementation;
- to have a knowledge of processing and analysis of the
obtained results.
PM4507
Principles of magnetohydrodynamics
3 credit/ 5ECTS
Prerequisites:Fluid and gas mechanics
2+1+0
The main purpose and objective of discipline is to give students the
theoretical knowledge and understanding of the basic laws of fluid
dynamics and heat transfer of the MHD flow of a viscous conducting
fluid.
As part of the course, students will learn the MHD model of a viscous
incompressible conducting fluid, learn to investigate the processes of
conducting fluid flows with variable conductivity.
- Know the basic concepts and terms of MHD models;
- Be able to build a model of the flow conducting fluid;
- The method of choice own the model and research flows
conducting fluid.
PhH4508
Physicochemical hydrodynamics
3 credit/ 5ECTS
Prerequisites: Fluid and gas mechanics
1+1+1
The main objective and task of the subject is to give students theoretical
knowledge and idea about main law, methods of investigation of the
process with physical and chemical conversion
-to know main conception, term and models for description of
the process with physical and chemical conversion;
-to be able to construct a model of the flow with physical and
chemical conversion;
- to possess the methods of choice of the models and
investigation of the flow, development and analyze the results
of the investigation of the process with physical and chemical
conversion;
FTFMCM
4509
Fundamentals of turbulent flows, models and
computation methods
3 credit/ 5ECTS
Prerequisites: Fluid and gas mechanics
2+1+0
The aim of discipline is to introduce students to the main models of
turbulence and teach methods their calculation.
Know the main models of turbulent flows.
Know principles of construction of such models.
Acquire skills of investigation of turbulent flows.
EMPM4510
Experimental methods in porous media3 credit/
5ECTS
Prerequisites: Experimental methods in
mechanics
1+0+2
The aim of the course: To give students knowledge on modeling,
technique and methods of experimental investigation of the flow in porous
media.
The task of the course is that students should have an idea about
equipment principles and works of laboratory bench and measuring
devises.
to have an idea about various experimental methods of
investigation of the process and pheneomenon in porous media,
about abilities and perspective of these methods;
to know main point, application methodology, advantages
and disadvantages of various experimental methods;
to be able to ground the choice of the experimental
methods for solving one or another problem, mathematically
ground the results of the experimental investigation.
to have a practical skill on work with simulation machine,
plant, gauge and measuring device , on statement of
experimental investigations
PFTCMM4511
Principles of filtration theory, calculation
models and methods 2 credit/ 3 ECTS
Prerequisites: Fluid and gas mechanics
1+0+1
The aim of the course to acquaint students with modern methods of
problem investigation of the filtration of incompressible or low
compressible fluid in porous media
The task of the course to teach students to solve various problems on
filtration with analytical and numerical methods by their selves
-to know main concepts and theoretical base of the filtration
theory;
-to be able to build model of flow in porous media;
-to have an ability to solve the problem of the incompressible
fluid flow in porous media by modern methods of investigation.
IET 3
Mechanics of Structural Elements
SW 3501
Scientific writing (каз/рус/анг)
1 кредит/ 1,5 ECTS
Prerequisites: K(R)LPP Kazakh (Russian)
Language for Professional Purposes: Foreign
Language for Professional Purposes
0+1+0
The purpose of this course is to examine the scientific Kazakh / Russian /
foreign language tion. Learn to use scientific terminology in the specialty.
The ability to write research papers and participate in scientific
discussions in the Kazakh / Russian / foreign language.
PMM3502
Practicum on Materials mechanics
2 credit/ 3 ECTS
Prerequisites: Materials mechanics 1+0+1
The purpose of the course - to study modern experimental methods in
mechanics with purpose of their practical application in research,
production
and
teaching
activities
of
specialist.
Discipline objectives: to give students the kind of knowledge that will
enable them to practice to use experimental methods in scientific,
industrial and educational activities.
Ability to deal with modern testing machines and test
equipment, analyze the mechanical properties of structural
materials
VER 3503
Vibrations of elastic rods
3 credit/ 5ECTS
Prerequisites: Theory of oscillations and
vibrations
2+1+0
The purpose of the course - to teach the student to determine the
longitudinal, torsional and bending vibrations of an elastic rod, the student
must distinguish between free, natural and forced vibrations, have an
understanding of the phenomenon of resonance.
Able to determine the natural frequencies of vibration of elastic
rods, as well as dangerous vibrations to assess the strength of
the structure.
SCM3504
3504
Software for continuum mechanics
3 credit/ 5ECTS
Prerequisites: Programming
1+0+2
The purpose of course is to provide the students with the knowledge and
skills to solve fluid dynamic problems simulation by software and
analyze the results of simulation.
- To know the basic principles of calculations of fluid dynamics
problems by software;
- To be able to solve the problems of fluid dynamics using the
software;
- To own technique of processing and analysis of calculation
results.
PEM 4505
Principles of earthquake mechanics
3 credit/ 5ECTS
Prerequisites:
Mechanics of deformable solids
2+1+0
The purpose the course - to teach students to analyze the material with the
problems
of
mechanics
and
hypotheses
seismologists.
Objective of the course - to give students a knowledge of the basic
concepts and models of the mechanics of earthquakes: the magnitude and
scope
of
the
hearth,
radiation waves and focal mechanism, fault earthquake, mobile
dislocations
- Know the basic concepts and models of mechanics of
earthquakes;
- Be able to apply the three laws of Gutenberg - Richter to the
analysis of the seismic activity of the Northern Tien Shan;
GM 4506
Geomechanics
3 credit/ 5ECTS
Prerequisites:
Mechanics of deformable solids
2+1+0
The purpose of the discipline - to provide students the complex concepts
and knowledge of mechanical processes operating in the rock mass.
The objectives of the discipline is to:
study of the physical and mechanical properties of rocks and methods of
laboratory tests, evaluation of the initial stress state of the rock mass, the
experimental and theoretical methods for its determination.
- Know the basic concepts and models of geo-mechanics;
- Be able to apply the laws and methods of geomechanics to
solve applied problems of geology and mining;
FMC4507
Fundamentals of Mechanics of Composites
3 credit/ 5ECTS
Prerequisites: Mechanics of deformable solids
2+0+1
The purpose of subject - study of composite materials, which represent a
heterophasic system derived from two or more components while
preserving identity of each individual component, methods to determine
the effective characteristics of the composites. .
- Know the basic characteristics and models of composite
materials;
- Be able to apply the micro macromodels of composite
materials to calculation of strength;
FA4508
Fundamentals of aeroelasticity
3 credit/ 5ECTS
Prerequisites: Mechanics of deformable solids
2+1+0
Aeroelasticity - is a field of applied mechanics, which studies the behavior
of elastic bodies in the gas stream. Discipline devoted to the linear theory
of vibrations of various elements of the aircraft structure, exposed to
aerodynamic forces, and to supersonic flow. This task allows you to
determine the critical speed above which will lead to the destruction of
design offers.
-
Know
the
basic
concepts
of
aero-elasticity;
- Be able to apply to the analysis of the stability of self-
oscillations of plates and shells in the gas stream;
VSDS4509
Vibrations and stability of deformable systems
3 credit/ 5ECTS
Prerequisites: Mechanics of deformable solids
2+1+0
The purpose of subject - the study of the problems of stability of elastic
and elastic-plastic systems: loss of stability under various forms of
equilibrium and beyond the elastic limit, the study of the behavior of a
compressed rod with a loss of stability beyond the elastic limit.
- Know the criteria for the stability of elastic and inelastic
systems;
- To be able to find the critical force of the elastic and inelastic
systems;
FTDR4510
Fundamentals of theory of durability and
reliability
3 credit/ 5ECTS
The purpose of subject - the study of the basic theory of the strength and
reliability of machinery, equipment and technical systems; acquisition by
students of knowledge about the basics of calculating the characteristics of
- Know the concept of Griffiths - Irwin - Orowan; Kachanova -
Rabotnova;
- Be able to apply the methods of fracture mechanics and
Prerequisites: Mechanics of deformable solids
2+0+1
strength, reliability and durability evaluation of the reliability of technical
systems, development and implementation of measures for its
improvement.
damage to the analysis of strength, reliability and durability of
structural elements;
TS4511
Thermodynamics of solids
2 credit/ 3 ECTS
Prerequisites: Fundamentals of
thermodynamics and heat and mass transfer
Experimental methods in mechanics
1+1+0
The purpose of subject - the study of the laws of energy transformation in
the form of heat transfer, and carry out the work; have the concept of
reversible and irreversible processes, and methods of analysis; know the
basic processes of conversion of heat into work, to know the meaning and
purpose of all of the thermodynamic properties of solids and methods of
their determination.
- Know the laws of thermodynamics homogeneous processes,
the
conditions
of
thermodynamic
balance;
- Be able to apply the model of a thermoelastic continuum to
the analysis of the stress strain state of structural elements.
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