asiin master

8/17/2019 Asiin Master

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Goals and Learning Outcomes for Master StudiesFor Each of 20 Modules

Aerospace engineering

semester ID title goal learning outcome

1 MSc-0275 obligatory AppliedAerodynamics

The objective for course is to develop anunderstanding of low-speed aerodynamicsand an introduction to compressible flows.The course covers concepts in incompressibleairfoil theory, including symmetric andcambered airfoils using analytical andnumerical approaches. The course also coversincompressible wing theory, including down

wash, lifting-line theory, elliptic wings,general twisted wings, application of fundamentals to the design of a wing to meetgiven performance criteria.

After passing the subject the students areexpected to understand and explain variousaspects of the link between the body shape andits aerodynamic characteristics. In addition, it isexpected that students recognize the use of opportunities acquired knowledge inaerodynamics, to other areas of techniques.

1 MSc-0629 obligatory StructuralAnalysis

1. introduction to problems and moderncalculation methods in stress analysis of aircraft structures, as well as their applicationto solving real problems 2. introduction toexperimental stress analysis of aircraftstructures 3. introduction to thin walled

structures and composite materials 4.introduction to modern computationalmethods for stress analysis related to airframestructures

1. mastering basic structural analysis theories. 2.Application of thery to solve practical problems.3. Understanding basis of aircraft designprocess. 4. Understanding modern methods instructural analysis for stress analysis of aircraftstructures.

2 MSc-0186 obligatory Flight Dynamics Introduce students to the dynamics of flight,ie. movement of aircraft in atmosphericflight. In this course students will studying thestability and maneuverability of aircraft, ie.

Completed the planned curriculum studentsobtain a sufficient theoretical knowledge that isable to be creatively independent state to definestatic and dynamic stability and maneuverability



movement of aircraft around the center of gravity. Under the terms of reference thatencompasses and integrates the entire fieldcontents taught, students will be capable of using modern software packages, such as:Matlab, Mathcad, etc. . fully master thecalculation of stability and controllability of aircraft in the airspace.

of modern aircraft and all restrictions of flightoptions that resulting from it. In this coursestudents will receive full sublimation andverification of previously acquired knowledgeand skills that they get into the aviation modulefrom aerodynamic case.

2 MSc-0639 obligatory CompositeStructures

1. introduction to modern approach in stressanalysis of composite material structures onaircraft, it's application to practical problemssolutions as well as experimental methodsapplied to structural verifification of composite structures. 2.Introduction tospecifics of thin walled structures andapplication of composite materials for thesestructures. 3.Introduction to computersimualtion and stress analysis of composite

structures on aircrafts.

1. mastering basic theoretical knowledge of structural analysis. 2. Application of theoreticalprinciples to solution of practical problems 3.Understanding basic aircraft design principles 4.Understanding modern approach andmethodology in design and stress-strain analysisof aircraft structures

2 MSc-0577 obligatory ComputationalAerodynamics

The goal of the course is to train students inmodeling of flow problems. After attendingthe course, finishing all exercises and givingthe final presentation, students should be ableto recognize the type of the problem,formulate necessary boundary and initialconditions, choose an appropriatediscretization scheme and write a programfor calculating flow inside or around simpler

geometric shapes, such as a nozzle or anairfoil.

By successfully adopting the program of thecourse, a student: -acquires theoreticalknowledge sufficient to recognize the type of the problem as well as the type and number of additional conditions necessary to completelyand uniquely define the problem that is beingsimulated; -recognizes basic approximationschemes of the typical problems; -masters theprinciples and foundations of programming

related to simulations of continuum; -observesthe structure of the simulation software thatconsists of pre-processing, simulation andvisualization.

3 MSc-0120 obligatory Aircraftpropulsion

Course objective is to introduce students tothe types and principles of functioning of basic aircraft power elements, as well as theircharacteristics and domains of use.Furthermore, the relation between the type of

By mastering this course, a student acquiresabilities to perform analysis and synthesis of thewhole system that consists of the aircraft and itspower elements. A student gains knowledge onstructures of the various types of aircraft



the aircraft and propulsion system is pointedout, so that each mission can be realized in anoptimal way according to the desired goalsand constraints.

engines and components they are made of.Based on the acquired knowledge on the engineperformances, a student is able to form anopinion on the quality of usually used enginesand will acquire knowledge necessary forfurther self-improvement.

3 MSc-0136 obligatory Aircraft Design Purpose of the subject is to introduce students

to submit concept of the aircraft. Processinclude analysis of existing similar airplanesand assessment of their good and weakpoints. To select optimum concept. To definebasic geometric parameters of an aircraft. Toselect configuration, propulsion system,specific load and specific thrust/power. Tocalculate loads, performances and stability of the airplane.

After attending all lectures and recitations and

after completion of projects students will beable to analyze, to specify and to developaircraft concept according to required purposeand performances. Completion of projectassumes passage through whole process of conceptual aircraft design. For selected segmentof aircraft student should complete preliminarydesign, and for certain parts detail design of these parts should be included in the studentproject.

3 MSc-0109 obligatory Aircraft controland systems

Subject task is to introduce students withintegrated flight control computer systems,their functions, structures and principles. Thishave to enable students to enter into moredetailed integration of aircraft systems and itscomponents in aircraft control.

By the subject student gets knowledges andunderstandings about existing aircraftintegrated control computer systems. Theseknowledges enables understending of aircraftcontrol systems if they are oriented to otheraeronautical fields, or to further specialization inthis aeria.

4 MSc-0612 obligatory Skill Praxis M -VAZ

Practical experience and stay in environmentin which the student will realize hisprofessional career. Identifying the basicfunctions of the business system in the field of design, development and production, as wellas the roles and tasks of an mechanicalengineer in such a business system.

Student gets practical experience on theorganization and functioning of theenvironment in which they will apply theirknowledge in their future professional career.Student identifies models of communicationwith colleagues and business information flows.The student recognizes the basic processes inthe design, manufacture, maintenance, withinthe context of his future professionalcompetence. Establish the personal contacts thatwill be able to use in further education, orentering into future employment.



1 MSc-0311 elective Avionics Objectives of the course are to introducestudents to aviation electronic equipment andsystems, their functions, structures and basicprinciples. The subject should providestudents a detailed a detailed view of thelatest trends in avionics technology anddevelopment.

Successful completion of course studentsacquire the ability to understand the existingsolutions aviation electronic equipment andsystems.The student acquires knowledge aboutthe structures of various types of avionicsequipment and systems. The knowledge thatallow students to opt for other aviation issues tounderstand the electronic aviation equipment

and systems,and for those who want tospecialize in these issues are fundamental to theacquired knowledge for further work.

1 MSc-0348 elective AircraftPerformance

Introduce students to the complex movementof aircraft in atmospheric flight. Students willlearning the performance of aircraft, ie themovement of aircraft center of gravity inspace under the action of forces. Under theterms of reference that encompasses andintegrates the entire field contents taught,

students will be able to work independentlyand with the use of modern softwarepackages, such as: Matlab, Mathcad, Excel,etc.. fully master the budget performanceaircraft in the airspace.

Completed the planned curriculum studentsobtain sufficient theoretical knowledge that isable to be creatively self-performancecapabilities to define the modern aircraft and allrestrictions of flight options that resulting fromit. In this course students will receive fullsublimation and verification of previously

acquired knowledge and skills that they get intothe aviation module from aerodynamic case.

2 MSc-0309 elective High SpeedAerodynamics

The aim of this course is to introduce studentsto basic concepts in the field of high speedaerodynamics. Emphasis is given to transonicand supersonic flow problems. External flows(supersonic airfoils, wings and aircraft in

general) and internal flows (supersonic inlets,nozzles and diffusers).

Upon completion and passing the course thestudent expected to understand the basicconcepts and problems addressed in the field of aerodynamics at transonic and supersonicspeeds. It is expected that the student knows

how to apply the acquired knowledge in thisfield to solve practical engineering problems.

2 MSc-0545 elective Windturbines 2 In the course of Wind turbines 2, the studentwill be acquainted with analysis and designprinciples of wind turbines and its parts.Beside the detailed study of different windturbine designs, issues regarding regulationand dynamic balancing, the student will be inopportunity to gain knowledge about

The student will gain following subject-specificskills by mastering the curriculum: - thoroughknowledge and understanding of different windturbine concepts and design methods; - skillsneeded for wind turbine and its parts selectionaccording to given operating conditions usingscientific methods and procedures; - integration



numerical simulations and flow, structuraland modal analysis of wind turbinecomponents, as well as basic principles of optimization of rotors for various operatingconditions.

of fundamental knowledge in mathematics,programming, mechanics and fluid mechanicsand application to design and calculations of wind turbines;

2 MSc-0326 elective Helicopters 1. Introduction to rotary lifting surfacevehicles. 2. Introduction to rotor aerodynamictheory. 3. Design of helicopters. 4.Performance of helicopters.

1. Understanding of aerodynamic VTOLschemes. 2. Aerodynamic scheme of helicopters. 3. Mastering theoretical foundationsof rotary wing aerodynamics. 4. Ability toestimate of aerodynamic and performancecharacteristics.

3 MSc-0645 elective Aeroelasticity 1. introduction to modern aeroelasticityproblems and their analysis and practicalmethods to solving aeroelasticity problems inreal aircraft structures 2. introduction toexperimental dynamic analysis of aircraftstructures 3. introduction to dynamics of thinwalled structures

1. mastering basic theoretical knowledge relatedto aeroleasticty 2. application of theoreticalknowledge to solve aeroelasticity problems onreal aircraft structures

3 MSc-0344 elective Aircraftarmementsystems

The study of this course is to ensure adoptionof procedures and methods for problemsolving related to aircraft armamentcalculations. Students will be capable of independently study aircraft rocket, bomberand firearms armament elements in order toobtain maximum effectiveness for the givenconditions of application for each of thesetypes of aircraft weapons. Particular attentionwill be faced towards development trends of modern aircraft armament.

By mastering of the course curriculum studentobtains following subject-specific skills: -thorough knowledge and understanding of different types of aircraft weapons and theirapplication - calculation of air weaponscharacteristics and possibility of theirintegration into the aircraft with the use of scientific methods and procedures - linkingbasic knowledge in mathematics, programming,mechanics and fluid mechanics and theirapplication in design and calculation of aviationweapons and its integration;

3 MSc-0154 elective AircraftMaintenance

In the course of aircraft maintenance studentswill get basic knowledge of contemporarytheory and practice of maintenance andoverhaul of civil and military aircraft. Also,one part of the course will be devoted to thestudy of maintainability, reliability, combat

Completed the planned curriculum introducesstudents to the procedures of creative thinkingand decision making in the field of maintenanceof aircraft and acquire sufficient theoretical andpractical knowledge that is able to participate inthe team that designed the aircraft or maintain



survivability analysis, as the basic structuralcharacteristics of the system, which aredefined in the early stages of design anddevelopment of modern aircraft.

or revitalize, sublimating sizes such asreliability, maintainability, fighting tenacity andtolerance to damage aircraft in the event of forced landing.

3 MSc-0142 elective ProjectManagement &Air Regulation

Course objective • Understanding theimportance of project management inaviation. • The creation, introduction and useof aviation projects. • Determining thefunctionality of your own projects. •Preparation, analysis and projectmanagement. • Understanding and preparingthe necessary documents for theimplementation of projects.

The acquired knowledge enables the student to:• Prepare, create and show their own skills, •Determine the functionality of the aviationproject, • Prepare, perform and manage thedevelopment of the aviation project, •Determine technology of designing an aviationproject, • Recognize the requirements of thelocal aviation industry in projects, • Make thenecessary documentation of aviation project, •Implement and collect aviation project.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learnthe elements of the dynamics of theoscillatory motion of a particle, the dynamicsof variable mass particle, advanced problemsin kinematics of a particle, kinematics of acomplex motion of a rigid body andmechanical system of rigid bodies as well asthe dynamics of spherical and general rigidbody motion, the approximate theory of gyroscope and the impact theory.

By gaining knowledge in this course, studentswill be able to efficiently solve complexproblems in kinematics and dynamics of particleand material system. This knowledge can allowstudents to attend classes in specialized coursesthat analyze the kinematic and dynamicproblems.

1 MSc-0685 obligatory Fluid mechanicsM

The goal of the course is to teach the studentthe basics and applications in science of fluidflow. The essence in that sense is goodunderstanding of fundamental equations of

fluid mechanics. That good understanding of the equations makes the process of finding thesolution in particular engineering problemswhich are dealing with fluid flow mucheasier.

Learning the topics from the course student willget the knowledge about basic principles in fluidmechanics and capabilities of analyticalthinking, then how to apply the knowledge in

practical work, and also to make the connectionbetween various subjects from mechanicalengineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,

Achievment of the engineering experise in atrue analysis of mechanisms, sensors, actuatorsand PLCs as a main componenets of a



selection of appropriate control unit andcreation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

mechatronical system. Based on a well studiedreverse engineering (analysis), a skillfulapproach to the direct design (synthesis) of anoriginal mechatronical concept.

1 MSc-0202 obligatory ThermodynamicsМ

Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process engineering,thermal engineering and power engineering.Through practical and theoretical educationshould understand from thermodynamicaspect the transformation of thermal energyinto mechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for drying variousmaterials and air conditioning of corresponding spaces.

After completing the course, including quizzesand tests and successfully passed exam, studentsshall be ready to independently performthermodynamic calculations of simpler thermalplants and particular devices. The result of thiscourse is also acquiring fundamental knowledgethat serves as the basis for active participationin other theoretical and applicative courses.

Biomedical engineering


1 MSc-0287 obligatory Biomedicalinstrumentationand equipment

Introducing to standard measuring anddiagnostically medical methods andimplementation of electron devices in medicine.The focus is on the principles and operationmethods of the biomedical equipment with brief

description of device construction. The subjecteducates engineers to improve still existing anddevelop new biomedical equipment.

By attending the course, students will beeducated to understand and analyze problemsconcerned with operation and usage of biomedical instrumentation and equipment.This course educate students to connect basic

principals of electronics, physics andmedicine and to practically implement theminto modern medical equipment.

1 MSc-0272 obligatory Fractalmechanics

The goal of this subject is to teach a student toapply multi-fractal system theory in a field of biomedical engineering; to learn to usemathematical apparatus of fractal theory andmodeling of embryological process, formation

Student gains the ability for fractal processingof images and charts, and defining theparameters of tissues and biological systemsthat determine the functional state of organsand organism, as a basis for design of



and functioning of tissues, organs, organsubsystems and entire organism; to masterknowledge about c lassical, quantum approach toanalyse tissues; to maser fractal imageprocessing and fractal chart pattern analysis; tolearn to define diagnostic parameters,algorithms and instruments for determiningfunctional conditions of organs and organism

(normal conditions and pathologicalconditions)on the basis of fractal analysis of para/diamagnetic data.

parameters which are meant to be measuredby biomedical instrumentation in order tohelp in diagnostics.

2 MSc-0640 obligatory Biomaterials inMedicine andDentistry

Introducing students to the application of different biomaterials, previously discussedduring Foundations of Biomaterials course, inorder to understand and study functionalbehaviour of biomaterials in the human body.Analysis of the connections between thebiomaterial and the body system, in order to

ensure reliable implant operation. The potentialco-operation with experts in the field of materials science, dentistry and medicine isallowed, which provides the ability to work inspecialized laboratories and clinical facilities.

By attending this course the student willmaster the application of biomaterials inmedicine and dentistry, using modernscientific methods. Theoreticalconsiderations, laboratory experimental workand the application of numerical analysisusing the licensed software for finite element

method, enables the synergy of the previouslyacquired knowledge in physics, materialsscience, mathematics and mechanics, in orderto implement them in engineering practice.

2 MSc-0559 obligatory Biomechanics of tissue and organs

To introduce students to the application of fundamental principles and laws of biomechanics of tissues and organs in order tounderstand and study them. Establishment of appropriate biomechanical model of tissue and

organs using modern theory of viscoelasticity,the possibility of simulations based on them inorder to confirm the experimental data, thepossibility of applying for the purposes of designand design basis of the same. It allows thepotential cooperation with experts in medicineor work in specialized clinical institutions.

Attending the course students acquire theability to analyze the possibility of solving thecurrent problems related to thebiomechanical properties and characteristicsof human tissues and organs with the use of

scientific methods and procedures as well ascomputer technology and equipment. Inaddition, students can connect basicknowledge of mechanics, mathematics,physics, anatomy, physiology, biomechanicswith application in the bioengineering of tissues and organs.

2 MSc-0535 obligatory Signal Processing Introduction of basic concepts and knowledgerelated to discrete signals and systems analysis

Student is provided with basic theoreticalknowledge concerning digital signal and



in time domain as well as in frequent domain,digital processing of analog signals, digitalprocessing of discrete and stochastic signals,digital filter design. Concerning digital imageprocessing, student is introduced to concept of digital image, image quality enhancement,frequency domain processing, morphologicalprocessing and image compression.

image processing for biomedical applications.Also during the course student is trained toactively use software such as MATLAB, withaccompanied toolbox SIMULINK, for analysisand processing of 1-D and 2-D signals as wellas for mathematical modeling of biologicalsystems.

2 MSc-0654 obligatory Spectroscopymethods andtechniques

Introducing students to fundamentals of spectroscopy methods and techniques. Throughtheoretical lectures and practical work studentmasters the understanding of light-matterinteraction and how this interaction can be usedto acquire information about structure of thematter. Through work on seminar paper andwork in the laboratory student learns to applyacquired knowledge about structure of thematter in order to improve and control quality

of various products in food industry, pharmacy,and other industrial branches, as well as incharacterization of new materials, applicationsin biomedical engineering for early detection of bio-markers, pathological changes and diseases.

Combining theoretical lectures and practicalwork in laboratory student learns to usemodern spectroscopy equipment anddifferent spectroscopy techniques. Throughwork on practical problems and seminarpaper student get to know techniques of spectral data analysis in materialcharacterization, food, medicines, anddiagnostics of biological tissue samples invitro and in vivo.

3 MSc-0571 obligatory BiomedicalApparatus andDevices

Introducing students with problems of biomedical apparatus and devices, on exampleof numerous devices of last generation whichare frequently in use (CT, PET, NMR,ultrasound, systems for filtration,..). Students

are became able critically to approach toproblem, and to define the most importantbiomedical and other measurements which candetermine characteristics of device whichshould be used and constructed.

With attending this course, student isintroduced with theoretical consideration,detailed analysis of modern devices, theirpractical application. Students also make theirown seminary papers/projects, in which they

embrace previously acquired knowledge's of mathematics, physics, mechanics, and all forapplication of what is learned in engineeringpractice.

3 MSc-0728 obligatory NanomedicalEngineering

Student will get knowledge of наносциенцеанд nanotechnology applications in medicinetogether with good practical laboratory work incharacterization of biomaterials with

The abbility of students to interpret theadvantages of applications of newnanotechnology devices in medicine againstthe classical ones. Understanding principles of



nanotechnological methods, techniques andinstrumentation. Student will get knowledge of modern diagnostics and therapeuticnanotechnological methods in medicine and willlearn how to prepare classical and biologicalsamples and to characterize them withnanotechnological instrumentation.

functioning and specificities of the conditionsin which the devices are applied. The abbilityof modifing technical solutions innanotechnologies and quantum informationtechnology in order to make applicationsmore effective.

3 MSc-0564 obligatory Early diagnosticsof cancer andmelanoma

The goal of this course is to introduce molecularmechanisms of developing cancer and existingmethods for early diagnostics. Through criticalapproach to existing methods, and masteringthe latest noninvasive or minimally invasivemethods for early detection of cancer andmelanoma, student is given basis for inclusion inmodern scientific research and development of new diagnostic methods, as well as applicationand improvement of existing methods inbiomedical practice.

Student is familiar with molecular, genetic,and biochemical basis of cancer development,influential factors for pathogenesis anddevelopment of cancer. Student has masteredstructural, energetic and bioinformationalcharacteristics of pathogenesis of differenttypes of cancer and tumor (skin cancer,melanoma, cervical cancer, oral cavitycancer, colorectal cancer, breast cancer, andbrain tumor) and is familiar with existingdiagnostic methods and challenges for

improving specificity and sensitivity of thesemethods. Student is able to understand,design, improve and apply newestnoninvasive methods for early detection of cancer and melanoma.

4 MSc-0233 obligatory Skill Praxis M -BMI

Practical experiences, and work in environmentwhere student will realize his/her professionalcareer. Identifying the basic functions of theworking system in the field of design,development and production, as well as the

roles and tasks of mechanical engineering insuch a working system.

Students get practical experience inorganization and functioning of theenvironment in which they will apply theirknowledge in the future professional career.Student identifies models of communication

with colleagues and business informationflows. Student recognizes the basic processesin the design, manufacture, maintenance, inthe context of his future professionalcompetence. Personal contacts will beestablish the and connections that they will beable to use during their studying, or byentering into future employment.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn the By gaining knowledge in this course, students



elements of the dynamics of the oscillatorymotion of a particle, the dynamics of variablemass particle, advanced problems in kinematicsof a particle, kinematics of a complex motion of a rigid body and mechanical system of rigidbodies as well as the dynamics of spherical andgeneral rigid body motion, the approximatetheory of gyroscope and the impact theory.

will be able to efficiently solve complexproblems in kinematics and dynamics of particle and material system. This knowledgecan allow students to attend classes inspecialized courses that analyze the kinematicand dynamic problems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow.The essence in that sense is good understandingof fundamental equations of fluid mechanics.That good understanding of the equations makesthe process of finding the solution in particularengineering problems which are dealing withfluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basic principlesin fluid mechanics and capabilities of analytical thinking, then how to apply theknowledge in practical work, and also tomake the connection between varioussubjects from mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit andcreation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors,actuators and PLCs as a main componenets of a mechatronical system. Based on a wellstudied reverse engineering (analysis), askillful approach to the direct design(synthesis) of an original mechatronicalconcept.


Student should gain knowledge inthermodynamics and thermal devices and plantsthat are present in process engineering, thermalengineering and power engineering. Through

practical and theoretical education shouldunderstand from thermodynamic aspect thetransformation of thermal energy intomechanical work and gain physicalfundamentals on phenomena that go on in steamturbine, gas turbine and refrigeration devices aswell as in plants for drying various materialsand air conditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamic

calculations of simpler thermal plants andparticular devices. The result of this course isalso acquiring fundamental knowledge thatserves as the basis for active participation inother theoretical and applicative courses.



Control Engineering


1 MSc-0566 obligatory AutomaticControl

Acquisition of knowledge from the theoryof linear control systems.

Acquiring the knowledge obtained is used inengineering practice and the basis for monitoringthe course of nonlinear systems and advanced

courses of synthesis of linear systems.1 MSc-0631 obligatory Computer

control•Introducing of: nature of computer controlsystems-CCS related to types of signaltransfer; real CCS as mainly presented inthe practice; choice of physical model of CCS; mathematical modeling of CCS.•Mastering of: methods of determining of static and dynamic characteristics of CCS;real time computer control by discretealgorithms. •Off line use of MATLAB - but

аs software standard of automatic control.

•Exact but not approximate treatment of CCSaccording to their nature. •Scientific andengineering treatment of CCS as dominantlyrepresented in practice. •Applying the methods of analysis and synthesis of controller in CCS, as wellof whole CCS. •Solving problems of calculationnature by means of computer and MATLAB in the"off line" mode, related to the analysis or synthesisof CCS. •Determining of dynamic and static

characteristics of CCS.2 MSc-0126 obligatory Оbject and

process dynamicsStudent should be familiar with basicprinciple and steps of mathematicalmodeling of objects and processes. To becapable to form basic balance equationswhich describes non-stationary states of objects and processes which, after suitablechoice of state variables, manipulated andcontrol variables as well as disturbancesvariables enables one to form adequate andnon-unique state space representations of objects and processes for the needs of further analyzing or synthesis.

To be familiar and to be capable to use the basicprinciple of mathematical modeling applied to:dynamics of material handling, flow processes,flow-thermal processes, machine dynamics, trafficand transportation dynamics and contemporaryplants existing in area of general energetic.Moreover it is expected to be capable to performelementary analysis of their transient responsecharacteristics from the above mentioned list of objects and processes.

2 MSc-0628 obligatory NonlinearSystems 1

•Introduction to nonlinearities in the plantsand processes. •Introduction to basicconcepts of analysis of nonlinear systems.•Understanding and using the basic toolsfor testing the stability of nonlinears stems. •Anal sis of nonlinear s stems

Knowledge and understanding of: •Nonlinearproblems and phenomena in the processes andplants. •Mathematical description of nonlinearsystems. •Basic methods for analyzing nonlinearsystems in the time domain and state space.•Simulation and anal sis of nonlinear s stems



using C and Matlab programminglanguages.

using a PC and programming languages C andMatlab.

2 MSc-0642 obligatory Fuzzy ControlSystems

•Understanding of fuzzy approach tomodeling phenomenon, process andsystems •Introduction to basic of fuzzy settheory and fuzzy control theory •Analysis,design and simulation of fuzzy controlsystems using Matlab/Simulink software

Knowledge and understanding of: •Fuzzy set,fuzzy logic and fuzzy control theory •Design of fuzzy controllers and fuzzy systems •Synthesis of various fuzzy control algorithms •Siimulation andpractical realization of fuzzy control systems usingPC and programing software C andMatlab/Simulink.

3 MSc-0609 obligatory NonlinearSystems 2

•Building the foundations of nonlinearcontrol design and analysis. • Introducingcommonly used nonlinear control tools.•Analysis and control of nonlinear systemsusing C and Matlab programminglanguages.

Knowledge and understanding of: •Тhe basis of analysis of certain classes of nonlinear systems.•Тhe methods for testing the system stability byLyapunov techniques and input-output analysis.•Тhe techniques of control of nonlinear systems.•Simulation, analysis and control of nonlinearsystems and sinthesis using programminglanguages C and Matlab.

3 MSc-0118 obligatory Control SystemsTechnology

-This subject introduce candidate withdetailed characteristics of computercontrolled systems.Also the candidate willbe educated to implement knowledge toreal computer controlled systems. -Candidate will be familiar with somemetodologies for selection of computercomponents as well as other controlcomponents. -Candidate will be familiarwith mentioned control systems.

-To acquire basic knowledge from control systemstheory and practice as well as other fields of applied sciences. -Introduction with methods fordynamic analysis and synthesis of control systems.-Methodology of analytical and/or experimentaldetermination of static and dynamiccharacteristics of control systems.

3 MSc-0307 obligatory Linear SystemDesign

Student to be familiar with basic demandsin control system design (synthesis)introducing the basic facts about essentialsystem characteristics working in steadystate or in transient process. To beinformed with wide spectrum of differentcontrol design methods and approacheswithin the contemporary real control,mostly feedback automatic control

To be familiar, to accept and be capable to usesome of offered methods in control system designand to be learned to implement them on everyparticular problem from the class of systems thathave been treated within the course. It is expectedthat one should be capable to apply some of particular control design methods in real systemsoperating time and to implement them on realobjects and processes mostly for particular class of



systems. linear feedback control systems.

4 MSc-0641 obligatory Skill Praxis M -SAU

Practical experiences, and work inenvironment where student will realizehis/her professional career. Identifying thebasic functions of the working system inthe field of design, development andproduction, as well as the roles and tasks of mechanical engineering in such a workingsystem.

Students get practical experience in organizationand functioning of the environment in which theywill apply their knowledge in the futureprofessional career. Student identifies models of communication with colleagues and businessinformation flows. Student recognizes the basicprocesses in the design, manufacture,maintenance, in the context of his futureprofessional competence. Personal contacts will beestablish the and connections that they will be ableto use during their studying, or by entering intofuture employment.

1 MSc-0659 elective Biomedicalphotonics

That students learn the structure andworking principle of an eye, and itsproperties using knowledge of biomechanics and the theory of light. Toacquire knowledge concerning polarization,

interference and diffraction of light on theexample of the eye. To learn to measurevisual acuity, objective and subjectivedetermination of diopter. To get acquaintedwith the principles of refractive surgery, toacquire knowledge concerning changes thecurvature of the cornea and corneal turningpower, and to become familiar with theproduction and incorporation of artificialintraocular lenses.

Mastering the knowledge gained from biofotonike,student gain ability to understand the basic laws of functioning of the eye, that is required for lensdesign and participation in technical assistance to adoctor at a clinic during diagnosis. The student is

able to understand the function of the contact lensand optical and optoelectronic instrument foridentifying and measuring the reflection,absorption, scattering and light emission of biomolecules and tissue.

1 MSc-0563 elective DynamicSystemsSimulation andTesting

This subject introduce candidate in MatlabSimulink simulation package. This subjectintroduce candidate with examination of static and dynamic characteristics of automatic control systems. Candidate willbe familiar with identification of dynamicsystems.

Introduction in experimental determination of static and dynamic characteristics of automaticcontrol systems. Introduction in presentation of various automatic control systems and controlsystems using program package for simulation of dynamic systems. Introduction for verificationused mathematical models of dynamic systems byexperiment and by use of program packageSimulink.



1 MSc-0681 elective Introduction tonanosystems

Introduction to basic elements of nanosystems: materials, energy,information, organization and control.Basic types and characteristics of nanomaterials and nanoparticles;fundamental methods, techniques andequipment for characterization.Intermolecular forces анд potentials.

Coding nanomaterials and biomimicry of nanosystems. Self-assembly and self-organization. Principles of nanoroboticsdesign.

Acquiering of fundamental knowledge innanosystems that could enable problem analysisand possibility of predicting solutions fornanosystem problems by application of scientificmethods and procedures. Introduction to basicprinciples of work for STM and AFM. Integrationof physics of materials knowledge, energetics andinformatics in the aim of recognition of basic

criteria for differentiation of nanosystems fromclasical technical systems.

1 MSc-0387 elective CONTROLCOMPUTERSANDAUTOMATION

• Introducing with: types of control bydigital computer, just control computer aswell its interfaces and transducers. •Mastering of: both classical automation bymeans od finite automata so and modern bymeans of PLCs. • Mastering of control both

mashines and equipments so and processesin real time, even by use advanced widthmodulation.

• Knowledge needed for the proper handling of thecontrol computers and related accessories. • Usingof the methods for analysis and synthesis of combinational and sequential finite automata forthe classical automation. • Using PLCs forautomation. • To apply computer for control in

real time with using the most sophisticated controlalgorithms.

2 MSc-0676 elective bioaumatics Introduce students to the fundamentalprinciples of regulatory processes andadaptation in biological systems.Mathematical modeling of regulatoryprocesses, biological data acquisitionsystem in order to confirm theexperimental results, the possibility of

application in medicine and technology.Cooperation with experts from the fields of medicine, automation

Students acquire the ability to analyze issuesrelated to the field of bioregulation mechanism,the formation of mathematical models of biological systems using contemporary analyticalmethods, procedures, techniques, and computerequipment. Students are trained to master thesynthesis of knowledge of anatomy, physiology,

automatic control and signal processing in orderto achieve accurate models of biological systems.

2 MSc-0599 elective IndustralAutomation

To introduce students to the contemporaryindustrial control systems, design andtechnology of their realization, componentselection and practical implementation of simple solutions.

The acquired knowledge is used in engineeringpractice. The student is competent to understandmodern control systems in the industry,component selection and practical implementationof simple solutions.



2 MSc-0727 elective Nanotechnology Goal of this subject is for students toacquire knowledges of: electron tunnellingphenomena, molecular atractve andrepulsive forces, nanomaterials, conversionand transport of energy on nanoscale level.Introduction of basic methodes, techniquesand devices for characterisation of nanomaterials: Scanning NanoProbe

microscopy and spectroscopy. Nanoelectrochemical cell. Characterisation of conductive, magnetic and non-conductivematerials: inorganice as well as biological.Nano films: characterisation andmodification of sample surfaces bySTM/AFM/MFM methodes.

Student will obtain basic knowledges of nanotechnologies which will allow him to makeanalysis of certain problems and ability to predictsolutions with scientific methods, processes andcomputer techniques. Student will be introducedwith basic principles of opreration of STM andAFM microscope and be able to integrateknowledge of material physics, energy and

information on nanoscale level for engineeringnano-molecular sensores and machines.

3 MSc-0586 elective Adaptive systems • Introducing with: concept of adaptivecontrol and different types of adaptivecontrol systems-ACS. • Mastering with:

different methods for synthesis of adaptivecontrol systems. • Mastering of workingwith physical adaptive control systems.

• Acquiring the knowledge needed to properlyunderstand the concept of adaptive control andvarious types of ACS. • Easier handling with

digital computers in both hardware and softwaresense, as part of ACS. • Using the methods neededfor analysis and synthesis of different adaptivecontrol systems. • To apply computer to solveproblems of computational nature in "off line"mode, either related to analysis or synthesis of ACS. • Analysis and design of real physical ACS.

3 MSc-0606 elective Biomedicaloptoengineering

To familiarize students with materials forcontact lenses and optical designs:spherical, aspherical, toric, progressive,

progressive-toric, as well as productiontechnology of contact lenses: cutting,polishing, final control, hydration,sterilization and characterization. Tounderstand the operating principles of lasers and LEDs. To get more familiar withthe application of lasers in ophthalmology.

Mastering the skills of optoengineering a studentacquires the ability to design the device. Thestudent is qualified to participate in the design and

manufacture of contact lenses and optical andoptoelectronic instrument for identifying andmeasuring the reflection, absorption, scatteringand emission of light. The student will have moreknowledge regarding the principle of lasers workand their application in ophthalmology.

3 MSc-0678 elective Processidentification

Student should be familiar with the basicideas from identification and estimation

Contemporary methods of identification enablesone to form mathematical models of different



theory, in order to be able to make areconstruction of process model, basedonly on input - output measurements datacollected over some period of time. In thatsense it is expected to recognize processstructure, order of process model and toestimate unknown parameters of process.

processes with much more accuracy than onlybased on analytical approach. Moreover thisprocedure, when the real time control is used,enables so called adaptive control, which canperform all desire process characteristics andachieve practically all severe demands which,today, can be very often contradictory.

3 MSc-0656 elective IntelligentBuildings

To introduce students to the concept of intelligent buildings, technical systems inmodern buildings and control systemstechnology and their integration.

The acquired knowledge is used in engineeringpractice. The student is competent to understandthe technical sub-systems in modern buildings,their configuration and mutual integration of electrical and mechanical systems andmanagement concepts.

3 MSc-0657 elective IntelligentControl Systems

•Introduction to methods for the analysisand design of intelligent control systems.•Gaining practical knowledge of several of the main techniques of intelligent controland an introduction to some promising

research directions. •Use of the computerfor simulation and evaluation intelligentcontrol systems.

The course involve: •understanding of thefunctional operation of a variety of intelligentcontrol techniques •the study of control-theoreticfoundations, •learning analytical approaches tostudy properties (especially stability analysis),

•acquiring of the knowledge of intelligent systemsdesign (control, production, etc.) based oncombinations of various theories: simulation,neural networks, fuzzy systems, geneticalgorithms, еvolutionary аlgorithms, etc. •use of the computer for simulation and evaluationintelligent control systems through Matlabsoftware.

3 MSc-0682 elective InformationalTechnologies in

Medicine

Introducing students with fundamentalprinciples of applied informational

technologies in medicine, with a goal of examining the important characteristics of implementations of new technologies inmedicine. Simulation of realistic problemsand specific requirements forimplementation of logical structures inhospitals, telediagnostics, and analysis of biological systems on molecular level.

By attending this course student becomes capableof analyzing the problems of organizing

informational structures in medical institutions,practical application, and development of algorithms and structures applicable intelemedicine, and knowledge necessary fordetailed analysis of biological structures onmolecular level with application of scientificmethods, procedures, computational techniquesand equipment.



3 MSc-0679 elective Stochastic LinearSystems

To be familiar with the knowledge of stochastic, ergodic random processes andwith the methods for control systemanalysis and design in t ime and frequencydomain. Based on essential stochastic signalcharacteristics to be able to estimatefundamental system behavior, whenrandom processes are present on the inputs

of the system. To able to implement someof optimization techniques in such cases.

To be familiar, to introduce as well basic principleof contemporary probability theory andmathematical statistics and all of that toimplement to linear continuous time invariantautomatic control systems, when they aresubjected to the influence of random signals. To becapable to implement for direct implementation of different control strategies.

3 MSc-0680 elective neural networsand fuzzy logic

• Introduce students to the fundamentalprinciples of artificial neural networks •Mathematical modeling of artificial neuralnetworks and its application to science andtechnology. • Consideration fuzzy approachto modeling phenomena, processes, andsystems. • Understand the basics of thetheory of fuzzy sets and fuzzy logic. •

Using MATLAB / Simulink for analysis,synthesis and simulation of fuzzy systems. •Co-operation with experts from themedical field and automation.

• Acquisition of the ability to analyze issuesrelated to the neural network, the formation of mathematical models of biological systems usingscientific methods, procedures, techniques, andcomputer equipment. • Connecting basicknowledge of anatomy and physiology, theautomatic control system in order to achievebetter process technology, more human

interaction man - machine. • Knowledge andunderstanding of fuzzy sets, fuzzy logic and fuzzycontrol theory. • Knowledge and understanding of the synthesis of fuzzy controlers and differentfuzzy control algorithms.

3 MSc-0677 elective Projectdocumentation

Objective of the course is to introducestudents to different stages of construction,from technical documentation preparationand obtaining the necessary approvals toconstruction and exploitation. Students

learn about with the contents of the project.In the second part of the course acquirebasic knowledge related to activities thatfollow design of processing industryfacilities (power supply, operating fluids,transport, water flow etc.). Part of thecourse deals with the economic evaluationof investments.

Main outcome of the course is to teach students toindependently run object construction. Thisincludes project documentation preparation andobject construction. After successful completionof the study program, student is capable to foresee

the extent of necessary design work in processingindustry, as well as to plan necessary installationfor production plants.

3 MSc-0683 elective Biosystem To meet some classes of bio-systems. To be To be familiar, to introduce as well basic principle



stochasticidentification

familiar with the knowledge of stochastic,ergodic random processes and with themethods for control system analysis anddesign in time and frequencydomain.Student should be familiar with thebasic ideas from identification andestimation theory, in order to be able tomake a reconstruction of process model,

based only on input - output measurementsdata collected over some period of time. Inthat sense it is expected to recognizeprocess structure, order of process modeland to estimate unknown parameters of process.

of contemporary probability theory andmathematical statistics and all of that toimplement to linear continuous time invariantautomatic control systems, when they aresubjected to the influence of random signals.Contemporary methods of identification enablesone to form mathematical models of differentprocesses with much more accuracy than only

based on analytical approach.Moreover thisprocedure, when the real time control is used,enables so called adaptive control, which canperform all desire process characteristics andachieve practically all severe demands which,today, can be very often contradictory.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learnthe elements of the dynamics of theoscillatory motion of a particle, thedynamics of variable mass particle,

advanced problems in kinematics of aparticle, kinematics of a complex motion of a rigid body and mechanical system of rigidbodies as well as the dynamics of sphericaland general rigid body motion, theapproximate theory of gyroscope and theimpact theory.

By gaining knowledge in this course, students willbe able to efficiently solve complex problems inkinematics and dynamics of particle and materialsystem. This knowledge can allow students to

attend classes in specialized courses that analyzethe kinematic and dynamic problems.


The goal of the course is to teach thestudent the basics and applications inscience of fluid flow. The essence in thatsense is good understanding of fundamentalequations of fluid mechanics. That goodunderstanding of the equations makes theprocess of finding the solution in particularengineering problems which are dealingwith fluid flow much easier.

Learning the topics from the course student willget the knowledge about basic principles in fluidmechanics and capabilities of analytical thinking,then how to apply the knowledge in practicalwork, and also to make the connection betweenvarious subjects from mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,

Achievment of the engineering experise in a trueanalysis of mechanisms, sensors, actuators andPLCs as a main componenets of a mechatronical



selection of appropriate control unit andcreation of flow-chart diagram.Engineering skill development to synthesizean optimal mechatronical solution to fulfilspecified technical requirements.

system. Based on a well studied reverseengineering (analysis), a skillful approach to thedirect design (synthesis) of an originalmechatronical concept.


Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process

engineering, thermal engineering andpower engineering. Through practical andtheoretical education should understandfrom thermodynamic aspect thetransformation of thermal energy intomechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for dryingvarious materials and air conditioning of

corresponding spaces.

After completing the course, including quizzes andtests and successfully passed exam, students shallbe ready to independently perform

thermodynamic calculations of simpler thermalplants and particular devices. The result of thiscourse is also acquiring fundamental knowledgethat serves as the basis for active participation inother theoretical and applicative courses.

Design in mechanical engineering


1 MSc-0285 obligatory Axiomaticmethods

Course aim is to scrutinize the design process inits entirety, from problem definition toconceptualization to embodiment and realization,in a discipline-independent framework, with the

purpose of gaining insight into the process fromthe most general viewpoint.

Advanced application of axiomatic designtheory for design of products,manufacturing processes and manufacturingsystems. Ability for structuring and

decomposing designs in order tosystematically apply design axioms.Advanced application of design software.Teamwork abilities.

1 MSc-0270 obligatory Product Aestetics Introduce students to the standards and laws of aesthetics in the process of product design,recognizing the subjective and objective factorsof establishing the aesthetic judgement;

Student has gained the ability of aestheticevaluation and the formation of aesthetic judgement, through theoretical and practicalcourses, student is trained to creatively use



introduction to the cultural and historical aspectsand schools of aesthetics; treatment of aestheticelements and principles, the study of geometricharmony laws, the use of traditional and modernmeans of creating aesthetic properties;introduction to the features of modern graphicalsigns and aesthetic properties of packaging andadvertising.

both abstract elements and principles of aesthetics and practicality (classical andmodern) means of creating aestheticcharacteristics of the product;

2 MSc-0171 obligatory Ergonomicdesign

Students should acquire specific practical skillsthat include an integrated ergonomic approachfor the design of a comprehensive solution todifferent problems. The aim of this course is theacquisition of basic academic knowledge in thefield of ergonomic design, which can be used fordesign of different products, as well as forredesigning and improvement on the system man- machine.

It is expected that acquired knowledgestudents can use in daily work and practice,bearing in mind that in almost all branchesof industry there is a need for designing,which includes the human factor. Bymastering of the ergonomic designprogram, the student acquires the ability tosolve all aspects of the various engineeringproblems by applying science-basedergonomic methods, techniques and

recommendations.2 MSc-0302 obligatory Decision-making

methodsThe aim of the course is to train the students tomake decisions in the process of productdevelopment and design by using mathematical-algorithm procedures and artificial intelligencetechniques. Development of students' creativeabilities in improving technical/technologicalcharacteristics of a product using methods basedon conceptual design points out the optimumdecision function based on intelligent agents.

The complex use of IT technologies indecision-making. The implementation of developed software in solving typicaltechnological problems within decision-making methods based on artificialintelligence paradigms. Autonomousselection of the methods based onapplication of artificial neural networks andgenetic algorithms in seeking the optimalsolution in the process of productdevelopment. Capability for team work.

2 MSc-0193 obligatory Development of Machine Systems

The development of creative skills of students increation of ides for a new, previously unknown,products (mechanical systems). Establishing acorrelation of environment, user needs,technology, methods and tools for developingtechnical solutions, the market conditions andother factors. In addition objective of this course

The student has mastered the procedure of abstract thinking and creative adjustmentfactors that lead to ideas for new, hithertounknown system. He mastered theprocedure and process of defining the limitsand conditions to be met by a new product.Trained to use methods and tools for the



is to master methods for product development tothe project as well as methods for defining andprocessing constraints that lead to highperformance products.

development of mechanical systems. Hemastered the procedures of definingindividual characteristics (Design for X -DFX) as well as integrated approaches toproduct development.

3 MSc-0159 obligatory Bionics in Design Introducing students to the process and theprocedure of synthesis (create) a combination of mechanical systems engineering design (design)

and industrial and bionic design. Besides, the goalof this course is to develop creative skills of students in the design of machines.Understanding the methodology and proceduresto create innovative mechanical system throughthe phase of designing, selection of parameters,dimensions and shape of machine parts,alignment features (functional and aesthetic) withthe environment, living and workingenvironment.

The student is introduced to the procedureof abstract thinking and creative ideageneration, the development methodology

of the new principal, conceptual, based onbionic solutions. Dressed in designingmachine parts and assemblies based onbionic principles, functional, technological,aesthetic, ergonomic, and others. Trained toimplement budgets for the mutualadjustment of parameters of machine partswith the limitations, the development of forms and sizes.

3 MSc-0127 obligatory Eco Design The main objective of this course is to achievecompetence and academic skills in the field of ecodesign and sustainable product development. Thegoal is mastery of the methodologies to definestrategies to improve products and reduce theharmful effects of products on the environment,and understanding of the impact of products onthe environment throughout its life cycle andinnovative approach to obtaining environmentallyimproved products.

Mastering the curriculum the studentacquires the ability to master the strategiesof eco-design for a more innovativeenvironmental product improvement at thework on product development. Studentmasters the skills, tools and practical abilityto obtain sustainable products, and acquirethe ability to monitor environmentaldirectives and communication withorganizations that impose environmentalrequirements.

3 MSc-0116 obligatory Special methodsfor productdevelopment

The main goal of this course for the student is togive the necessary knowledge of: • numericalanalysis and optimization, • understandinggeneral principles of design optimization •formulating the optimization problems andidentify critical elements.

During this course, the student will carryout: • Overview of design optimization •Fundamentals of engineering optimization •Problem formulation • strategies foroptimization

4 MSc-0157 obligatory Skill Praxis M - Practical experience and stay of students in Students get practical experience on the



DUM environment where they will realize theirprofessional career. Identifying the basicfunctions of the business system in the area of product development, production and utilizationas well as the roles and tasks of mechanicalengineering in such a business system.

organization and functioning of theenvironment in which they will apply theirknowledge in their future professionalcareer. Student identifies models of communication with colleagues andbusiness information flows. The studentrecognizes the basic processes in the design,manufacture, maintenance, in the context of

his future professional competence.Establish the personal contacts that will beable to use at school or entering into futureemployment.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatorymotion of a particle, the dynamics of variablemass particle, advanced problems in kinematicsof a particle, kinematics of a complex motion of arigid body and mechanical system of rigid bodies

as well as the dynamics of spherical and generalrigid body motion, the approximate theory of gyroscope and the impact theory.

By gaining knowledge in this course,students will be able to efficiently solvecomplex problems in kinematics anddynamics of particle and material system.This knowledge can allow students to attendclasses in specialized courses that analyze

the kinematic and dynamic problems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow.The essence in that sense is good understandingof fundamental equations of fluid mechanics. Thatgood understanding of the equations makes theprocess of finding the solution in particularengineering problems which are dealing withfluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basicprinciples in fluid mechanics and capabilitiesof analytical thinking, then how to apply theknowledge in practical work, and also tomake the connection between varioussubjects from mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competentanalysis of the mechatronical composition, designof applied mechanism, selection of appropriatecontrol unit and creation of flow-chart diagram.Engineering skill development to synthesize anoptimal mechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors,actuators and PLCs as a main componenetsof a mechatronical system. Based on a wellstudied reverse engineering (analysis), askillful approach to the direct design(synthesis) of an original mechatronicalconcept.




Student should gain knowledge inthermodynamics and thermal devices and plantsthat are present in process engineering, thermalengineering and power engineering. Throughpractical and theoretical education shouldunderstand from thermodynamic aspect thetransformation of thermal energy into mechanicalwork and gain physical fundamentals on

phenomena that go on in steam turbine, gasturbine and refrigeration devices as well as inplants for drying various materials and airconditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of this courseis also acquiring fundamental knowledgethat serves as the basis for active

participation in other theoretical andapplicative courses.

Engineering of biotechnical systems


1 MSc-0560 obligatory Technologicalprocesses in agrocomplex

1. Obtaining knowledge through a multidisciplinaryapproach that can be considered rational,optimizing technical processes. 2. Mastery of processes in agricultural production through theknowledge of the type and condition of soil andagricultural materials. 3. Acquisition of practicalskills for working in the field of new technologies inagriculture and in agricultural machinery.

1. Opportunities for analysis andprediction of optimal solutions of agricultural technologies. 2. Controlmethods for the application of agriculturaltechnology for the solution of agriculturalmachinery. 3. Application of knowledgethrough the acquisition and exploitationof agricultural machines. 4. Ability tocommunicate with users and producers. 5.Linking the field of agriculture andmechanical engineering.

1 MSc-0298 obligatory Tractors and self-propelledagriculturalmachines

1. Master the theoretical foundations of powermachines-tractors and self-propelled agriculturalmachine-harvesters; 2. Conception and constructionof farm tractors, small tractors and self-propelledchassis; 3. Transmission systems and for connectingthe working machinery and mechanisms; 4.Concept of simultaneous transmission of powerthrou h the drive wheels and auxiliar shafts,

1) Basic knowledge in theory work, theconception and construction of powermachines-tractors, mowers and self propelled chassis and universal self-propelled combine, 2) Analysis of mechanical, hydrostatic transmissions andcombined agricultural tractors, self ro elled chassis and universal self-



energy balance, 5. The theory of operation, conceptand design combines, budgets drive the movingparts and technological devices combine.

propelled combine harvesters, 3)Application computer facilities in thebudgets and technological devices; 4)Linking the basic engineering knowledgeand achieve synergy; 5) The acquisition of practical skills and application in practice.

2 MSc-0616 obligatory Designingagricultural

machines andequipment

1. Achieving competence and academic knowledgerelating to agricultural machinery and equipment. 2.

Mastery of specific and practical skills for carryingout of agricultural machines and equipment. 3.Findings to a multidisciplinary approach to achieveoptimal results in the design of agriculturalmachines and equipment.

1. Mastering the methods and processes of design. 2. Fundamental knowledge of

theories of agricultural machinery andequipment. 3. The use of knowledge andtransfer of new technologies in the field of design and construction of agriculturalmachines and equipment. 4. Monitoringand implementation of new andcontemporary solutions.

2 MSc-0462 obligatory Specialtechniques andtechnology of

drying

Acquire basic knowledge in the field of specialtechniques and technologies of drying process(drying by radiation, osmosis, ultrasound,

conductive, sublimation, in a stream of high andsuper high frequency, etc.), which includes thedevelopment of creative abilities and mastery of practical skills for specific job performance.

The ability to use acquired knowledge tosolve problems in the field of specialtechniques and technologies in the process

of drying, kinetics and dynamics study of the drying process, the drying process anddesign solutions, including application of knowledge in practice, solving practicalproblems using scientific methods andprocedures and monitoring andimplementation of innovations inprofession.

2 MSc-0600 obligatory Processingtechnology of

agriculturalproducts

1. Student should master the basics of the process of agricultural products(fruits, vegetables, animal

products and grains).. 2. Understanding thelimitations and specific lines of production and foodprocessing. 3. Introduction to the preparatoryprocess technologies of processing agriculturalproducts (c leaning, washing, sizing and sortinground). 4. Mastering how to process modeling andoptimization processes of food preservation usinghigh and low temperatures. 5. Acquiring knowledgeabout the procedures and equipment for

Upon completion of the course, studentswill be able to properly projected lines for

the production of certain types of products. To enable students to study inthe preparation and preservation of foodusing high and low temperatures. Designof technological processes of cleaning,washing, calibration, color sorting, heattreatment of fresh products (blanching),heat treatment of the finished foodproduct (pasteurization, sterilization),



sterilization and pasteurization of food products. 6.Acquiring knowledge about the procedures anddevices for cooling and freezing of fruits andvegetables. 7. Understanding the technology of cooling fruits and vegetables. 8. Understanding thetechnological procedures for freezing and storingfruit and vegetables. 9. Introduction to methods anddevices for thawing food product.

cooling, freezing and storage. Knowledgeof changes that could threaten the qualityof agricultural products in cold storage.Implement measures to prevent damageto fruit and vegetables during storage incold storage. Knowledge and applicationof international standards of qualityfrozen food products.

3 MSc-0615 obligatory Geoinformationand remotecontrol of biotechnicsystems

1. Master the theoretical foundations of measurement and automation of agriculturalmachines and equipment; 2. Principles of measurement, sensors and methods of measurement non-electrical quantities onagricultural machines and equipment; 3.Automation of tractors and machines; 4.Automation combines: automatic control,regulation of technological devices, measurementand regulation of losses, monitoring, 5.Management in precision agriculture and foodprocessing industry. 6. Моnitoring of dinamicmachines and proceses in real time

1) Fundamental knowledge in the field of measurement and automation of agricultural machines and equipment; 2.Mastering the principles of measurement,sensors and methods of measuring non-electrical quantities on agriculturalmachines and equipment; 3. Automationof tractors, trailers, harvesting equipmentand machinery in food processingindustry; 4. Management in precisionagriculture GPS and processing industry;5. Acquisition of practical skills andapplication in practice.

3 MSc-0464 obligatory Plant and processdesign andenergy systems

Mastering the knowledge necessary for thecalculation and design of plant and process andenergy systems and their use. This includes thedevelopment of creative abilities and mastery of specific practical skills for performing tasks inengineering practice.

Knowledge necessary for plant andprocess design and energy systems andtheir exploitation, which involvesapplying knowledge in practice, solvingpractical problems using scientificmethods and procedures and monitoringand implementation of innovations in theprofession.

3 MSc-0596 obligatory Managing foodsafety andquality

1.The subject should enable students to acquireknowledge about the concept of certification and itsimportance for the market, environmentalprotection and good agricultural practice, thefunction of certification. 2.Introduction to basicprocedures for certification, certification course,participants, their rights and obligations, the generalprinciples of all standards relating to food and

1.Fundamental knowledge about theconcept of certification and its role in themarket of food products, environmentalprotection and good agricultural practicesin the function of certification. 2.Thestudent should be able to connect thebasic engineering knowledge withdevelopment trends in food production



industrial processing of food products and exposurewith institutions and organizations dealing withfood safety in Serbia and abroad. 3.The subjectshould enable students to acquire knowledge /understanding of contemporary approaches andprinciples of quality management, qualitymanagement functions of the organization, specificmethods of management and quality control, new

business strategies, new systems and specific qualitymanagement activities. 4.Learning about new trendsin food production.

and processing along with the applicationof regulations and standards.3.Introduction of skills, consistent andsystematic improvement of application of modern, efficient and effective qualitymanagement system.

4 MSc-0502 obligatory Skill Praxis M -IBS

Practical experience and stay in the studentenvironment in which the student will realize hisprofessional career. Identifying the basic functionsof the business system in the field of design,development and production, as well as the rolesand tasks of mechanical engineering in such abusiness system.

Students get practical experience on theorganization and functioning of theenvironment in which they will applytheir knowledge in their futureprofessional career. Student identifiesmodels of communication with colleaguesand business information flows. Thestudent recognizes the basic processes inthe design, manufacture, maintenance, inthe context of his future professionalcompetence. Establish the personalcontacts and poznastva that will be able touse at school or entering into futureemployment.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatory motionof a particle, the dynamics of variable mass particle,advanced problems in kinematics of a particle,kinematics of a complex motion of a rigid body andmechanical system of rigid bodies as well as thedynamics of spherical and general rigid bodymotion, the approximate theory of gyroscope andthe impact theory.

By gaining knowledge in this course,students will be able to efficiently solvecomplex problems in kinematics anddynamics of particle and material system.This knowledge can allow students toattend classes in specialized courses thatanalyze the kinematic and dynamicproblems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow. Theessence in that sense is good understanding of

Learning the topics from the coursestudent will get the knowledge aboutbasic principles in fluid mechanics and



fundamental equations of fluid mechanics. Thatgood understanding of the equations makes theprocess of finding the solution in particularengineering problems which are dealing with fluidflow much easier.

capabilities of analytical thinking, thenhow to apply the knowledge in practicalwork, and also to make the connectionbetween various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competentanalysis of the mechatronical composition, design of applied mechanism, selection of appropriate control

unit and creation of flow-chart diagram.Engineering skill development to synthesize anoptimal mechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise ina true analysis of mechanisms, sensors,actuators and PLCs as a main

componenets of a mechatronical system.Based on a well studied reverseengineering (analysis), a skillful approachto the direct design (synthesis) of anoriginal mechatronical concept.


Student should gain knowledge in thermodynamicsand thermal devices and plants that are present inprocess engineering, thermal engineering andpower engineering. Through practical andtheoretical education should understand from

thermodynamic aspect the transformation of thermal energy into mechanical work and gainphysical fundamentals on phenomena that go on insteam turbine, gas turbine and refrigeration devicesas well as in plants for drying various materials andair conditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants and

particular devices. The result of thiscourse is also acquiring fundamentalknowledge that serves as the basis foractive participation in other theoreticaland applicative courses.

Food industry engineering

semester ID title goal learning outcome1 MSc-0270 obligatory Product Aestetics Introduce students to the standards and laws of

aesthetics in the process of product design,recognizing the subjective and objective factors of establishing the aesthetic judgement; introduction tothe cultural and historical aspects and schools of aesthetics; treatment of aesthetic elements andprinciples, the study of geometric harmony laws, the

Student has gained the ability of aestheticevaluation and the formation of aesthetic judgement, through theoretical andpractical courses, student is trained tocreatively use both abstract elements andprinciples of aesthetics and practicality(classical and modern) means of creating



familiar with the types and working methods of handling systems, as well as the design possibilitiesof these structures to obtain simple functions.

to connect the work of individualmachines in production lines. The studentis familiar with the principles of aWorking Model and thus can easilymaster other software package formodeling and generating mechanisms.

3 MSc-0231 obligatory PackagingMachines

Getting started with the machines that achieve thesetechnological solutions. Acquiring the necessary

knowledge in the field of thermal processes that arenecessary for certain types of packages. Introductionto various techniques for normal and sterile packageclosing.

This course gives the knowledgenecessary for the maintenance of various

packaging machinery that can be foundin food and other industries. It also givesthe necessary knowledge to the investorsthat order and purchase packagingmachines. Besides this, students get allthe specific technological, process anddesign knowledge for projecting anddesign of packaging machines.

3 MSc-0235 obligatory Food ProcessingMachines

1. Introduction to the basic concepts necessary forunderstanding the material from this field. 2.

Acquiring skills in preparing contemporaryconstruction programs for designing andperformance analysis of food processing equipmentand plant. 3. Developing students creative abilitiesfor designing food processing equipment, machinesand systems.

1. Analysis of existing problems and theireffects 2. Adopting of practical

knowledge 3. Practical application of knowledge 4. Introduction andunderstanding the problematic of foodprocessing machines 5. Resolvingconcrete problems 6. Connectingknowledge from different fields and theirapplication 7. Tracking and applyinginnovations in the field.

3 MSc-0464 obligatory Plant and processdesign and

energy systems

Mastering the knowledge necessary for thecalculation and design of plant and process and

energy systems and their use. This includes thedevelopment of creative abilities and mastery of specific practical skills for performing tasks inengineering practice.

Knowledge necessary for plant andprocess design and energy systems and

their exploitation, which involvesapplying knowledge in practice, solvingpractical problems using scientificmethods and procedures and monitoringand implementation of innovations in theprofession.

4 MSc-0236 obligatory Skill Praxis M -PRM

1. Gaining practical knowledge of food processesand machines. 2. Introduction to machine materials

Successful completion of the studyprogram the student acquires the ability



needed for applications in the manufacture of foodmachinery. 3. Developing creative skills of studentsin the design of food equipment, machines andsystems analysis and design of food exploitationcharacteristics of machines and plants.

to: 1. Analysis of existing solutions andtheir effects 2. adoption of knowledge inpractice 3. application of knowledge inpractice

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatory motionof a particle, the dynamics of variable mass particle,

advanced problems in kinematics of a particle,kinematics of a complex motion of a rigid body andmechanical system of rigid bodies as well as thedynamics of spherical and general rigid bodymotion, the approximate theory of gyroscope andthe impact theory.

By gaining knowledge in this course,students will be able to efficiently solvecomplex problems in kinematics and

dynamics of particle and material system.This knowledge can allow students toattend classes in specialized courses thatanalyze the kinematic and dynamicproblems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow. Theessence in that sense is good understanding of fundamental equations of fluid mechanics. That good

understanding of the equations makes the process of finding the solution in particular engineeringproblems which are dealing with fluid flow mucheasier.

Learning the topics from the coursestudent will get the knowledge aboutbasic principles in fluid mechanics andcapabilities of analytical thinking, then

how to apply the knowledge in practicalwork, and also to make the connectionbetween various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competentanalysis of the mechatronical composition, design of applied mechanism, selection of appropriate controlunit and creation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specified technical

requirements.

Achievment of the engineering experisein a true analysis of mechanisms, sensors,actuators and PLCs as a maincomponenets of a mechatronical system.Based on a well studied reverseengineering (analysis), a skillful approach

to the direct design (synthesis) of anoriginal mechatronical concept.


Student should gain knowledge in thermodynamicsand thermal devices and plants that are present inprocess engineering, thermal engineering and powerengineering. Through practical and theoreticaleducation should understand from thermodynamicaspect the transformation of thermal energy into

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of this



mechanical work and gain physical fundamentals onphenomena that go on in steam turbine, gas turbineand refrigeration devices as well as in plants fordrying various materials and air conditioning of corresponding spaces.

course is also acquiring fundamentalknowledge that serves as the basis foractive participation in other theoreticaland applicative courses.

Hydropower engineering


1 MSc-0443 obligatory Pumps Mastering knowledge of engineeringapplications of pumps as machines for raisingof fluid energy. Capacity to work in practiceon energy installations, as well as design of installations that include a pump as a built-inelement with its function.

Knowledge of types and designs of pumps.Knowledge of the energy parameters andenergy balancing. Knowledge of similaritytheory to implement the dimensionlessparameters - characteristic performance factors.Knowledge of methods of the system workingpoint determination. Knowledge of the energycharacteristics of pumps and their significance

in establishment of operating regimes of pumps,as well as in thir regulation. Knowledge of thepump cavitation characteristics.

1 MSc-0281 obligatory Theory of Turbomachinery

1.Introduction of theoretical knowledge of fluid flow in turbomachinery. 2.Studying of energy and exploitation characteristics of turbomachinery in dimensional and non-dimensional forms and their application inmechanical systems. 3. Obtaining of practicalskills application of pumps, turbines and fans

in power systems.

1. Gaining basic knowledge about the exchangeof energy in turbomachinery. 2. Reaching themethods of fluid flow computation inturbomachinery. 3. Understanding the controland the energy efficiency of turbomachinery.Measures of preventing or reducing theundesirable effects of cavitation in

turbomachinery. 4. Obtaining practicalexperience of exploitation of turbines, pumpsand fans.

2 MSc-0447 obligatory Fans andturbocompressors

Mastering knowledge of engineeringapplications of fans and turbocompressors asmachines for raising of fluid energy. Capacityto work in practice on energy installations, aswell as design of installations that include a

Knowledge of types and designs of fans andturbocompressors. Knowledge of the energyparameters and energy balancing. Knowledge of similarity theory to implement thedimensionless parameters - characteristic



fan, blower or turbocompressor as a built-inelement with its function.

performance factors. Knowledge of methods of the system working point determination.Knowledge of the energy characteristics of fans/turbocompressors and their significance inestablishment of operating regimes of fans/turbocompressors, as well as in thirregulation. Knowledge of the operatingcharacteristics change forfans/turbocompressors working with densityother than air.

2 MSc-0445 obligatory Machine designof pumps, fansandturbocompressors

Mastering knowledge of engineering designof pumps, fans and turbochargers. Capacityto work in the design and developmentoffices in the industry of pumps, fans,blowers and turbochargers. Training forinnovation of design methods.

Knowledge of procedures for the design of pumps, fans and turbocompressors. Knowledgeof the consequences of different approaches.Knowledge of hydraulics, numerical andempirical data used in the design. Practical skillsacquired through the project done.

2 MSc-0624 obligatory Hydraulicturbines

Mastering the theoretical knowledge of fluidflows through the turbine as well as

conditions for energy transformation.Definition and determination of the cavitationcoefficient in order to protect turbine fromcavitation damage. Definition of specialfactors in order to scale up recalculation frommodel to prototype characteristics anddefinition of model universal characteristicsand prototype hill charts.

1. Fundamental knowledge of hydraulicturbines, 2. Essential knowledge for the design

of turbines, 3. Mastering the optimum turbineoperating parameters, 4. Comprehension of flowprocesses in hydraulic turbines

3 MSc-0637 obligatory Hydropowermeasurements

Measurements have a very significant role inengineering practice and research activities.

The measurements in hydro energy systemsinclude measuring fluid flow quantities andenergy characteristics of hydraulic machineryin order to determine the energy performanceof turbines, pumps, fans and otherturbomachines. In framework of this subject,the characteristics of valves and methods fordetermining the cavitation characteristics of hydraulic machines and equipment are

After successful completion of the studyprogram the student has the necessary

knowledge in the field of measurements inhydro energy systems, which is extremelyimportant in his future professional activity.Student can in the best way connect thetheoretical and practical knowledge of measuring methods, which introduce him intothe world of verification and proof of guaranteed or calculation parameters. In thefield of research it offers him the extraordinary



studied in detail. opportunity to discover unknown –phenomenon research.

3 MSc-0113 obligatory HydraulicTorqueConvertors

1. Obtaining of theoretical knowledge of hydraulic torque convertors. 2. Introducingthe methods of calculating the dimensioningof the impellers and runners in hydrodynamictorque convertors. 3. Gaining of practicalexperiences of selection and application of

torque convertors to the characteristics of thedriving and driven devices.

1. Gaining basic knowledge about the energyexchange and torque transformation in thehydraulic torque convertors. 2. Mastering themethods of dimensioning of the torqueconvertors. 3. Mastering the methods formaking constructive and manufacturing

documentation. 4. Obtainig practical experiencefor the selection and operation of hydraulictorque convertors.

3 MSc-0626 obligatory Hydropowerplants andequipment

Connecting theoretical and practicalknowledge in fluid mechanics, turbines,pumps and other subjects that can beattended at the Faculty of Engineering as awhole. The development of individualcreative abilities in the profession of adesigner of hydropower plants. Developing

the ability of finding the optimal solution bymulti-criteria methods.

1. General and special abilities to exercise theprofession of hydropower plants designer well.2. Choosing the best solution from a number of alternative ones for the specific task. 3.Confidence in professional activities.

4 MSc-0627 obligatory Skill Praxis M -HEN

The goal of professional practice is thatstudents in addition to theoretical workwithin subjects at the faculty get to know andexperience the jobs in factories, institutes,laboratories and similar commercialenterprises and thereby gain insight into theactivities to be performed. During thepractice, students must keep a diary in which

they enter a description of the tasksperformed, and write down their conclusionsand observations. Following the practice,students must write a report that is to bediscussed about with the subject teacher.

Observing the work practices a student acquiresspecial knowledge of specific businessenterprises, production facilities, public servicesand utilities and the like, so their theoreticalknowledge can be applied to specific businesspractice. It is essential to acquire and develop atalent for communication and insight intoprofessional ethics. Also the student has the

ability to meet professional experts from whomthey will get a good picture of how theirknowledge can be usefully applied.

1 MSc-0446 elective Pumps and fans Mastering knowledge of engineeringapplications of pumps and fans as machinesfor raising of fluid energy. Capacity to work

Knowledge of types and designs of pumps andfans. Knowledge of the energy parameters andenergy balancing. Knowledge of similarity



in practice on energy installations, as well asdesign of installations that include a pump orblower as a built-in element with its function.

theory to implement the dimensionlessparameters - characteristic performance factors.Knowledge of methods of the system workingpoint determination. Knowledge of the energycharacteristics of pumps/fans and theirsignificance in establishment of operatingregimes of pumps/fans, as well as in thirregulation. Knowledge of the pump cavitationcharacteristics and operating characteristicschange for fans working with density other thanair.

2 MSc-0318 elective Application of Turbomachinery

1. Obtaining the theoretical knowledge onconstruction and design of turbomachines. 2.Training for the project documentation of aturbomachine (pump or fan). The applicationof practical knowledge of pumps, turbinesand fans in the power systems. 3.Reconciliation of operating characteristics of driving machines and hydraulic couplings andtorque convertors in the transport means.

1. Gaining basic knowledge about theconstruction of pumps, fans and otherturbomachinery. 2. Mastering the methods fordesign and manufacturing of project andtechnical documentation specified machines. 3.Studying the ways of choice of hydraulic torqueconvertors according to the characteristics of driving and driven devices. 4. Obtainingpractical experience of exploitation of hydraulictorque convertors, water turbines, pumps andfans.

2 MSc-0444 elective Designcomputations inturbomachinery

Mastering knowledge of engineeringnumerical turbomachinery design. Capacityto work in the design and developmentoffices in the turbomachinery industry.Training for innovation of design methodsand acquiring the basis for academicupgrading in computational fluid mechanics

application.

Knowledge of the procedures forturbomachinery design. Knowledge of theconsequences of different approaches.Knowledge of hydraulics, numerical andempirical data used in the design. Practical skillsacquired by working out the design project.

2 MSc-0647 elective Mechanicalengineeringmeasurementsand sensors

Research, development and practice inscience and engineering cannot be imaginedwithout the experimental methods that arecombined in the field of measurementtechniques. The aim of this course is toprovide basic and specific knowledge in thefield of experimental methods necessary for

Knowledge that can be applied in practice andresearch work: Linking theory knowledge withexperimental work in mechanical engineering -Fundamental knowledge about measurements of some quantities in mechanical engineering -Practical knowledge of methods of measurements of the different quantities –



the solution in particular engineeringproblems which are dealing with fluid flowmuch easier.

engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit andcreation of flow-chart diagram. Engineering

skill development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors, actuatorsand PLCs as a main componenets of amechatronical system. Based on a well studiedreverse engineering (analysis), a skillful

approach to the direct design (synthesis) of anoriginal mechatronical concept.


Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process engineering,thermal engineering and power engineering.Through practical and theoretical educationshould understand from thermodynamicaspect the transformation of thermal energy

into mechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for drying variousmaterials and air conditioning of corresponding spaces.

After completing the course, including quizzesand tests and successfully passed exam, studentsshall be ready to independently performthermodynamic calculations of simpler thermalplants and particular devices. The result of thiscourse is also acquiring fundamental knowledgethat serves as the basis for active participation in

other theoretical and applicative courses.

Industrial engineering

semester ID title goal learning outcome1 MSc-0415 obligatory Quantitative

MethodsGoals of the course are introductionof basic and statistical methods forengineering practice. Main goals of the course is identification of problems, methods for theirsolving, defying problem solvingprocedures and systems for

After successfully completed course, students should beable to define the problem, identify and apply adequatestatistical procedures and obtain competent answers.During the course students master the procedures for useof adequate statistical methods. It is expected thatstudents could be able for interpretation of statisticalresults for their use in practical problems.



decision making, based on obtainedresults, i.e. interpretation of numerical results for use inpractice.

1 MSc-0413 obligatory Production andOperationsManagement 2

Studying the management processof business-production system in itsinteraction with theenvironment.Identification of

problems in business-productionsystems and the process of solvingthem, with implementationprocedure. Investigation and designof production macro and microorganizational structure.Management of business-production system and provision of all resources necessary forproduction normal operation.

Acquisition of knowledge and skills necessary forsuccessful management of business-production systems.In addition, students are able to design productionprogram and production processes. It is of importance

their ability to analytically view the complexity of theproblem and to solve it by applying contemporarymethods.

2 MSc-0417 obligatory Ergonomicdesigning

The aim of this course is theacquisition of basic academicknowledge in the field of ergonomic designing, which can beused for designing of differentproducts, as well as for redesigningand improvement of system man -machine - environment. Studentsshould acquire specific practicalskills that include an integratedergonomic approach for the

purpose of a comprehensivesettlement of various designingproblems.

By mastering of the ergonomic designing program, thestudent acquires the ability to solve all aspects of thevarious engineering problems by applying science-basedergonomic methods, techniques and recommendations. Itis expected that acquired knowledge students can use indaily work and practice, bearing in mind that in almost allbranches of industry there is a need for designing, whichincludes the human factor.

2 MSc-0416 obligatory Industriallogistic

Achieving competency andacademic skills in the process of industrial system design. Specialemphasis is focused ondevelopment of creative skills and

Curriculum overcome enables converge of the followingskills: analysis, synthesis and prediction of solutions indesign process based on knowledge applying in practiceusing professional ethics as well as development of crucialand self-critical thinking and approach.



overwhelm with specific practicalskills needed for professionalpractice using operational researchmethods, procedures of analysisand synthesis for obtaining finalgoal which is optimal practicalsolution.

2 MSc-0569 obligatory Engineering

Economy

The objectives of this course are to

guide students in engineering andthe respective economic andfinancial processes and to informthem of the relations, connectionsand rules by which these processestake place in the generation andselection of optimal variant of projects for the overall success inachieving development goals of enterprise

Mastering this program, student obtains the following

general skills: analysis and synthesis and forecastingsolutions and consequences; mastery of methods,procedures and processes of research; application of knowledge in practice. He also obtains the followingsubject-specific skills: solving practical problems usingscientific methods and procedures, linking basicknowledge in various fields and their applications

3 MSc-0521 obligatory DatabaseSystems

The aim of this course is to preparestudents for working with complexdatabases in production companies.The aim of this course is usаge of industrial engineering methods andtechniques in the creation of different database queries andscripts. Also, the aim of course isusage of complex database forimprovement of decision-makingprocess and management of

business-production system.

The outcome of this course is to use complex databases inpractical work, for solving some problems of industrialengineering like: • Use of complex databases in order torationalize resources in business- production system, •Improving the quality of decision-making process insolving problems of industrial engineering.

3 MSc-0419 obligatory IndustrialManagement

The aim of this subject is thatstudents get know basic principles,methods and techniques of management in general, andespecially in industrial enterprises.The aim is that students adoptknowledge and skills which will be

To get know of content Industrial Management thestudents get know modern knowledge from theory andpractice of management in general, and especially inindustrial enterprises, when accent is on achievement of competence to strengthen innovation as a key factor of competitivity in turbulent business environment, local andinternational.



solid basis for further requiringcompetences for autonomous andresponsible participation inprocesses of business decisions incontemporary conditions.

3 MSc-0421 obligatory OperationsResearch

Course goal is overwhelm withacademic and scientific methodsand quantitative techniques for

obtaining alternative (optimal)solutions of real world problems onwhich basis user can performanalysis and synthesis of givensolutions, make decision andpredict consequences.

Solution of concrete problems with application of scientific methods, procedures and techniques usinganalysis, synthesis and prediction of solutions and

consequences as well as overwhelm with methods,procedures and research processes and application of knowledge (gained skills) in practice.

4 MSc-0438 obligatory Skill Praxis M -IIE

The goal of course is to introducethe production processes inindustrial companies and to acquirepractical knowledge in the field of

work organization and economicsof the enterprise. In this coursestudents will be familiar with thework of diagnosing and raising thegeneral level of organization of enterprises and economic businessof enterprises. Methods andtechniques will be of use to studentsin their daily performance of engineering jobs.

Mastering of this course students will learn about theproduction processes in the enterprise, internal transport,terotechnological processes, function of productionplanning, procurement operations and material storage,

economic-financial business of firm etc...

1 MSc-0523 elective ManagementInformationSystems

The aim of this course is tointroduce students to contemporarytheoretical and practical aspects of management information systems.Students need to acquire practicalknowledge and skills that willenable them to enhance the qualityof decisions in the field of industrialengineering, by using the

After passing the exam the student understands theimportance of using MIS in solving managementproblems. Student knows to apply sofware tools: decisionsupport systems, expert systems, and hybrid systems insolving complex management problems.



contemporary software tools.

2 MSc-0420 elective Design of logisticand warehousesystems

Achieving competency andacademic skills in the process of industrial system design. Specialemphasis is focused ondevelopment of creative skills andoverwhelm with specific practicalskills needed for professional

practice using operational researchmethods, procedures of analysisand synthesis for obtaining finalgoal which is optimal practicalsolution.

Curriculum overcome enables converge of the followingskills: analysis, synthesis and prediction of solutions indesign process based on knowledge applying in practiceusing professional ethics as well as development of crucialand self-critical thinking and approach.

2 MSc-0513 elective Riskmanagement inTerotechnology

The aim of this course is to acquirethe necessary knowledge andpractical skills that will enablestudents to apply maintenancesystems based on risk management,

due to knowledge in theidentification, analysis, riskassessment and decision-making onthe basis of these facts.

Outcomes of this course are the following: a) Theacquisition of theoretical and practical knowledge in thefield of basic systems, methods and strategies of machinery and equipment b) Introduction to the methodsof maintenance based on r isk, c) RIMAP and RCM models,

and d) Application of RCM/RIMAP model in practice.

3 MSc-0574 elective OrganizationDesign

The aim of this course is to acquirethe necessary knowledge andpractical skills that will enablestudents to define theinterdependence of the elements of organizational structure and

processes so that in a given oranticipated situationorganizationaly shapedorganizational system (enterprise orits parts) achieves the persuedobjectives and goals.

Outcomes of thid course arethe following: a) Theacquisition of theoretical and practical knowledge in thefield of intentional and controlled development andchanges in the organization to improve efficiency andeffectiveness, and working conditions in the organizationb) Alignment of organizational and technical /

technological factors and changing of organizationalculture and climate and c) Setting the optimal modelorganization with respect to the objectives and availableresources.By the end of the Organisation Design coursestudent will be able to: -tackle an organisation designproject -sequence and approach the design effectively -apply various tools and techniques to make goodorganisation -design decisions -control the consequencesand risks of design changes -recognise and address design



project blockers and challenges.

3 MSc-0520 elective Man - machinesystem design

The aim of this course is theacquisition of basic academicknowledge in the field of man -machine system design, which canbe used for designing of differentproducts and industrial systems, aswell as for redesigning and

improvement of system man -machine - environment. Studentsshould acquire specific practicalskills that include an integratedergonomic approach for thepurpose of a comprehensivesettlement of various designingproblems.

By mastering of the man - machine system designprogram, the student acquires the ability to solve allaspects of the various engineering problems by applyingscience-based ergonomic methods, techniques andrecommendations. It is expected that acquired knowledgestudents can use in daily work and practice, bearing inmind that in almost all branches of industry there is a need

for designing, which includes the human factor.

3 MSc-0524 elective Мodern QualityApproaches

Purpose of the course is tointroduce students to concepts and

importance of quality inenterprises. Basic principles,methods and approaches areintroduced to students. Three maintopics are Total QualityManagement, ISO 9001:2008standards and Six Sigma.

After successfully completed projects and course, studentsshould be able to use basic managerial and statistical

quality methods. Students are informed about modern andcurrent trends in quality, methods and software forquality improvement, with a possibility of applications.

1 MSc-0004 obligatory Mechanics M The aim of this course is thatstudents learn the elements of thedynamics of the oscillatory motion

of a particle, the dynamics of variable mass particle, advancedproblems in kinematics of aparticle, kinematics of a complexmotion of a r igid body andmechanical system of rigid bodiesas well as the dynamics of sphericaland general rigid body motion, theapproximate theory of gyroscope

By gaining knowledge in this course, students will be ableto efficiently solve complex problems in kinematics anddynamics of particle and material system. This knowledge

can allow students to attend classes in specialized coursesthat analyze the kinematic and dynamic problems.



and the impact theory.


The goal of the course is to teachthe student the basics andapplications in science of fluid flow.The essence in that sense is goodunderstanding of fundamentalequations of fluid mechanics. Thatgood understanding of the

equations makes the process of finding the solution in particularengineering problems which aredealing with fluid flow much easier.

Learning the topics from the course student will get theknowledge about basic principles in fluid mechanics andcapabilities of analytical thinking, then how to apply theknowledge in practical work, and also to make theconnection between various subjects from mechanicalengineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquiredfor a competent analysis of themechatronical composition, designof applied mechanism, selection of appropriate control unit andcreation of flow-chart diagram.

Engineering skill development tosynthesize an optimalmechatronical solution to fulfilspecified technical requirements.

Achievment of the engineering experise in a true analysisof mechanisms, sensors, actuators and PLCs as a maincomponenets of a mechatronical system. Based on a wellstudied reverse engineering (analysis), a skillful approachto the direct design (synthesis) of an originalmechatronical concept.


Student should gain knowledge inthermodynamics and thermaldevices and plants that are presentin process engineering, thermalengineering and power engineering.Through practical and theoretical

education should understand fromthermodynamic aspect thetransformation of thermal energyinto mechanical work and gainphysical fundamentals onphenomena that go on in steamturbine, gas turbine andrefrigeration devices as well as inplants for drying various materials

After completing the course, including quizzes and testsand successfully passed exam, students shall be ready toindependently perform thermodynamic calculations of simpler thermal plants and particular devices. The resultof this course is also acquiring fundamental knowledgethat serves as the basis for active participation in other

theoretical and applicative courses.



and air conditioning of corresponding spaces.

Information technologies


1 MSc-0508 obligatory C/C++ • Introduce to C/C++; Structure of C/C++ and

usability. • Simple problems in mechanicalengineering using C/C++. • Art of pointers. •Saving acquisition data in files, use that filesand discussion results.

After successful completion of the program

provided for in this case the student can: •Programing simple programs in C/C++ to solveproblems in mechanical engineering. • Use basicpatterns in C/C++. • Use pointers and simpledata structures. • Solve simple mechanicalengineering problems with acquisition data infiles.

1 MSc-0527 obligatory Object orientedparadigm

• Introduction to OOP paradigm. • Purposefuluse of classes, objects, inheritance,encapsulates, methods and hiding. • Basic

knowledge of classes, derived classes,methods. • Object-oriented methodology fordesigning data structures and applicableprograms. • Problems that are naturallysolved using object-oriented design andprogramming methodology.

With acquired knowledge student can: • torecognize the conditions for using object-oriented design and programming

methodology, • to design simple user class andlink them with the system classes, • user todesign simple methods and their use in systemdesign methods, • to use the programminglanguages C + + and Java.

2 MSc-0390 obligatory Algorithms andData Structures

• Basic facts of algorithm theory. • Abstractdata type and basic implementation. • Datastructures in mechanical engineering. • Usingstandard algorithms in solving simple

problems in mechanical engineering.

After successful completion of the programprovided for in this case the student can: • Tofind data structure to solve the problem. • Usedata structures and standard algorithms in

solving simple problems in mechanicalengineering. • To find suboptimal algorithm tosolve smple problems in mechanicalengineering. • To use standard algorithms tosolve complex problems in mechanicalengineering.

2 MSc-0510 obligatory The DataExquisite in

Course objective: • Numerical andmathematical analysis capabilities for each

The acquired knowledge allows: • That beentered professional do the measurements and

h l d d h d f d h



MechanicalEngineering

measurement. • Design and write programsfor analyzing measurements. • Comparisonanalysis of numerical data processing andanalysis software. • Implementation of PHPand JAVA Script.

determine the necessary and forward therequired size, • That the measurement is somathematical, numerical and statistical analysisand then to be graphical and logical preparationfor further analysis, • That, using PHP or JavaScript, or both, make software to performaccurate data processing which is a pre-determined mathematically.

2 MSc-0190 obligatory ProgrammableControl System

Acquisition of knowledge about theapplication, design, programming andintroduction of programmable controlsystems into industry and contemporarymanufacturing. Skill development for solvingpractical control problems in idustry by usingcomputer, information and controltechnologies and adequate scientific methods.

The student should: 1. Uderstand the principles,place and role of the programmable controlsystems in industry and programmableautomation, link knowledge of related subjectsto apply it in programmable automation; 2.Master scientific methods of analysis, synthesis,design and introduction of programmablecontrol systems in programmable automation;3. Know practical problem-solving and how toapply computer technology and contemporaryprogrammable control systems.

3 MSc-0485 obligatory Methods of Optimization

The main goal of this course for the student isto give the necessary knowledge of: •numerical analysis and optimization, •understanding general principles of designoptimization • formulating the optimizationproblems and identify critical elements.

During this course, the student will carry out: •Overview of design optimization •Fundamentals of engineering optimization •Problem formulation • strategies foroptimization

3 MSc-0474 obligatory Introduction toengineeringsimulations

Introduces to students engineering numericalsimulations on continuous media.Understanding of physical laws, boundary and

initial conditions. Uniqueness of solution andwell posed problems. Recognition of type of PDEs and their influence on additionalconditions. How type of approximationdepends on type of PDEs. Develop ability todevelop simulation code to solve model PDEs.

After completion of this course student is ableto recognize type of the problem, and to applysufficiently additional conditions to get unique

solution of engineering problem. Recognizebasic finite difference schemes forapproximation of typical model partialdifferential equations. Improve basicprograming skills to simulate simpleengineering problems. Recognize softwarestructure used to solve engineering problems.

3 MSc-0605 obligatory Designing • Prepare inputs for the engineering software After successful completion of the program

f f b d d d l l i P i id d f i hi h d



software formechanicalengineers

based on standard calculations. • Preparationof engineering calculations for effectiveprogramming and obtain efficient programs. •Testing and verification of softwareengineering. Validation of softwareengineering. • Use SQL to get informationfrom databases. • Use SQL for engineeringdecision making. • Organization,normalization of data in the database. •Privacy, data archiving. Issues of softwarelicensing.

provided for in this case the student can: •Prepare a budget for programming. • to assessthe quality of information obtained from theinput data that are processed program writtenfor a defined budget. • use the database forspecific problems in mechanical engineering. •use SQL as a generator of low-level informationfor software engineering.

4 MSc-0382 obligatory Skill Praxis M -MIT

To provide students with practical experienceof staying in an environment in which thestudent will realize his future career.Identifying the basic functions informationsystem in the field of design, development andproduction software, as well as roles and tasksof mechanical engineering of informationtechnology in such business system.

Training students to apply previously acquiredtheoretical and practical engineering andscientific knowledge of information technologyto solve specific practical engineering problemsin the selected companies or Institutions.Activities to introduce students to selectedcompanies or institutions, way of doingbusiness, management and the place and role of

IT engineers in their organizational structures.

1 MSc-0597 elective Digital systemdesign

•Introducing with: number systems, Booleanalgebra and binary logic, logic functions aswell mastery of their usage and manipulation.• Mastering of: various types of logic circuits-LC and methods for their analysis and design.• Mastering of handling with integrated digitalcircuits and oscilloscope.

• Proper understanding of the nature of digitalcomputers and processes inside them. •Manipulating digital computers in hardware andsoftware sense as a part of a digital controlsystems (DCS). • Using the methods of analysisand synthesis of LC. • Solving of computationalnature problems related to the analysis andsynthesis of LC, in "off line" mode, by means of digital computers. • Analysis and design of real

physical LC.

2 MSc-0522 elective DistributedSystems inMechanicalEngineering

• Introduction to the paradigm of distributingdata • Knowledge of basic protocols for thetransfer and sharing of distributed data. •Designing local area networks based ondifferent technologies • Introduction tomultiprocessor distributed systems in theautomotive and aircraft industry •

Стечено знање омогућава студенту: • torecognize the conditions for the formation of local area networks • to allocate names toresources on the net • to control and menageassigned resources • to understand the multi-processor and redistribution of data amongthem

I t d ti t l ith th t t i l f



Introduction to algorithms that are typical of multi-processor distributed systems

2 MSc-0503 elective Statisticalanalysis inmechanicalengineering

Goals of the course are introduction of basicand up-to date statistical methods forengineering practice. Main goals of the courseis identification of problems, methods fortheir solving, defying problem solvingprocedures and systems for decision making,

based on obtained results, i.e. interpretation of numerical results for use in practice. Analysesof large sets of data are especially emphases.

After successfully completed course, studentsobtained knowledge of statistical methods andtheir use for solving specific problems inpractice. They should be able to define theproblem, identify and apply adequate statisticalprocedures and obtain competent answers.

During the course students master theprocedures for use of adequate statisticalmethods. It is expected that students could beable for interpretation of statistical results fortheir practical usage. Also it is expected thatstudents can use and work in available statisticalsoftware.

3 MSc-0512 elective InformationTechnologyProjects

Evaluation

Understanding of the importance of theplanning process, assessment and evaluationof projects in the field of information

technologies. Getting to know differentmethodological approaches for analysis of IT/IS projects. Learning the sophisticatedtechniques of financial and economic analysis,as well as standard techniques formanagement of IT/IS projects. Learning thetechniques and routines for identification andmonetary quantification of hardly visible costsand effects implied in the implementation of IT/IS projects.

After having attended the module, the studentshould be able to: identify the project idea,prepare a database with all costs and effects of

IT/IS projects, calculate criteria for selection of project alternatives, acquire knowledge andpractices for recognition of hardly visible costsand effects of IT/IS projects, organise networksof activities, flows of project resources withchoice of optimal paths and minimum costs andassess uncertainty and risk of IT/IS projects.

3 MSc-0608 elective Informationintegration of businessfunctions 2

• Design and management of digitalintegrated business companies / factory,according to the business performance of integrated company, • Acquiring knowledge,skills and competencies of the informationand functional integration of the company, •Integration of engineering, production andbusiness activities • Learn about the businessperformance of integrated company, •

The acquired knowledge to the student: •Understand the operation of an integratedbusiness enterprise / factory, • Applies newinformation and communication technology, •Critically observe production systems andbusiness processes, • Plans computerizedactivities, processes and systems, • Approvesnew methods of learning and design, • Developcognitive traits of creative engineers in

T i i t i l ft f t i P ti i t i j t



Training to use commercial software forproduction management, • Implementation of new information and communicationtechnologies.

computer science, • Participates in projectteams of students and experts • Is able toconduct business discussions with businesspartners.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learnthe elements of the dynamics of theoscillatory motion of a particle, the dynamicsof variable mass particle, advanced problems

in kinematics of a particle, kinematics of acomplex motion of a rigid body andmechanical system of rigid bodies as well asthe dynamics of spherical and general rigidbody motion, the approximate theory of gyroscope and the impact theory.

By gaining knowledge in this course, studentswill be able to efficiently solve complexproblems in kinematics and dynamics of particle and material system. This knowledge

can allow students to attend classes inspecialized courses that analyze the kinematicand dynamic problems.


The goal of the course is to teach the studentthe basics and applications in science of fluidflow. The essence in that sense is goodunderstanding of fundamental equations of

fluid mechanics. That good understanding of the equations makes the process of finding thesolution in particular engineering problemswhich are dealing with fluid flow much easier.

Learning the topics from the course student willget the knowledge about basic principles in fluidmechanics and capabilities of analyticalthinking, then how to apply the knowledge in

practical work, and also to make the connectionbetween various subjects from mechanicalengineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit andcreation of flow-chart diagram. Engineeringskill development to synthesize an optimal

mechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors, actuatorsand PLCs as a main componenets of amechatronical system. Based on a well studiedreverse engineering (analysis), a skillfulapproach to the direct design (synthesis) of an

original mechatronical concept.


Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process engineering,thermal engineering and power engineering.Through practical and theoretical educationshould understand from thermodynamic

After completing the course, including quizzesand tests and successfully passed exam, studentsshall be ready to independently performthermodynamic calculations of simpler thermalplants and particular devices. The result of thiscourse is also acquiring fundamental knowledge

aspect the transformation of thermal energy that serves as the basis for active participation



aspect the transformation of thermal energyinto mechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for drying variousmaterials and air conditioning of corresponding spaces.

that serves as the basis for active participationin other theoretical and applicative courses.

Internal combustion engines


1 MSc-0294 obligatory Engine fuellingand ignitionsystems

The aims of the course are to provide acomprehensive insight into the subject matter of Engine Fueling, Mixture formation and Ignitionprocesses. Understanding the role, importance andprinciples of Engine Electronic Control. Broadeningexisting and acquiring new knowledge inhydrodynamics by studying high pressurephenomena occurring in fuel injection systems.Broadening knowledge in machine design bystudying specific issues of high pressure pumpsdesign principles. Broadening knowledge inelectromechanics and electronics by studyingprocesses occurring in Ignition Systems. Introductioninto the field of Engine Sensors, Electronics andMechatronics.

Capabilities to develop, design, calculateand chose components of Engine Fuelingand Ignition Systems. Capabilities todevelop and organize maintenanceprocedures for both Fueling and IgnitionSystems. Abilities related to specificissues of laboratory testing of Fuelingand Ignition Systems and components.Developing practical skills for Systemset up and diagnostics.

1 MSc-0278 obligatory Еngine WorkingProcesses

The aims of the course are: Gaining basic theoreticaland practical knowledge about physicality of realengine working processes. Making a complete sparkignition and diesel engine working cycle calculation.Analysis of engine working process integral workingparameters and operating characteristics.

Merging a theoretical knowledge of thermodynamics and fluid mechanics,connecting and application on real object– internal combustion engine. Trainingfor basic modeling and calculating of real engine working process, as well asacquiring fundamentals of enginedesigning. Mastering of engine workingparameters and operating characteristicsand of the influences of working process

on operating energetic and ecologic



on operating, energetic and ecologicengine characteristics.

2 MSc-0242 obligatory Engine Design 1 The aims of the course are to provide theoretical andpractical study about engine dynamics, vibrations anddesign of engine parts. Through the evaluation of engine kinematics, dynamics and engine partsmechanical load and stress students acquires a sensefor design of engine parts and complete engine. Basic

knowledge about 3D modeling of engine parts andstress calculation using FEM is also provided andenable modern approach to engine design.

The merger of theoretical knowledge of mechanics, basics of strength of constructions and machine elements andits applications on engine design.Training students for engine parts andsystems design, modeling and

calculation. The acquisition of basictheoretical and practical knowledgerequired for complete engine designing.

2 MSc-0310 obligatory IC EnginesMechatronics

The aim of the course is to provide comprehensiveinsight into the specific subject matter of mechatronics systems used in IC Engines. To gainexperience on functioning and using sensors andactuators specific for state of the art IC engines. Toget closer acquaintance with the structure andarchitecture of the IC engine electronic control units

(ECU), microcontrollers functions, in general, andmethods of ECU software developing and testing.

Ability to integrate specific electronicand mechanical engineering knowledge,with sound understanding of IC Enginemechatronic systems; More completeknowledge of IC Engine control; Abilityto form IC Engine specific mechatronicsystem; Basic competence in ICE ECU

programming and software testing;Knowledge in automotive buscommunication, especially in ICE ECUdata exchange.

2 MSc-0701 obligatory Supercharging of IC Engines

Acquiring new knowledge on role and importance of turbocharging in IC Engines. Developing skills tocalculate parameters of supercharging and matchcompressor/turbine to desired engine performance.Broadening knowledge of thermodynamics bystudying compressor/turbine performance

characteristics and processes occuring in intercooler.Broadening knowledge in machine design bystudying specific issues of turbocharger designprinciples.

Understanding the reality of HeatEngines working cycles and complexityof their design. Establishing the Cause &Effect relationship between workingcycle and machine design. Capabilities tocalculate parameters of IC Engine

Supercharging, to make proper selectionof Supercharging System components(compressor, turbine, intercooler,Waste-Gate). Abilities related to specificissues of laboratory testing of Supercharging System Components.

3 MSc-0707 obligatory Ecology of Mobile Power

Acquiring basic knowledge of IC engine's influenceon environment. Knowledge of pollutants origin in

Understanding the influence of humanactivities on environment, especially of

Sources exhaust of IC engines and the ways of their harmful ones Knowledge of pollutants



Sources exhaust of IC engines and the ways of theirreduction. Understanding of legal obligations andemission standards. Acquiring basic knowledge of noise sources in IC engines and the methods of noisereduction.

harmful ones. Knowledge of pollutantsformation chemistry, the greenhousegases effects on global climate change,and noise of IC engines. Ability to applysolutions for pollutants and noisereduction.

3 MSc-0705 obligatory IC EngineTesting

To cover the basic knowledge of experimental workin the field of IC Engines. Broadening of measuring

techniques knowledge, used in engineering, throughacquaintance with specific measuring equipment,devices and software tools used for IC engine testing.Developing of skills required for developing of ICengines test facilities, choice of adequate measuringequipment, devices and auxiliaries for funding ICengine test bench. Developing of skills required forplanning, organization and conducting an IC Enginetesting.

Practical knowledge in IC engine testingprocedures, operations and data analysis.

Ability in solving and analysis of practical engineering tasks related to ICengine testing and IC engine testmeasuring equipment and facilities

3 MSc-0122 obligatory IC ENGINES

DESIGN 2

Acquiring new knowledge on role and design

features of IC Engine Auxiliary systems - enginecooling & lubricating systems and starting devices.Developing skills to design and calculate workingparameters of IC Engine Auxiliary Systems. Practicalapplication and broadening knowledge in the field of Heat Transfer, Machine Design, Tribology andEngineering Materials.

Understanding the Design of complex

machines and Devices. Recognition andunderstanding of the importance of subsystems for proper functioning of thesystem as whole. Understanding thedesign principles and role of CoolingSystem, Lubrication System and StarterSystem. Capabilities to design andcalculate vital components of IC EngineAuxiliary Systems.

3 MSc-0704 obligatory Еngine Design

Project

Gaining experience through practical work on the

design of IC engines. The practical application of knowledge from previous IC engines courses,expansion and acquisition of new knowledge in thefield of design and calculation of machines, materialsand production methods of machine parts.Introduction to modern methods of design inmechanical engineering, especially in the field of ICengines. Understanding and gaining practicalexperience in working with computer aided design

Understanding the whole complex

mechanical structures, the connection of individual parts and components, abilityto design a functional and well-designedmachines. The ability of practicalapplication of modern software tools fordesigning in mechanical engineering.The capability to design, making goodmaterial and production methodsselection of the most important parts of



measurment systems and mainly their usage in the to fulfill specific requirements in the



measurment systems and, mainly, their usage in thefield of testing of systems covered in the MechanicalEngineering; To introduce students the world of virtual instrumentation and graphical programmingenvironment (LabVIEW) which is dedicated todevelopment of DAQ applications. To gainexperience on functioning and using DAQ systemsthrough numerous, real world, examples. To getcloser acquaintance with the sensors, and digital

acquisition software & hardware, in general, andmethods of DACQ software developing and testing.

to fulfill specific requirements in thefield of mechanical engineering systemtesting & measurements. Ability to buildand test software application (LabVIEWvirtual instruments) for measurementand automation of various mechanicalengineering systems. Practicalknowledge in computer basedmeasurements of fundamental

engineering data

3 MSc-0708 elective ReciprocatingCompressor

Acquiring basic knowledge on reciprocatingcompressors. Increased knowledge of thermodynamics through the study of compressionof real gases, gas mixtures and moist gases, and thestudy of actual working cycles of reciprocatingcompressors. Expansion and acquisition of newknowledge in the field of Engineering, through thestudy of basic structural elements, systems and

auxulary equipment of reciprocating compressors.Developing skills for the design of reciprocatingcompressors, selection, testing, installation andmaintenance in service.

Understanding of complex real workingcycle of reciprocating compressorsworking with real gases; Understandingof complex structural design of suchmachines. Development of criticalthinking which leads to soundunderstanding of cause-effectrelationship between working cycle and

machine design; Ability to design andaccomplish selection, testing, installationand maintenance of reciprocatingcompressors in service.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatory motion of a particle, the dynamics of variable mass particle,advanced problems in kinematics of a particle,kinematics of a complex motion of a rigid body andmechanical system of rigid bodies as well as the

dynamics of spherical and general rigid body motion,the approximate theory of gyroscope and the impacttheory.

By gaining knowledge in this course,students will be able to efficiently solvecomplex problems in kinematics anddynamics of particle and materialsystem. This knowledge can allowstudents to attend classes in specialized

courses that analyze the kinematic anddynamic problems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow. Theessence in that sense is good understanding of fundamental equations of fluid mechanics. That goodunderstanding of the equations makes the process of

Learning the topics from the coursestudent will get the knowledge aboutbasic principles in fluid mechanics andcapabilities of analytical thinking, thenhow to apply the knowledge in practical

finding the solution in particular engineering work and also to make the connection



finding the solution in particular engineeringproblems which are dealing with fluid flow mucheasier.

work, and also to make the connectionbetween various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competentanalysis of the mechatronical composition, design of applied mechanism, selection of appropriate controlunit and creation of flow-chart diagram. Engineeringskill development to synthesize an optimal

mechatronical solution to fulfil specified technicalrequirements.

Achievment of the engineering experisein a true analysis of mechanisms,sensors, actuators and PLCs as a maincomponenets of a mechatronical system.Based on a well studied reverse

engineering (analysis), a skillfulapproach to the direct design (synthesis)of an original mechatronical concept.


Student should gain knowledge in thermodynamicsand thermal devices and plants that are present inprocess engineering, thermal engineering and powerengineering. Through practical and theoreticaleducation should understand from thermodynamicaspect the transformation of thermal energy intomechanical work and gain physical fundamentals on

phenomena that go on in steam turbine, gas turbineand refrigeration devices as well as in plants fordrying various materials and air conditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plantsand particular devices. The result of thiscourse is also acquiring fundamental

knowledge that serves as the basis foractive participation in other theoreticaland applicative courses.

Material handling, constructions and logistics


1 MSc-0295 obligatory Computer aided

design inmaterialhandling practice

Basic goals of this course are: 1) introduction to

finite element method and applications in design of structures for material handling machines, 2) gainingthe practical skills for 2D and 3D design andmodeling of material handling machines

Students gain the practical skills for

idealization and analysis of structuralsystems and develop critical approach indesign. Also, they get knowledge incommon used software packages indesign of material handling machines.

1 MSc-0187 obligatory Facility layoutand industriallogistics

Introducing the students into the factories, factoryfacilities, transport and warehouse systems designprocess logic is the main goal. Development of the

Student is introduced into design processlogic and main mathematical models usedin the production, transport, and

student system design creative and innovative warehouse systems modeling. Student is



student system design creative and innovativeabilities in order to increase the production,warehouse and logistic activities efficiency,contributing to the overall country industrialdevelopment is also the main issue.

warehouse systems modeling. Student islearn how to determine main system andsubsystem performances representing thedesign solution efficiency or designergoals fulfillment degree.

2 MSc-0173 obligatory Structural andstress analysis

Basic goal of this course is introduction to principlesin design and calculation of steel structures for widerange of material handling machines (mining

machines, earthmoving machines, cableways andlifts). Also, goal is development of student creativeskills for designing the light but safe structures, i.e.rational structures.

Student expands the knowledge instructural analysis for material handlingmachines with emphasis on identification

of specific load/stress cases which maylead to failures of structures.

2 MSc-0119 obligatory Transport andlogistic systemsdesign

Introducing the students into the advancedtransport, warehouse and logistic (warehouse-distributive) systems design process logic is themain goal. Development of the student systemdesign creative and innovative abilities in order toincrease the material flow, warehouse and logistic

activities efficiency, contributing to the overallcountry industrial development is also the mainissue.

Student is introduced into design processlogic and main mathematical models usedin the transport, warehouse and logistic(warehouse-distributive)systemsmodeling. Student is learn how todetermine main system and subsystem

performances representing the designsolution efficiency or designer goalsfulfillment degree.

2 MSc-0308 obligatory Conveying andMaterialHandlingMachines

The main goal of this course is to acquaint studentswith material handling machines and conveyingmachines, types and design solutions and principlesof work. The goal is to introduce students to masterthe practical skills needed to perform theengineering profession, such as the main machineparameters, load analysis, selection of drive units

and calculation of the capacity.

Mastering the curriculum students obtaingeneral abilities that can be applied inengineering practice: knowledge andunderstanding of the principles of material handling and conveyingmachines, selection of parameters,defining the load of support structure,

selection and calculation of drive unitsand determine the capacity of machinesin operation.

3 MSc-0127 obligatory Eco Design The main objective of this course is to achievecompetence and academic skills in the field of ecodesign and sustainable product development. Thegoal is mastery of the methodologies to definestrategies to improve products and reduce the

Mastering the curriculum the studentacquires the ability to master thestrategies of eco-design for a moreinnovative environmental productimprovement at the work on product

harmful effects of products on the environment, and development. Student masters the skills,



u p du v , dunderstanding of the impact of products on theenvironment throughout its life cycle and innovativeapproach to obtaining environmentally improvedproducts.

d v p ud ,tools and practical ability to obtainsustainable products, and acquire theability to monitor environmentaldirectives and communication withorganizations that impose environmentalrequirements.

3 MSc-0139 obligatory Cranes Design The main objective of this course is to achieve

competence of students to master the principles of cranes design and that is able to be incorporated intothe cranes design process in the future engineeringwork. The goal is to master specific practical skillsfor the selection of drive units, calculation of support steel structures of cranes and to get theknowledge on the standards for calculation, as wellas realization of technical documentations.

Mastering the curriculum students obtain

general abilities that can be applied inengineering practice: the demands thatare placed to the designer, linking basicknowledge in the field of materialhandling machines and equipment, tomaster methods and procedures in cranescalculations, capacity of analyzingalternative solutions in the designprocess, developing skills in presentationof projects.

3 MSc-0102 obligatory Mining andConstructionMachines

Basic course goals (objectives): 1) introducingstudents with specificities of working process,design, modeling and calculation of basic(fundamental) subsystems of construction andmining machines and appliances, primarily machinesfor continuous excavation and machines forcrushing and screening. 2) mastering practical skillswhich are necessary for design and calculation of construction and mining machines.

Mastering the curriculum student gains(acquires): 1) general skills which can beused in engineering practice (analysis,synthesis and anticipation of solution andconsequences; development of criticalapproach) 2) specific skills (use of knowledge gain in fundamental academicfields on solving of concrete problems infield of construction and miningmachines).

4 MSc-0480 obligatory Skill Praxis M -TKL The goal of course is to acquaint students with theresources, machines and devices in the field of machinery used in various industries, especially inindustry, construction, mining, transport, tourism,energy, process engineering, service industries, etc..As well as to introduce students with the basictechnology of making steel tubes volume up to 500mm.

The successful completion of coursestudents are introduced to: 1 Productionprocesses in companies that produce oruse the funds for machinery, 2Intermittent and continuous internaltransport, 3 Processes, maintenance of equipment and machinery for machinery,and others.

3 MSc-0491 elective Fundamentals of Basic course goals (objectives): 1) introducing Mastering the curriculum student gains



Mining andConstructionMachinesDynamics

g ( j ) ) gstudents with specificities of dynamic processes of construction and mining machines . 2) masteringpractical skills which are necessary for analysis of dynamic behavior of construction and miningmachines.

g g(acquires): 1) general skills which can beused in engineering practice (analysis,synthesis and anticipation of solution andconsequences; development of criticalapproach) 2) specific skills (use of knowledge gain in fundamental academicfields on solving of concrete problems infield of construction and mining

machines dynamics).




The goal of the course is to teach the student thebasics and applications in science of fluid flow. Theessence in that sense is good understanding of fundamental equations of fluid mechanics. Thatgood understanding of the equations makes theprocess of finding the solution in particularengineering problems which are dealing with fluidflow much easier.

Learning the topics from the coursestudent will get the knowledge aboutbasic principles in fluid mechanics andcapabilities of analytical thinking, thenhow to apply the knowledge in practicalwork, and also to make the connectionbetween various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competent

analysis of the mechatronical composition, design of applied mechanism, selection of appropriate controlunit and creation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specified technicalrequirements.

Achievment of the engineering experise

in a true analysis of mechanisms, sensors,actuators and PLCs as a maincomponenets of a mechatronical system.Based on a well studied reverseengineering (analysis), a skillful approachto the direct design (synthesis) of anoriginal mechatronical concept.

1 MSc-0202 obligatory Thermodynamics Student should gain knowledge in thermodynamics After completing the course, including

М and thermal devices and plants that are present in quizzes and tests and successfully passed



p pprocess engineering, thermal engineering and powerengineering. Through practical and theoreticaleducation should understand from thermodynamicaspect the transformation of thermal energy intomechanical work and gain physical fundamentals onphenomena that go on in steam turbine, gas turbineand refrigeration devices as well as in plants fordrying various materials and air conditioning of

corresponding spaces.

q y pexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of thiscourse is also acquiring fundamentalknowledge that serves as the basis foractive participation in other theoreticaland applicative courses.

Motor vehicles


1 MSc-0711 obligatory SystemEffectiveness

The objectives of the course are to provide a comprehensiveinsight into the issues (analysis and design) of systemeffectiveness, primarily in the areas of reliability andavailability of technical systems (vehicles), maintenance,maintainability and life cycle. The course is intended forstudents of Motor Vehicles department, and it providesinsight into the analysis and design of the effectiveness of the system (vehicle).

Mastering the study program astudent obtains general andsubject-specific skills which are ina function of the contemporaryapproach to the analysis anddesign of technical systems(vehicles). The students acquire abasic ability to access the fullaccess to today's analysis anddesign effectiveness (reliability,maintenance, maintainability), aperception of the life-cyclesystems, and solving complexproblems in this area.

1 MSc-0437 obligatory Vehicle Design Mastering the methods and techniques of vehicle designconsidering: (a) basic requests regarding whole vehicle andvehicle systems (b) characteristics of vehicle systems andtheir influence on quality of vehicle (duration and cost of development, testing, manufacturing and recycling) (c)regulations considering the variety of vehicle categories andvehicle systems categories

Application of acquiredknowledge in design of vehiclesand vehicle systems, whichimplies knowledge of vehiclesystems characteristics and theirindividual and synergetic effecton vehicle characteristics.Possibility to predict the impact

of new solutions used in design of



gvehicle systems to usability of vehicle.

2 MSc-0450 obligatory VehicleMechatronics

Course objectives are designed to meet the needs of the 21stCentury automotive industry for graduates students with thenecessary skills and understanding in mechatronics. Studentsshould be able to deal with a wide range of activities thatinclude researching, designing, developing, and testing of

mechatronic systems in motor vehicles.

Students obtain the followinggeneral ability: analysis,synthesis and forecasting of solutions and consequences mastering the methods,

procedures and processes of research, application of theacquired knowledge into practice.Students acquire and subject-specific skills: thoroughintroduction to the vehiclemechatronic systems, solvingconcrete problems by usingscientific and engineeringmethods and procedures, development of the skills for the

use of knowledge in the field of mechatronics in the vehicle.

2 MSc-0440 obligatory Vehicle drive andrunning gears

Conquering of knowledge and skills for overviewing andunderstanding for problems related to motor vehicle design,calculation of vehice systems and components responsiblefor transmission, suspension and steering, and theirinfluence on vehicle characteristics and behaviour.

By conquring of this course,students achieve theoretical,experimental and practicalknowledge and capabilities inmeans of methods andprocedures for determination,estimation and improvement of certain vehicle systems

characteristics, responsible forpower transmission, as well assteering and suspension systems,which determine vehicle dynamiccharacteristics and behaviour.

2 MSc-0434 obligatory AutomotiveFriction Systems

Student acquires necessary theoretical and practicalknowledge and becomes being able to make a selection or todesign a corresponding vehicle friction system (main clutch,

General: - analyze, synthesize,solution prediction, consequenceestimation - acquiring research

braking system, friction materials) both in the case of methods, procedures and



building a new vehicle type of any vehicle category or in thecase of reconstruction, re-make or maintenance of anexisting vehicle type. Student also acquires basic knowledgeon tribology of friction systems as well as knowledgenecessary for formal verification of a given frictionmechanisms or material.

processes - development of critical and self-critical approachand approach - application of knowledge in practice -professional ethics. Subject -specific: - acquiring knowledge inteaching area (T/A) - knowingand understanding of T/A and

profession - resolution to T/Apractical problems - synergy of knowledge fro different T/A -follow-up and application of professional novelties - T/Aknowledge application -application of ICT in T/A

3 MSc-0436 obligatory Vehicle Testing Primary goal of this subject is to provide objectiveinformation about vehicle and vehicle assemblies and partsquality as well as exploitation conditions and loads,

environmental impact, etc., in different phases of vehicledesign, manufacturing and exploitation.

1. Acquirement of theoretical-experimental knowledge in thefield of vehicle testing. 2.

Mastering the contemporarymethods in the field of vehicletesting. 3. Training of students fortesting of vehicle assemblies,parts and systems throughpractical examples in laboratory,field and exploitation testing.

3 MSc-0441 obligatory Vehicle bodystructure

Aims of this course include achieving of competences toconquer specific knowledge and skills needed foroverwiewing and understanding of problems related to

construction, calculation, testing and verification of supportstructures of different categories of vehicles.

By conquering of this course,students achieve generalcapabilities for conquering

methods and procedures pointedto identification of vehiclesupport structures behaviour,which is assumption foroptimization of constructivesolutions. Also, students conquera course-specific capabilitiesrelated to design and calculation

of support structure for specified



vehicle, according to actualregulations.

3 MSc-0435 obligatory VehicleMaintenance

Student acquires relevant theoretical and practicalknowledge about after sales activities of a vehiclemanufacturer, and in particular concerning vehiclemaintenance and the ways of establishing a system of authorized service organizations taking into consideration

that without application of an appropriate maintenancesystem there will be no normal vehicle operation nor vehicleusage. An automotive engineer must know how to make avehicle, but also how to use and maintain it in order toenable its mission to be fulfilled in all usage conditions. Anautomotive engineer must be educated and trained to designso called "Vehicle Maintenance System" i.e. to designprograms and plan of preventive, corrective and combinedmaintenance as well as to design vehicle service technologyand facilities in which it can be applied.

General: - analyze, synthesize,solution prediction, consequenceestimation - acquiring researchmethods, procedures andprocesses - development of

critical and self-critical approachand approach - application of knowledge in practice -professional ethics. Subject -specific: - acquiring knowledge inteaching area (T/A) - knowingand understanding of T/A andprofession - resolution to T/Apractical problems - synergy of knowledge fro different T/A -follow-up and application of

professional novelties - T/Aknowledge application -application of ICT in T/A

4 MSc-0452 obligatory Skill Praxis M -MOV

Course objective is to introduce students to manufacturingand technological processes and specific activitiesconcerning vehicle development, production, exploitation,maintenance and revitalization.

In real manufacturing conditionsstudents acquire insight in wholeprocess of vehicle and vehiclecomponents production,exploitation, maintenance andrevitalization according to coursecurriculum.

2 MSc-0712 elective Vehicles andEnvironment

The goal of this subject is to give the students an insight intoeffects vehicles have on the environment. Preservation of the environment and minimization of the negative impactsof driver-vehicle-environment system are the basis of modern vehicle development and exploitation. Therefore amore detailed analysis of these effects in this case are aprerequisite for creating a modern engineer, not only in thefield of motor vehicles.

By completing the plannedactivities students get to focustheir engineering resources tomodern trends of design anddevelopment of vehicles and theirexploitation. These trends arelargely based on global and localenvironmental requirements

which are also a prerequisites of



progress in this area in themodern world.

2 MSc-0451 elective SystemsEngineering

Course objectives include the achievement of competenciesand academic skills as well as methods for their acquisition,in the field of engineering systems. The goals arising frombasic tasks and determine the specific results that should berealized within the subject and represent the basis for the

control of the results achieved.

Students obtain the followinggeneral ability: - analysis,synthesis and forecasting of solutions and consequences -mastering the methods,

procedures and processes of research, - application of acquiredknowledge into practice. Studentsacquire and subject-specific skills:- thorough introduction tosystems engineering, - solvingconcrete problems by usingscientific and engineeringmethods and procedures, -development of the skills for theuse of knowledge in the field of

engineering systems.

3 MSc-0713 elective Intelligentvehicle systems

The goal of intelligent vehicles and accordingly intelligentvehicle systems is to augment vehicle autonomous drivingeither entirely or partly for the purposes of safety,comfortability, and saving energy. The tasks of intelligentvehicles become more challenging due to dynamic change of complex environment perception and necessity for sensing,modeling and prediction of different influencing factors onthe vehicle performance. Autonomous intelligent vehicleshave to perceiving and modeling environment in order to

control the vehicles. The vehicle motion control faces thechallenges of strong nonlinear characteristics due to highmass, especially in the processes of high speed and suddensteering/braking. It needs processing, modelling andprediction non-linear chnages in the vehicles systemoperation based on large amounts of data from multi-sensors and complex dynamic changes in an environment.Course objective is to provide an understanding the design

Course outcomes aredevelopment of student’s abilitiesto: a) understand requirementsbeing imposed to intelligentvehicle and its systems,assemblies, sub – assemblies, andparts, b) analyze the vehiclesystem operation and understandinfluences of the new intelligent

solutions in the vehicle systemsdesign on the vehicle overallperformance and quality of use c)application of artificialintelligence techniques indevelopment of intelligentsolutions of the vehicle systems,d) analyze, understand and

and development process of intelligent vehicle systems andd l d ’ k ll d k l d h f

reconcile the new intelligentl h h l



to develop students’ skills and knowledge in the area of intelligent vehicle systems development.

solutions in the vehicle systemoperation with legislation relatedto the specific vehicle systemsand sub systems.

3 MSc-0439 elective ForensicEngineering

Student is enabled to apply forensic engineering methods,particularly in the area of motor vehicles, which comprisesanalyses and reconstruction of road accidents, vehicle

damage estimation and vehicle value estimation based oncase study principles. Analogous methods will be applied inother filed of mechanical engineering, depending on theinterest of students.

General: - analyze, synthesize,solution prediction, consequenceestimation - acquiring research

methods, procedures andprocesses - development of critical and self-critical approachand approach - application of knowledge in practice -professional ethics. Subject -specific: - acquiring knowledge inteaching area (T/A) - knowingand understanding of T/A andprofession - resolution to T/Apractical problems - synergy of

knowledge fro different T/A -follow-up and application of professional novelties - T/Aknowledge application -application of ICT in T/A

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn the elements of the dynamics of the oscillatory motion of a particle, thedynamics of variable mass particle, advanced problems inkinematics of a particle, kinematics of a complex motion of a rigid body and mechanical system of rigid bodies as well

as the dynamics of spherical and general rigid body motion,the approximate theory of gyroscope and the impact theory.

By gaining knowledge in thiscourse, students will be able toefficiently solve complexproblems in kinematics anddynamics of particle and material

system. This knowledge canallow students to attend classes inspecialized courses that analyzethe kinematic and dynamicproblems.


The goal of the course is to teach the student the basics andapplications in science of fluid flow. The essence in thatsense is good understanding of fundamental equations of

Learning the topics from thecourse student will get theknowledge about basic principles

fluid mechanics. That good understanding of the equationsk h f fi di h l i i i l

in fluid mechanics andbili i f l i l hi ki



makes the process of finding the solution in particularengineering problems which are dealing with fluid flowmuch easier.

capabilities of analytical thinking,then how to apply the knowledgein practical work, and also tomake the connection betweenvarious subjects from mechanicalengineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competent analysis of

the mechatronical composition, design of appliedmechanism, selection of appropriate control unit andcreation of flow-chart diagram. Engineering skilldevelopment to synthesize an optimal mechatronicalsolution to fulfil specified technical requirements.

Achievment of the engineering

experise in a true analysis of mechanisms, sensors, actuatorsand PLCs as a main componenetsof a mechatronical system. Basedon a well studied reverseengineering (analysis), a skillfulapproach to the direct design(synthesis) of an originalmechatronical concept.

1 MSc-0202 obligatory Thermodynamics

М

Student should gain knowledge in thermodynamics and

thermal devices and plants that are present in processengineering, thermal engineering and power engineering.Through practical and theoretical education shouldunderstand from thermodynamic aspect the transformationof thermal energy into mechanical work and gain physicalfundamentals on phenomena that go on in steam turbine,gas turbine and refrigeration devices as well as in plants fordrying various materials and air conditioning of corresponding spaces.

After completing the course,

including quizzes and tests andsuccessfully passed exam,students shall be ready toindependently performthermodynamic calculations of simpler thermal plants andparticular devices. The result of this course is also acquiringfundamental knowledge thatserves as the basis for activeparticipation in other theoretical

and applicative courses.

Naval architecture


1 MSc-0273 obligatory SHIP The aims of the course are to familiarize students 1) Basic knowledge about ship

RESISTANCE with: 1) fundamentals of ship hydrodynamics;h l t hi f t ff t

hydrodynamics needed for the design of ti l t f hi 2) Abilit t d



how elementary ship form parameters affectship resistance; 2) how to determine resistancefor conventional ships types by applyingstandard engineering methods and by analyzingthe results of model tests; 3) unconventionaltypes/forms of ships from the aspect of shipresistance (shallow draught river vessels, planingand semi-displacement high speed craft, etc.).

conventional types of ships. 2) Ability to docalculations of ship resistance at the commonengineering practice level. 3) Knowledgeabout basics of model tests and extrapolationof results from model to ship scale. 4) Basicknowledge about unconventional ship typesand their forms.

1 MSc-0288 obligatory Ship Strength 1 The aims are to explain: basic modes of shipstructure failure and limit state assessment of ship structure, general simplification of the hullmathematical model and the concept of strengthcalculations by using analytical and numericalmethods.

A thorough knowledge about the concept of ship strength calculations in contemporaryshipbuilding practice. Qualification forpractical application of analytical methods of theory of elasticity in direct calculations of ship structures and analysis and developmentof classification societies’ rules.

2 MSc-0197 obligatory Ship Structures 2 A thorough explanation of the hull girderlongitudinal strength calculation. An explanation

of specific requirements that have to be met bythe hull of the three most prominent ship types:a container ship, a bulk carrier and a tanker.

The student should be able to practicallyperform hull girder longitudinal strength

calculation according to classificationsocieties’ rules. A thorough knowledgeshould be acquired of specifics, generalconception and the hull structural membersof tankers, bulkers and container ships.

2 MSc-0695 obligatory Buoyancy andStability of Ship2

To cover the advanced knowledge of NavalArchitecture connected to ship buoyancy andstability: ship loading, flooding, damaged shipstability and grounding. It is a continuation of the course Buoyancy and Stability of Ship 1.

Ability to solve and analyze practicalengineering tasks connected to shiploading/unloading, damaged ship stabilityand grounding. Practical knowledge of shipflooding calculations, according tointernational regulations.

2 MSc-0178 obligatory Ship Propulsion The aims of the course are to familiarize thestudent with various types of ship propulsors(specifics, advantages and drawbacks, selectionof the best propulsor etc.). Practical trainingshould enable the student to select/design themost adequate propulsor by applying commonengineering methods, to use computer for those

The student should be familiar with varioustypes of ship propulsors and propellers inparticular, their advantages and drawbacks,the concept of ship propeller design byapplying common engineering methods, howto determine the needed ship engine poweroutput.

activities, to know how to determine necessaryi



engine power.

3 MSc-0121 obligatory Marine Turbinesand Boilers

Reaching the competence and academic skillsand methods for it's acquiring. Developingcreative capabilities and mastering the specificpractical skills. Goals determine the specificresults which should be achieved within thesubject. Goals also represent basis for control of

the achieved results.

Student acquires specific capabilities whichare needed for carrying out professionalactivities: analysis, synthesis and anticipatingthe results and consequences; use of knowledge from different areas for solvingspecific problems.

3 MSc-0706 obligatory Marine Engines The target of this subject is to give acomprehensive insight into the specific matter of IC marine engines, two-stroke, as well as four-stroke ones, and especially of high powerengines with complex engine mechanism. Thesubject is intended for the students of Shipbuilding department who will be given anintroduction for further later research intoconstruction specifications of this class of

engines and engine systems during professionalpractical work experience.

General specifications: Adopted basictheoretical and practical knowledge in thefield of IC marine engines wherefundamental and applied scientific disciplinesare entangled. Students acquire basic abilityfor competent approach to the choice,organization of exploitation and maintenanceof engines in the field of marine enginesystems

3 MSc-0697 obligatory Seakeeping To cover the basic knowledge of NavalArchitecture connected to ship motion in waves(seakeeping).

Knowledge in solving and analysis of practical engineering tasks connected to shipmotion (roll, heave, pitch) in regular andirregular waves.

3 MSc-0696 obligatory Ship Design To integrate the knowledge acquired fromprevious courses of naval architecture, and todevelop knowledge and skills for the basic shipdesign.

Ability to develop ship design, with thecorresponding calculations, plans andtechnical documentation, for various shiptypes.

4 MSc-0089 obligatory Skill Praxis M -BRO

The student gains practical experience in theoccupational environment where he will pursuehis future career. He identifies essential functionsof the business system in the domain of design,development and manufacturing as well as therole and tasks of a naval architect within suchbusiness system.

The student should gain practical experiencein the way of organizing and functioning of the environment where he will apply theacquired expert knowledge, identify modelsof communication with his colleagues andbusiness information flows, identifyfundamental processes in design,

manufacturing, maintenance within theconte t of his f t re competence establish



context of his future competence, establishpersonal contacts and acquaintances he willmake use of during his schooling, or whenapplying for job in the future.

2 MSc-0312 elective Ship Strength 2 The aims of the course are to explain the basicprinciples of numerical methods for structuralanalysis, theoretical and practical fundamentals

of finite element method and to provide athorough explanation of finite element methodapplication in ship structure design.

A thorough knowledge about the concept of structural analysis by applying finite elementmethod as one of the most significant

methods for structural analysis incontemporary engineering practice.Qualification for practical application of acommercial FEM program package in directcomputations of ship structure.

3 MSc-0143 elective ShipManeuvering

The aims of the course are to make the studentfamiliar with: 1) Essential features of shipmaneuverability so that the navigation is as safeas possible; 2) Standard tests and criteria for shipmaneuverability estimation; 3) ITTC and IMO

regulations; 4) Ship design in respect to itsmaneuverability (course keeping, turn ability,response to rudder deflection etc.).

The student should know: 1) Basic features of ship maneuverability and criteria for itsestimation; 2) To interpret regulations formaneuverability and to conductmaneuverability tests; 3) To know which

measures should be undertaken in shipdesign to provide satisfactory shipmaneuverability.

3 MSc-0494 elective InternationalMaritimeRegulations

To cover the basic aspects of InternationalMaritime Regulations, their evolution anddevelopment, and (especially) their influence onship design. Critical analysis of the presentregulations.

Understanding of the basic concepts of maritime regulations, their development andtheir influence on ship safety, environment,and ship design.

3 MSc-0533 elective SoftwareApplication in

Ship Design

To cover the application of computer programpackages for ship design and basic ship

calculations.

Practical knowledge in applying computerprograms for developing ship form,

hydrostatic computations, power prediction,hull structure scantling, seakeeping and shipdesign.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatorymotion of a particle, the dynamics of variablemass particle, advanced problems in kinematics

By gaining knowledge in this course,students will be able to efficiently solvecomplex problems in kinematics anddynamics of particle and material system.

of a particle, kinematics of a complex motion of a rigid body and mechanical system of rigid

This knowledge can allow students to attendclasses in specialized courses that analyze the



a rigid body and mechanical system of rigidbodies as well as the dynamics of spherical andgeneral rigid body motion, the approximatetheory of gyroscope and the impact theory.

classes in specialized courses that analyze thekinematic and dynamic problems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow.The essence in that sense is good understanding

of fundamental equations of fluid mechanics.That good understanding of the equations makesthe process of finding the solution in particularengineering problems which are dealing withfluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basic principlesin fluid mechanics and capabilities of

analytical thinking, then how to apply theknowledge in practical work, and also tomake the connection between varioussubjects from mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit and creationof flow-chart diagram. Engineering skill

development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors,actuators and PLCs as a main componenetsof a mechatronical system. Based on a wellstudied reverse engineering (analysis), a

skillful approach to the direct design(synthesis) of an original mechatronicalconcept.


Student should gain knowledge inthermodynamics and thermal devices and plantsthat are present in process engineering, thermalengineering and power engineering. Throughpractical and theoretical education shouldunderstand from thermodynamic aspect thetransformation of thermal energy intomechanical work and gain physical fundamentalson phenomena that go on in steam turbine, gasturbine and refrigeration devices as well as inplants for drying various materials and airconditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of this course isalso acquiring fundamental knowledge thatserves as the basis for active participation inother theoretical and applicative courses.

Process engineering and environment protection




1 MSc-0292 obligatory Mechanical andhydromechanicalOperations andEquipment

The purpose of subject is for students to getknowledge about mechanical and hydromechanicalprocesses and equipment. Through the semesterstudents’ projects, students get creative and specificpractical skills for construction of processequipment. The laboratory exercises have the aimto give appropriate knowledge to students about

examination of process equipment during theproduction as well as the exploitation process.

After successful course attending studentsget ability for: analysis, synthesis andpredicting solutions and consequences;developing of critic and self critic thinkingand approach; practical knowledgeimplementation; professional ethic;connecting knowledge from different

subjects and their implementation;developing skills and abilities forknowledge implementation in adequatearea.

1 MSc-0276 obligatory Тransportphenomena inprocess industry

Acquiring the necessary knowledge to understandthe transport phenomena of heat and mass transferin the process industry. Application of steady andunsteady heat and mass transfer in phases (two ormore component fluids) in process equipment.

The understanding of fundamentals of heat and mass transfer processesaccompanied with multiphase fluid flow.Estimaption procedures for the intensityof heat and mass transport and pressuredrop in chemical engineering.

2 MSc-0323 obligatory Biotechnology The purpose of subject is for students to getknowledge about basic processes and equipment,which is used in biotechnology. Through thesemester students’ projects, students get creativeand specific practical skills for construction of process equipment. The laboratory exercises havethe aim to give appropriate knowledge to studentsabout examination of process equipment during theproduction as well as the exploitation process.

After successful course attending studentsget ability for: analysis, synthesis andpredicting solutions and consequences;developing of critic and self critic thinkingand approach; practical knowledgeimplementation; professional ethic;connecting knowledge from differentsubjects and their implementation;developing skills and abilities forknowledge implementation in adequate

area.2 MSc-0180 obligatory Heat transfer

operations andequipment

Analysis of the heat transfer operations andapparatuses and assessment of their role in modernindustry. Understanding the most commonly usedtypes of heat transfer apparatuses - their design andcalculation procedures.

The mastery of calculation proceduresneeded to analyze the heat transferoperations - the heat balance,determination of the operational line anddriving force. The mastery of calculationprocedures for sizing of the mostcommonl used t es of tubular, late

and contact heat exchangers.



2 MSc-0301 obligatory Chemical andBiochemicalOperations andReactors

The purpose of subject is for students to getknowledge about theories of kinetic and dynamic of physical-chemical transformations in varioustechnological processes. Influence of processparameters to gaining conditions for physical andchemical equilibrium is separately considered.Getting knowledge about basic models of chemical

reactors, types of chemical reactions, rules used forqualitative and quantitative description of complexphysical-chemical phenomenon and mass and heatbalance equation, gives students basic forindependent projecting of technologies and systemsof process industry.

Successful completion of the studyprogram the student acquires theknowledge necessary to understand thekinetics of chemical reactions and tomaster the methodology of calculation of chemical processes and reactors.Introduction to basic models of chemical

reactors and material equations andthermal balance should allow students toindependently analyze the real process,that the application of engineering andscientific methods to be able to designprocesses and systems.

3 MSc-0162 obligatory Mass transferoperations andequipment

Analysis of the mass transfer operations andapparatuses and assessment of their role in modernindustry. Understanding the most commonly usedtypes of mass transfer apparatuses - their design and

calculation procedures.

The mastery of calculation proceduresneeded to analyze the mass transferoperations - the material balance,determination of the operational line and

driving force. The mastery of calculationprocedures for sizing of the mostcommonly used mass transferapparatuses.

3 MSc-0124 obligatory Air PollutionControl

The goal of course is a review of basic designdevices used in facilities whose purpose is the airpollution control. This is achieved through a reviewof the basic construction of apparatus for thepurification of gases and review of methofdologyfor calculations commonly used types of thesedevices. In this way the student masters the skills of designing these facilities and individual devices.

Upon completion of the course isexpected that the candidate has masteredthe skills related to analysis andevaluation of application of air pollutioncontrol devices for a particular purpose.The knowledge that the student acquirethe specific technical solutions, selectionof treatment methods and equipmentenabling the understanding of basicprinciples essential for the design of airpollution control installations andcalculation of particular devices.

3 MSc-0363 obligatory Design,construction and

Objective of the course is to introduce students todifferent stages of construction, from technical

Main outcome of the course is to teachstudents to independently run object

operation of processing

documentation preparation and obtaining thenecessary approvals to construction and

construction. This includes projectdocumentation preparation and object



processingsystems

necessary approvals to construction andexploitation. Students learn about with the contentsof the project. In the second part of the courseacquire basic knowledge related to activities thatfollow design of processing industry facilities(power supply, operating fluids, transport, waterflow etc.). Part of the course deals with theeconomic evaluation of investments.

documentation preparation and objectconstruction. After successful completionof the study program, student is capableto foresee the extent of necessary designwork in processing industry, as well as toplan necessary installation for productionplants.

3 MSc-0125 obligatory Waste andwastewatermanagement

In this course, students will gain a solid basic andspecific knowledge in the field of wastemanagement and wastewater management.Laboratory exercises give students the opportunityto solve the various practical problems and perceivegained theoretical knowledge.

Knowledge that students acquired aboutthe specific technical solutions, the choiceof methods of use waste and wastewatertreatment equipment enabling theassessment of basic principles relevant forthe design of these plants.

4 MSc-0499 obligatory Skill Praxis M -PTH

The goal of course is to acquaint students with theresources, machines and devices used in variousindustries, especially in the food and pharmaceuticalindustry, chemical industry, oil refining, gas, non-metals and building materials, metallurgy, energy,communal activity. The practice should enablestudents to easily master the subject matter of vocational subjects.

The successful completion of coursestudents are introduced to: 1.processesand equipment used in the processingindustry, 2. designing methods of processing plants, 3. test methods of processing plants and equipment, andothers.

1 MSc-0403 elective Measurementsand Control inProcess Industry

Introducing the candidate with the principles of process measurement and control of the processusing the measured values. After the coursecandidates will be capable to independently performstatistical processing of measurement results andevaluation of measurement uncertainty. The processof accreditation of laboratories and regulatoryorganizations.

Upon completion of the course isexpected that the candidate is familiarwith the basic measurements andinstruments used in measurement andcontrol in process systems. Also it isexpected that the student is able toindependently plan experimentalmeasurements and work in laboratoryand also to evaluate the measurementuncertainty. Basic knowledge about theaccreditation of laboratories candidatereceives through the consideration of thebasic requirements of relevant standards.



field of distribution and transportation of natural gas storage and technical gases.



natural gas storage and technical gases.

3 MSc-0145 elective Draying anddrayers

Students will be introduced to technical bases of materials drying process. The goal of this course is areview of the dryers basic constructions. Throughthis course students acquire skills and knowledge torecognize problems that occur in complex dryingprocesses.

Successful completion of the studyprogram student acquires specific skills infunction of quality performance of professional activities. It is anticipatedthat students acquire knowledge onspecific technical solutions in the fields of

drying materials, as well as being able toanalyze complex technical solutions.

3 MSc-0622 elective Technicalregulations

Objective of the course is that students acquireacademic skills and academic competencies forapplication of technical regulations. Throughteaching activities student acquires creative skillsand master specific practical skills for carrying outprofessional tasks - design in general.

By successful completion of the studyprogram student acquires the followingskills: analysis, synthesis and prediction of solutions and consequences; developmentof cr itical thinking and self-criticalapproach; application of knowledge inpractice; professional ethics; correlationof knowledge from different fields andtheir applications; development of skilland proficiency in the use of knowledge infield of technical documentation.




The goal of the course is to teach the student thebasics and applications in science of fluid flow. Theessence in that sense is good understanding of fundamental equations of fluid mechanics. Thatgood understanding of the equations makes theprocess of finding the solution in particular

Learning the topics from the coursestudent will get the knowledge aboutbasic principles in fluid mechanics andcapabilities of analytical thinking, thenhow to apply the knowledge in practicalwork, and also to make the connection

engineering problems which are dealing with fluidflow much easier.

between various subjects frommechanicalengineering.



flow much easier. mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competentanalysis of the mechatronical composition, design of applied mechanism, selection of appropriate controlunit and creation of flow-chart diagram.Engineering skill development to synthesize anoptimal mechatronical solution to fulfil specified

technical requirements.

Achievment of the engineering experise ina true analysis of mechanisms, sensors,actuators and PLCs as a maincomponenets of a mechatronical system.Based on a well studied reverseengineering (analysis), a skillful approach

to the direct design (synthesis) of anoriginal mechatronical concept.


Student should gain knowledge in thermodynamicsand thermal devices and plants that are present inprocess engineering, thermal engineering andpower engineering. Through practical andtheoretical education should understand fromthermodynamic aspect the transformation of thermal energy into mechanical work and gainphysical fundamentals on phenomena that go on insteam turbine, gas turbine and refrigeration devicesas well as in plants for drying various materials andair conditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of thiscourse is also acquiring fundamentalknowledge that serves as the basis foractive participation in other theoreticaland applicative courses.

Production engineering


1 MSc-0268 obligatory ManufacturingAutomation

The student should acquire knowledge of theapplication, design and introduction of modern

manufacturing automation, master the skills of practical problem-solving in the domain of automation by using computerized, information,control, manufacturing and other technologies andappropriate scientific methods.

The student should understand theprinciples of modern manufacturing

automation, develop critical approach tosocial, economic, manufacturing andother effects generated by introducingautomation to manufacturing process,combines knowledge of related subjectsin order to apply it in automation,master sc ientific methods of analysis,synthesis, design and introduction of

manufacturing automation system,develop capability to use computerized



p p y ptechnologies and modern controlsystems in manufacturing automation.

1 MSc-0290 obligatory Industrial robots The student should acquire fundamental knowledgeof industrial robots (basic subsystems, theirfunctioning variants and realization), knowledgeneeded for robot design, robotized workplaces

design, robot programming, develop capability forfurther dealing with subject matter of the discipline.

Fundamental knowledge of robots andcurrent issues in their design, buildingand application. Knowledge needed forrobot design. Capability to perceive the

importance of robot application (effectson productivity, flexibility, productquality and humanization of work).Knowledge and skills for introducing of robots to the plant/factory. Practicalexperience in robot programming.

2 MSc-0306 obligatory PRODUCTIONINFORMATIONSYSTEMS

1.Acquisition of nowledge about the role andimportance of computer-oriented informationsystems for planning and management of productionsystems 2. Mastery of theoretical basics of contemporary information systems architecture 3.Acquisition of practical knowledge for applicationsdesign and development in the domain of informationsystems for planning and management of productionsystems

The student should acquire fundamentalknowledge of: 1. computer-orientedinformation systems design anddevelopment 2. contemporary databaseapplication 3. contemporary softwaretools in the production informationsystems design and development 4.applications design and development forplanning and management of productionsystem subsystems.

2 MSc-0177 obligatory ManufacturingSystems Design

1. Understanding of modern manufacturing systemsstructure – a survey of main subsystems and theirmutual interaction; 2. Static and dynamic propertiesof the manufacturing system, dynamic nature of cutting process, nonlinear phenomena of friction,chatter and other aspects affecting manufacturingsystem stability; 3. Fundamental knowledge of numerically controlled axes, Computer NumericalControl, control system architecture, human-machineinterfacing, and manufacturing system conditionmonitoring; 4. Fundamental approaches tomanufacturing systems design theory (Axiomaticdesign, TRIZ and other alternative approaches).

1. The student should be able to design,i.e., conceptualize, analyze andsynthesize manufacturing system inaccordance to given functionalrequirements. 2. The student shoulddevelop knowledge, skills and practicefor using broad range of CAx modelingmethods, including FEM, needed formanufacturing system design andoptimization. 3. The student shouldunderstand structure of ComputerNumerical Control system, its basicarchitecture and subsystems, and how

to specify and/or configure it properly.

MS bli t C t A d t il d t d f th i i l d li ti f Thi ill bl th t d t t



2 MSc-0665 obligatory ComputerIntegratedManufacturingSystems andTechnology

A detailed study of the principles and application of computer integrated manufacturing. Advancedconcepts and models related to computer-aideddesign, computer-aided process planning, computeraided manufacturing, production planning andscheduling.

This course will enable the student to: 1.Explain basic concepts of CIM systems2. To gain knowledge on howcomputers are integrated at variouslevels of planning and manufacturing. 3.Develop machining programs for CNCequipment 4. Design CIM systems to

fulfill certain requirements 5. Identifyand solve problems in the operations of CIM systems 6. Enhance performance of manufacturing systems by applyingdifferent CIM concepts and tools 7. Tounderstand the flexible manufacturingsystem and to handle the product dataand various software used formanufacturing

3 MSc-0131 obligatory Intelligentmanufacturingsystems

The aims of the course are to develop student abilityfor conceptual design and implementation of intelligent manufacturing systems and processes byusing the design theory, machine learning andevolutiveness, based on artificial intelligenceparadigms. After he/she becomes familiar with thestructure of intelligent manufacturing system basedon agents (robot, machine tool, machine learning,software, etc.) using laboratory equipment likemobile robots with sensors as well as simulationusing specialized software, the student will acquireknowledge necessary for the development of

advanced production technologies.

Implementation of software developedfor modeling and analysis of intelligentmanufacturing systems and processes.Independent selection of methods basedon the application of artificial neuralnetworks and other soft computing AItechniques in domain of conceptualdesign of intelligent behaviour of autonomous mobile robots inmanufacturing environment. Advancedutilization of the software forsimulation, with analysis and

presentation of the results obtained.Capability for team work.

3 MSc-0448 obligatory QualityManagement

1.The aims of the course are to familiarize the studentwith goods and services quality management,necessary for each engineer in his practical andresearch work. 2. The student should acquire newknowledge and develop new skills in: - basicconcepts, development and models of quality

Having successfully mastered theteaching contents of QualityManagement, the student should be ableto understand and solve issues of contemporary approaches to QM usingsystemic approach to business and

management (QM), - techniques for qualityengineering (TQE) and their application, - research

technological systems. The studentshould be competent of applying the



g g ( Q ) ppactivities in TQE, - demands and application of ISO9000 in practice, - demands of our economy forcooperation with EU and modes of meeting thosedemands in practice.

p pp y glatest generations of QM. The studentshould be capable of managing theprocesses of structuring our economy,as demanded by business operationsrelated to QM at the markets of developed countries.

3 MSc-0104 obligatory NewTechnologies The aims of introducing new technologies toproduction are top quality products, low-cost and

short-time manufacturing process. This course isintended for students of the Production EngineeringDepartment. Students are familiarized with moderntechnologies that make possible to extend knowledgeacquired in Manufacturing Technology andProduction Technologies and Metrology.

Having successfully mastered theteaching contents of New Technologies,the student should be able to: designtechnology for building complexmachine parts, design technology formanufacturing of cutting tools, tools forprocessing plastic masses, forging tools,supply and maintenance of accessories.

4 MSc-0542 obligatory Skill Praxis M -PRO

The student gains practical experience and getsfamiliarized with the future occupationalenvironment. The student identifies basic functions of the business system in the domain of design,development and manufacturing as well as the roleand tasks of the mechanical engineer within such abusiness system.

Students should become proficient inthe manner of organizing andfunctioning of the environment wherethey will apply the acquired knowledgein their future career. Students canidentify the models of communicationwith the colleagues and businessinformation flow. They can also identifybasic processes in the design,manufacturing, maintenance within thecontext of their future competences.Establishment of contacts andacquaintances are useful during

graduate studies as well as for applyingfor the job in the future.

1 MSc-0322 elective Sheet-MetalProcessing Tools

Acquisition of theoretical and practical knowledge inthe domain of the design, calculations andconstruction of tools for sheet-metal processing bypunching, drilling, bending, drawing, andcombination of these methods. The student acquires asound understanding of the importance of team work

1.Fundamental knowledge of sheet-metal processing tools. 2. Know-howthe approach to the design process. 3.Sound knowledge and understanding of the process. 4. Fundamental practicalknowledge of tools’ realization in

and cooperation in the area of the design based oncontemporary technologies and optimal solution.

industry.



p y g p

1 MSc-0240 elective CoordinateMeasuringMachines

1.New knowledge of flexible metrological automationfor solving ALL metrological problems inENGINEERING, especially in production engineering.2. Students should be equipped with new knowledgeand skills relevant to: - basic concepts, developmentand application of NCMM in engineering practice formeasuring, control and inspection of all types of tolerances, - research in the domain of NCMM(CMM), - further development of NCMM (CMM).

Having successfully acquired theteaching contents of this course, thestudent should be able to understandand solve metrological problems andapply the NCMM (CMM) totechnological systems. He should beable to efficiently understandengineering metrological problems andsolve them by using the concept of flexible metrological automation.

2 MSc-0722 elective ComputerSimulation inManufacturingAutomation

The objective of this course is that students: acquireknowledge and skills needed for practical problemssolving in manufacturing automation using computersimulation; to master the methods used for computersimulation modeling and implementation inmanufacturing automation; to obtain the knowledgeregarding the systematic approach to the project of computer simulation in manufacturing automation; todevelop critical approach to the effects of computersimulation application in automation; to get familiarwith the role of computer simulation within digitalfactory

During this course students: mastercontemporary methods for developmentof conceptual models for continuous anddiscrete event simulation within themanufacturing automation framework;obtain knowledge and skills needed formodel coding; gain practical experiencesin creation of computer simulation inmanufacturing automation throughgeneration of computer models forcontinuous, discrete event andcombined discrete event/continuoussimulation using contemporarysoftware; master the methodology of computer simulation projectmanagement

2 MSc-0331 elective New generationof machine toolsand robots

1. Perception of different levels of the new generationof machine tools and robots concept. 2. Acquisition of basics of reconfigurable, high-speed, meso- andmicro-machines and high-accuracy machine tools. 3.Practical knowledge about parallel kinematicmachines and machines for material additionprocesses and multi-axis machining. 4. Developmentof programming skills relevant for the newgeneration of machine tools and robots. 5.

1. Knowledge about the types and use of the new generation of machine tools androbots. 2. Knowledge about differentlevels of the new generation of machinetools and robots concept. 3. Skill to copewith the new generation of machinetools and robots environment and tochoose and prepare those machines foroperation. 4. Developed programming

Development of report-making skills. skills relevant for numerically controllednew generation of machine tools and



robots. 5. Knowledge about newnumerically controlled systems.

2 MSc-0222 elective Quality Systemand IntegratedManagemetSystems

1.Acquisition of new knowledge about standardizedmanagement systems and good practice in diverseareas and sub-systems of manufacturing-technological systems. 2. Acquisition of knowledgeand development of skills in: - basic concepts,development and management system standardizedmodels, - demands and application of these systems inpractice, - investigations in the IMS area, - furtherdevelopment of these models.

Having successfully mastered thecontents of this course, the studentshould be able to understand and solveproblems concerning contemporaryapproaches to quality management andother standardized models based onsystemic approach in business andtechnological systems. The knowledgeacquired will assist future engineers inour economy management, businessoperations’ demands at EU markets andthose of other developed countries,relevant to standardized managementsystems.

2 MSc-0319 elective Assemblysystems

1. Learning of systematic approach to the design andproduction of mechanical assemblies; 2.Understanding assembly process and basic assemblyoperations; 3. Impact of assembly process on productdevelopment – product structure and Design ForAssembly techniques; 4. Part mating process,modeling and understanding relationships betweenprecision, sensitivity and flexibility; 5. Basic conceptsof assembly systems – manual, automatic and roboticsystems; Assembly system design. Assemblyworkstation design issues; 6. Performance and

Economics of Assembly Systems; 7. Product lifecycleand product disassembly.

1. Understanding what is assembly, itsrole in production systems, and why it isimportant. 2. Fundamental knowledgeand engineering skills about: assemblysequence analysis and design of assembly process, design of automaticpart feeding and orienting, design forassembly (DFA) techniques,dimensioning and tolerancing of partsand assemblies, design of manual andautomatic assembly workstations and

systems, product disassembly and itsimpact on product lifecycle design.

3 MSc-0217 elective Expert Systems 1.Acquisition of new knowledge about the newgenerations of software products for solving variousengineering problems relevant to productionengineering. 2. Acquisition of knowledge anddevelopment of skills relevant to: - basic concepts,development and models of expert systems which are

The student should be able tounderstand, solve and develop modelsby means of ES in technologicalsystems. The student should also be ableto effectively understand engineeringproblems and develop their models by

possible to apply in production engineering, -investigations in the ES area, - further development of

using contemporary software tools.



ES.

3 MSc-0218 elective ComputerControl andMonitoring inManufacturingAutomation

Acquisition of knowledge about the application,design and introduction of modern computer controlsystems and supervisory into manufacturingautomation. Skill development for solving computercontrol nad supervisory problems by using computer,information and control technologies and adequatescientific methods.

The student should: 1. Uderstand theprinciples, place and role of thecomputer control system andsupervisoring in manufacturingautomation, link knowledge of relatedsubjects to apply it to control andsupervisoring in manufacturingautomation; 2. Master scientific methodsof analysis, synthesis, design andintroduction of computer controlsystems in manufacturing automation;3. Know practical problem-solving andhow to apply computer technology andmodern control systems in control andsupervisoring in manufacturingautomation.

3 MSc-0476 elective Machine tools M 1. To develop ability to perceive typical missions of machining systems. 2. To study machine toolsmechanisms and systems for their control andprogramming. 3. To receive training in testingprocedures for machine tools. 4. To develop ability toanalyze complex machine tools and machiningsystems equipment. 5. The develop ability to analyzethe resources for machine tools development. 6. Tostudy configuring and/or building of machine toolsfor planned mission. 7. To receive training for

realization of one mission of machine tools throughwriting the seminar work. 8. To know how to maketechnical projects.

1. Knowledge about typical missions of machining systems. 2. Basic knowledgeabout machine tools mechanisms andcontrol and programming systems of new generation. 3. Skill for qualityevaluation of machine tools andmachining system based on results of performed testing. 4. Skill foridentifying the generation of machinetool and machining system. 5. Skill for

configuring machine tool for one’s ownneeds. 6. Knowledge about availableresources for development and/orupgrading of machine tools andmachining systems.

3 MSc-0342 elective Mechatronicssystems

The aim of the course in mechatronics systems is toprovide a focused interdisciplinary theoreticalknowledge and practical experience for

1. Theoretical and practical knowledgehow to design and select analog anddigital circuits, microprocessor-based

undergraduate students that encompass fundamentalelements from traditional courses in mechanical

components, mechanical devices,sensors and actuators, so that the



engineering, production engineering, electronics andcomputer control engineering. These elementsinclude sensors and measurement theory, digitalsystems and computation, semiconductor electronics,servoactuators and motion control, machine tools androbotics, altogether focused in deeper understandingof mechatronics aspects of modern manufacturing

systems design, i.e., design of CNC machine tools,industrial robots and flexible production lines, basedon contemporary numerical and computer controltechnology.

manufacturing equipment, i.e ., machinetools, manipulating robots andmanufacturing lines achieve desiredfunction. 2. Deep understanding of basicprinciples of computer based numericalcontrol systems and their application inmachine tools, manipulating robots and

industrial automation systems design. 3.Microcontroller programming andhardware design skills.

3 MSc-0601 elective MicroManufacturingandCharacterization

The course's goals are: students should achieve a basicknowledge of micro-machining technologies throughstudy manufacturing and measuring systems andtheir functions in the micro scale, as well as thenecessary knowledge for the manufacturing andcharacterization of parts of contemporary materials;

students should study in details the chosen method;students will be trained to write term paper, elaborateon lessons learned and be able to continue practicingthis discipline in the profession either furthereducation or research in this area.

Student understands the principles of micro-manufacturing, connectingknowledge from related items in orderof their use in the manufacture of partsand characterization contemporarymaterials, mastery of scientific methods

of analysis, synthesis and design, appliedcomputer technology and develop acritical approach to social and economiceffects of the introduction of micro-manufacturing in our economy. Skillsand knowledge in this course will enablestudent participation in our economy,according to business requirements inthe markets of developed countries.

3 MSc-0575 elective Micro-nano

EngineeringBasics

Mastering the basic principles prevailing in the

micron and submicron region. Introduce students totheoretical foundations, principles and methods of manufacturing in the field of micro-and nano-engineering of various materials. Developing adifferent engineering approach realized throughaccess to examples and work on their own ideas.

After passing the examination the

student is able to understand theprinciples and use different technologiesfor manufacturing micro and nanostructures, devices and systems. Thestudent is familiar with actual examplesand encouraged towards the realizationof their ideas.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn the By gaining knowledge in this course,

elements of the dynamics of the oscillatory motion of a particle, the dynamics of variable mass particle,d d bl k f l

students will be able to efficiently solvecomplex problems in kinematics andd f l d l



advanced problems in kinematics of a particle,kinematics of a complex motion of a rigid body andmechanical system of rigid bodies as well as thedynamics of spherical and general rigid body motion,the approximate theory of gyroscope and the impacttheory.

dynamics of particle and materialsystem. This knowledge can allowstudents to attend classes in specializedcourses that analyze the kinematic anddynamic problems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow. Theessence in that sense is good understanding of fundamental equations of fluid mechanics. That goodunderstanding of the equations makes the process of finding the solution in particular engineeringproblems which are dealing with fluid flow mucheasier.

Learning the topics from the coursestudent will get the knowledge aboutbasic principles in fluid mechanics andcapabilities of analytical thinking, thenhow to apply the knowledge in practicalwork, and also to make the connectionbetween various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for a competentanalysis of the mechatronical composition, design of applied mechanism, selection of appropriate controlunit and creation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specified technicalrequirements.

Achievment of the engineering experisein a true analysis of mechanisms,sensors, actuators and PLCs as a maincomponenets of a mechatronicalsystem. Based on a well studied reverseengineering (analysis), a skillfulapproach to the direct design (synthesis)of an original mechatronical concept.


Student should gain knowledge in thermodynamicsand thermal devices and plants that are present inprocess engineering, thermal engineering and powerengineering. Through practical and theoreticaleducation should understand from thermodynamic

aspect the transformation of thermal energy intomechanical work and gain physical fundamentals onphenomena that go on in steam turbine, gas turbineand refrigeration devices as well as in plants fordrying various materials and air conditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants

and particular devices. The result of thiscourse is also acquiring fundamentalknowledge that serves as the basis foractive participation in other theoreticaland applicative courses.

Railway mechanical engineering




1 MSc-0282 obligatory Rail vehicles 1 1. Understanding different constructions of thefreight wagons and passenger coaches 2.Acquiring the knowledge necessary tounderstand the functioning of wagon or coachassemblies 3. Application of knowledge in thedesign, development, repair and maintenanceof wagons and coaches

After completion of the course the studentshould be able to: 1. Explain the functional andstructural characteristics of various types of rolling stock. 2. Explain the tasks andfunctioning principles of the assemblies of therail vehicles. 3. Identify actions required toresolve failures in operation and maintenanceof rail vehicles. 4. Apply appropriateregulations and standards for design andmaintenance of railway vehicles. 5. Applicatecomputer tools for calculating and designingrail vehicles.

1 MSc-0297 obligatory Theory of Traction

Knowledge acquiring in designing, productionand exploitation of railway vehicle, indesigning of rail tracks as well as the

organization of railway traffic. Introducingstudents with: - The Forces acting on railwayvehicle, - Calculation methods for traction,resistance and braking force and the velocity,using modern computer tools, - The methodsfor determination of optimal movementconditions of railway vehicles, - Ways of solving practical problems related to themovement of railway vehicles and rail tracksconfiguration.

Understanding and ability to apply knowledgeacquired in: - Calculation of traction,resistance and braking forces and the velocity,

using compatible computer software, -Defining Task and compositional functionalityof railway vehicles, - Using of adequateregulations and standards in the field of traction at railway vehicles.

2 MSc-0245 obligatory Rail vehicles 2 1. Understanding different constructions of thefreight wagons and passenger coaches 2.Acquiring the knowledge necessary tounderstand the functioning of wagon or coachassemblies 3. Application of knowledge in thedesign, development, repair and maintenanceof wagons and coaches

After completion of the course the studentshould be able to: 1. Explain the functional andstructural characteristics of various types of rolling stock. 2. Explain the tasks andfunctioning principles of the assemblies of therail vehicles. 3. Identify actions required toresolve failures in operation and maintenanceof rail vehicles. 4. Apply appropriate

regulations and standards for design andmaintenance of railway vehicles. 5. Applicate

t t l f l l ti d d i i



computer tools for calculating and designingrail vehicles.

2 MSc-0246 obligatory Brakes of railvehicles

1. Introducing the brake system of railwayvehicles. 2. Acquiring the knowledge necessaryto understand the functioning of rail vehiclebrake system components. 3. Training for theapplication of knowledge in the design,development, repair and maintenance of thebrakes.

After completion of the course the studentshould be able to: 1. Explain the functional anddesign characteristics of various types of brakes. 2. Explain the tasks and functioningmode of brake system assemblies. 3. Identifyactions required to be aplied in case of malfunctions of the break system duringoperation and maintenance. 4. Applyappropriate regulations and standards fordesign and maintenance of rail vehicle brakes.

2 MSc-0243 obligatory Locomotive 1 1. Introduction student to the basic conceptsimportant for understanding the designing of diesel locomotives. 2. Knowledge acquiringnecessary for understanding the designing of diesel locomotives. 3. Competence for use theknowledge acquired in solving practicalproblems in designing, use and maintenance of diesel locomotives.

In the end of the course student should be ableto: 1. Explains basic concepts concerning diesellocomotives. 2. Explains tasks and operationmode of diesel locomotives. 3. Accomplishcertain calculations concerning diesellocomotives. 4. Apply certain standards andregulations in the field of diesel locomotives. 5.Use computers tools for certain calculation of diesel locomotives.

3 MSc-0230 obligatory Locomotive 2 1. Introduction student to the basic conceptsimportant to understanding the the designingof diesel-electric and electric locomotives. 2.Knowledge acquiring necessary forunderstanding the designing of diesel-electricand electric locomotives. 3. Competence for

use the knowledge acquired in solving practicalproblems in designing, use and maintenance of diesel-electric and electric locomotives.

In the end of the course student should be ableto: 1. Explains basic concepts concerningdiesel-electric and electric locomotives. 2.Explains tasks and operation mode of diesel-electric and electric locomotives. 3.Accomplish certain calculations concerning

diesel-electric and electric locomotives. 4. Usecomputers tools for certain calculation of diesel-electric and electric locomotives. 5.Apply certain standards and regulations in thefield of diesel-electric and electric locomotives.

3 MSc-0234 obligatory Railway vehiclesmaintenance

Upon completion of the course the studentshould be able to: 1. Explain the basic concepts

1. Understanding the basic concepts importantfor understanding the reliability and

related to the reliability of rail vehicles. 2.Explain the basic concepts related to the

i t f il hi l 3 E l i th

maintenance of rail vehicles. 2. Acquiring theknowledge necessary to understand the

bl f i t f il hi l 3



maintenance of rail vehicles. 3. Explain thetasks and practices of the workshop for themaintenance of railway vehicles. 4. Performappropriate calculations related to maintenanceof rail vehicles. 5. Apply appropriate tools forcomputer calculations of electric and dieselelectric locomotives.

problems of maintenance of rail vehicles. 3.Preparation to implement the acquiredknowledge in solving practical problems inmaintaining the railway vehicles related to theorganization, implementation and projectedactivities in the field of application of knowledge and information and the reliability

of expert systems.3 MSc-0453 obligatory Fundamentals of

Rail VehicleDynamics

1. Acquiring knowledge about the dynamicbehavior of rail vehicles. 2. Exploring methodsfor studying the dynamic behavior of railvehicles. 3. Training for the application of knowledge in the design, development, repairand maintenance of railway vehicles.

After completion of the course the studentshould be able to: 1. Explain the characteristicphenomena of dynamic behaviour of railvehicles. 2. Apply computational methods fordetermining the main parameters of thedynamic behaviour of the rail vehicles. 3.Participate in the preparation of the testprocedures for tests of the dynamic behaviourand proper assesment of the test results. 4.

Apply appropriate regulations for building orrefurbishment of rolling stock in order toachive the prescribed dynamic behaviour.

4 MSc-0488 obligatory Skill Praxis M -ZEM

Students practical experience and stay in theenvironment in which the student will realizehis professional career. Identifying the basicfunctions of the business system in the field of development, designing, production,maintenance of railway vehicles, as well as theroles and tasks of mechanical engineer in such

a business system.

Students get practical experience on theorganization and functioning of theenvironment in which they will apply theirknowledge in their future professional career.Student identifies models of communicationwith colleagues and business informationflows. The student recognizes the basic

processes in the designing, manufacturing,maintenance, in the context of his futureprofessional competence. Establish thepersonal contacts and acquaintances that willbe able to use at school or entering into futureemployment.

3 MSc-0239 elective Urban andspecial rail

1. Understanding the specifics of urban railvehicles. 2. Understanding the various types of

After completion of the course the studentshould be able to: 1. Explain the functional and

vehicles special rail vehicles. 3. Qualification for theapplication of acquired knowledge in thedesign development repair and maintenance

design specificity of various types of urban railvehicles. 2. Explain the tasks and functionalityof various types of special rail vehicles 3



design, development, repair and maintenanceof urban rail vehicles and special vehicles

of various types of special rail vehicles. 3.Explain the specific technologies and technicalrequirements in combined transport. 4. Applyappropriate regulations and standards in thedesign and maintenance of urban rail vehiclesand special rail vehicles.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatorymotion of a particle, the dynamics of variablemass particle, advanced problems in kinematicsof a particle, kinematics of a complex motionof a rigid body and mechanical system of rigidbodies as well as the dynamics of spherical andgeneral rigid body motion, the approximatetheory of gyroscope and the impact theory.

By gaining knowledge in this course, studentswill be able to efficiently solve complexproblems in kinematics and dynamics of particle and material system. This knowledgecan allow students to attend classes inspecialized courses that analyze the kinematicand dynamic problems.


The goal of the course is to teach the studentthe basics and applications in science of fluidflow. The essence in that sense is goodunderstanding of fundamental equations of fluid mechanics. That good understanding of the equations makes the process of finding thesolution in particular engineering problemswhich are dealing with fluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basic principlesin fluid mechanics and capabilities of analyticalthinking, then how to apply the knowledge inpractical work, and also to make theconnection between various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit and

creation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors,actuators and PLCs as a main componenets of a mechatronical system. Based on a well

studied reverse engineering (analysis), askillful approach to the direct design(synthesis) of an original mechatronicalconcept.


Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process engineering,

After completing the course, including quizzesand tests and successfully passed exam,students shall be ready to independently

thermal engineering and power engineering.Through practical and theoretical educationshould understand from thermodynamic aspect

perform thermodynamic calculations of simpler thermal plants and particular devices.The result of this course is also acquiring



should understand from thermodynamic aspectthe transformation of thermal energy intomechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for drying variousmaterials and air conditioning of corresponding

spaces.

The result of this course is also acquiringfundamental knowledge that serves as thebasis for active participation in othertheoretical and applicative courses.

Thermal power engineering


1 MSc-0289 obligatory Energy SteamBoilers 1

Reaching the competence and academic skillsand methods for it's acquiring. Developingcreative capabilities and mastering thespecific practical skills. Goals determine the

specific results which should be achievedwithin the subject. Goals also represent basisfor control of the achieved results. Activitiesin this subject are in accordance with basictasks and goals of the study program.

Student acquires specific capabilities which areneeded for carrying out professional activities:analysis, synthesis and anticipating the resultsand consequences; use of knowledge from

different areas for solving specific problems.

1 MSc-0274 obligatory Steam Turbines 1 1. The achievement of academic competencein the field of steam turbines and thermalpower engineering. 2. The achievement of theoretical knowledge about how totransform heat into mechanical work

learning thermodynamic processes andequipment (steam turbine and steam turbinepower plants). 3. The acquisition of practicalknowledge to optimize thermodynamic cycleand steam turbines. 4. The achievement of the techniques of process modeling. 5.Mastering the methods of experimental workin thermal power engineering.

1. Academic deep knowledge of thethermodynamic cycle and flows in steamturbines and steam turbine plants 2. Thedevelopment of critical thinking about energyuse, fuel efficiency and environmental

preservation 3. The ability of calculate heatbalance diagrams and main parameters of thesteam turbine power plants. 4. Ability to usecomputer technology for modeling andcalculations

2 MSc-0300 obligatory Gas Turbines 1. The achievement of academic competencein the field of gas turbines and thermal powerl t i i 2 M t f th ti l

1. Academic deep knowledge of thethermodynamic cycle and flows in gas turbines

d t bi l t 2 Th d l t f



plant engineering. 2. Mastery of theoreticalknowledge about how to transform heat intomechanical work of thermodynamicprocesses and equipment (gas turbines andgas turbine power plants). 3. The acquisitionof practical skills for design and optimizationof gas and gas turbine cycle. 4. Mastering the

techniques of process modeling.

and gas turbine plants 2. The development of critical thinking about energy use, fuelefficiency and environmental preservation 3.The ability of calculate heat balance diagramsand main parameters of the gas turbine powerplants. 4. Ability to use computer technologyfor modeling and calculations

2 MSc-0174 obligatory Steam Turbines 2 1. The achievement of academic competencein the field of steam turbines and thermalpower engineering. 2. The achievement of theoretical knowledge about how totransform heat into mechanical worklearning thermodynamic processes andequipment (steam turbine and steam turbinepower plants). 3. The acquisition of practicalknowledge to optimize thermodynamic cycle

and steam turbines. 4. The achievement of the techniques of process modeling. 5.Mastering the methods of experimental workin thermal power engineering.

1. Academic deep knowledge of thethermodynamic cycle and flows in steamturbines and steam turbine plants 2. Thedevelopment of critical thinking about energyuse, fuel efficiency and environmentalpreservation 3. The ability of calculate thesteam turbines. 4. Ability to use computertechnology for modeling and calculations. 5.Ability to apply experimental methods in

development and practice.

2 MSc-0194 obligatory Thermal PowerPlants

Familiarizing with the procedures of choosing type and sort, parameters andconfiguration of a thermal power plant,according to requirements of energyconsumption, available sources of primaryenergy, energetic and economic

performances and other relevant criteria.Furthermore, gaining knowledge onfunctional and technological characteristics of certain technological thermal power plantsystems. The practice course is based on theimplementation of certain practicalknowledge from the course program, bysolving specific examples.

The program provides the practical knowledgea graduated mechanical engineer needs in orderto work in the field of thermal powerengineering, which enables him to solve certainpractical problems more easily and quickly.Such competence includes mastering the

procedures of analytic and syntheticconsideration of choice of type and sort of thermal power plant in the procedure of planning and design, as well as inclusion intothe process of exploitation and maintenance.

3 MSc-0129 obligatory Steam generators The aims of the subject are acquiringacademic knowledge about processes andequipment for steam generation in thermal

Mastering the course the students are able tosimulate and analyze processes, designequipment and prescribe operational conditions



equipment for steam generation in thermalpower plants, building and mastering skills inscientific and engineering methods for theprediction, analyses and research of thermal-hydraulic processes in steam generators, aswell as skills in methods for the design, safetyanalyses and diagnostics of the operational

conditions of the steam generators.

equipment and prescribe operational conditionsin steam generators by applying the modernscientific and engineering methods for variousconditions of exploitation. Also, the applicationof acquired knowledge and skills in every stageof design, manufacture and exploitation providethe safe, reliable and economically and

energetically efficient operation of steamgenerators.

3 MSc-0105 obligatory Energy Planning The aims of the subject are to master themethods for the analyses and planning of themacro energy systems at the level of economy and industry sectors, regions andthe country, including analyses and formationof energy balances, prediction of energyflows and the structure of energyconsumption, classification of energy carriers

and indicators of energy consumption, therelation between the economic growth andenergy consumption, the state regulative inthe energy sector, the environmental impactof energy consumption etc.

Students acquire a knowledge and skills relatedto energy planning by using statistical andeconometric methods and by applying thephenomenological models, as well as related tomethods for providing the basis for planningprocedures, such as analyses and preparation of energy balances, prediction of indicators of energy consumption, etc.

3 MSc-0165 obligatory Planning andExploitation of Thermal PowerPlants

The purpose of this course is to providenecessary knowledge base in the area of planning and design, contracting andacceptance testing, exploitation andmaintenance of thermal power plants. The

course practice program consists of thecreation of a simplified conceptual project of the power plant based on the implementationof certain practical knowledge gained duringthe course.

The program provides the practical knowledgea graduated mechanical engineer needs in orderto work in the field of thermal powerengineering, which enables him to solve certainpractical problems more easily and quickly.

Such competence includes mastering theprocedures of analytic and syntheticconsideration of choice of type and sort of thermal power plant in the procedure of planning and design, as well as inclusion intothe process of exploitation and maintenance.

4 MSc-0356 obli ator Skill Praxis M - Practical ex erience and residence in an Students ain ractical ex erience re ardin the

TEN environment where students will be able torealize their professional careers. Recognizingthe principle functions of a business system in

means of organizing and functioning of theenvironments in which they will apply thegained knowledge in their future professional



the principle functions of a business system inthe domain of design, development andproduction, as well as the role and tasks of amechanical engineer in such a businesssystem.

gained knowledge in their future professionalcareers. Students will be able to recognizemodels of communication with colleagues andbusiness information flows. Students will beable to recognize the basic processes in design,production, maintenance, in the context of theirfuture professional competencies. Personal

contacts and acquaintances are made, whichthey will be able to use during their studies, orwhen starting their professional careers.

1 MSc-0345 elective Nuclear Reactors The aims of the subject are acquiringacademic knowledge about processes andequipment for nuclear energy utilization,about neutron processes and fission,principles of nuclear reactors design, reactorcore cooling, nuclear fuel characteristics,transport and storage of nuclear waste,

nuclear reactors safety, nuclear accidents inNuclear Power Plants Three Mile Island,Chernobyl and Fukushima, as well as currentnuclear reactors developments.

Students are able to design nuclear reactor core,determine the thermal and neutroncharacteristics of nuclear fuel, moderator andreactor coolant, define basic elements of nuclearpower plant safety and determine basictechnical, technological, ecological andeconomic conditions and boundaries for the

application of nuclear energy.

2 MSc-0325 elective Two-Phase Flowswith PhaseTransition

The aim is acquiring academic knowledgeabout two-phase flow patterns, mechanismsof transport processes in two-phase flows,intensity of evaporation and condensationand methods for two-phase flows simulationand analyses within design, safety analyses

and prescription of operating conditions andparameters of energy plants.

The students are trained to perform computersimulation and analyses of gas-liquid two-phaseflows within design of energy plants, safetyanalyses, operating conditions diagnostics,defining of operating conditions, etc.

2 MSc-0355 elective EnvironmentalProtection inThermal PowerEngineering

The aim is acquiring academic knowledgeabout sources and characteristics of hazardous gases emission and other harmfulinfluences in all phases of thermal powerplants exploitation, about the environmentalinfluence of harmful emissions, about

The students master their knowledge and skillsin the field of environmental protection fromthe harmful emissions from the thermal powerplants. Besides being acquainted with thesources of harmful emissions and methods andequipment for their reduction and storage, the

possible technical solutions, processes andequipment for the emission reduction,harmful waste storage, as well as about the

students are trained to quantify harmfulemissions and to estimate the technical,ecological and economical effects of current



harmful waste storage, as well as about theimportance of these activities for economicand social development.

ecological and economical effects of currentmethods and measures for environmentalprotection.

2 MSc-0337 elective ThermalTurbomachinery

1. The achievement of academic competencein the field of steam and gas turbines andthermal power engineering. 2. Theachievement of theoretical knowledge abouthow to transform heat into mechanical worklearning thermodynamic processes andequipment (steam and gas turbines andthermal power plants). 3. The acquisition of practical knowledge to optimizethermodynamic cycle and steam and gasturbines. 4. The achievement of thetechniques of process modeling. 5. Masteringthe methods of experimental work in thermalpower engineering.

1. Academic deep knowledge of thethermodynamic cycle and flows in steam andgas turbines and turbine plants 2. Thedevelopment of critical thinking about energyuse, fuel efficiency and environmentalpreservation 3. The ability of calculate heatbalance diagrams and main parameters of thesteam and gas turbine power plants. 4. Abilityto use computer technology for modeling andcalculations

3 MSc-0338 elective Industrial andDistrict HeatingThermal PowerPlants

The purpose of the course is to provide aknowledge basis in the field of specificapplication of thermal power plants for thecombined production of electric energy andheat within industrial and utility thermalpower engineering. In the development of modern thermal power engineering,application of cogeneration is gainingrelevance, due to significant primary energysavings. The practice program consists of

creating calculation tasks for thecogeneration regimes, based on theimplementation of certain gained practicalknowledge in the course program.

The course provides the practical knowledge agraduated mechanical engineer needs in orderto work in the field of combined production of energy, which is gaining relevance and stimulusfor application worldwide, due to significantprimary energy savings. Given that the field of application of cogeneration of energy in theprocess of planning and design is the mostcomplex area of thermal power engineering,gaining competitive knowledge in the field is of

great importance for a thermal power engineer.

3 MSc-0153 elective Computersimulations of thermalhydraulicprocesses and

The aim is acquiring knowledge and skills fordevelopment and application of analytical andnumerical models of thermal-hydraulicprocesses in energy, thermal and process

The students are trained to perform computersimulation and analyses of heat transfer andfluid flow processes of one-phase and two-phasegas-liquid systems with and without phase

CFD equipment, as well as application of numerical methods for the simulation andanalyses of one-phase and two-phase systems

transitions in energy, thermal and processequipment.



analyses of one phase and two phase systemsin pipelines and plant equipment, includingthe methods of Computational FluidDynamics - CFD.

3 MSc-0585 elective Technical andTechnologicalDevelopment andInnovationActivity

The aims of the subject are mastering themethods for the planning and conductingtechnical and technological development andinnovative project , as well as acquiringknowledge in the corresponding fields, suchas intellectual property, patent rights, legalregulations, economic evaluation of innovative projects etc.

Students acquire knowledge about developmentmechanisms of technical, technological andinnovative development, methods for planning,control and conducting of development projectsand research, about economic evaluation of investment, intellectual property, patent andproduction rights.

3 MSc-0336 elective Turbocompressors 1. The achievement of academic competencein the field of compressors and thermalpower plant engineering. 2. Mastery of theoretical knowledge about how totransform mechanical work into internal

energy of fluid by learning of thermodynamicprocesses and equipment. 3. The acquisitionof practical skills for design and optimizationof turbocompressors. 4. Mastering thetechniques of process modeling.

1. Academic deep knowledge of thethermodynamic cycle and flows in gas turbinesand gas turbine plants 2. The development of critical thinking about energy use, fuelefficiency and environmental preservation 3.

The ability to make design of compressors. 4.Ability to use computer technology formodeling and calculations

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learnthe elements of the dynamics of theoscillatory motion of a particle, the dynamicsof variable mass particle, advanced problemsin kinematics of a particle, kinematics of a

complex motion of a rigid body andmechanical system of rigid bodies as well asthe dynamics of spherical and general r igidbody motion, the approximate theory of gyroscope and the impact theory.

By gaining knowledge in this course, studentswill be able to efficiently solve complexproblems in kinematics and dynamics of particle and material system. This knowledgecan allow students to attend classes in

specialized courses that analyze the kinematicand dynamic problems.


The goal of the course is to teach the studentthe basics and applications in science of fluid

Learning the topics from the course student willget the knowledge about basic principles in fluid

flow. The essence in that sense is goodunderstanding of fundamental equations of fluid mechanics. That good understanding of

mechanics and capabilities of analyticalthinking, then how to apply the knowledge inpractical work, and also to make the connection



g gthe equations makes the process of findingthe solution in particular engineeringproblems which are dealing with fluid flowmuch easier.

p ,between various subjects from mechanicalengineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit andcreation of flow-chart diagram. Engineeringskill development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors, actuatorsand PLCs as a main componenets of amechatronical system. Based on a well studiedreverse engineering (analysis), a skillfulapproach to the direct design (synthesis) of anoriginal mechatronical concept.


Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process engineering,thermal engineering and power engineering.

Through practical and theoretical educationshould understand from thermodynamicaspect the transformation of thermal energyinto mechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for drying variousmaterials and air conditioning of corresponding spaces.

After completing the course, including quizzesand tests and successfully passed exam, studentsshall be ready to independently performthermodynamic calculations of simpler thermal

plants and particular devices. The result of thiscourse is also acquiring fundamental knowledgethat serves as the basis for active participationin other theoretical and applicative courses.

Thermal science engineering


1 MSc-0269 obligatory Steam Boilerselements andequipments

Reaching the competence and academic skillsand methods for it's acquiring. Developingcreative capabilities and mastering the specific

Student acquires specific capabilities whichare needed for carrying out professionalactivities: analysis, synthesis and anticipating

practical skills. Goals determine the specificresults which should be achieved within thesubject. Goals also represent basis for control of

the results and consequences; use of knowledge from different areas for solvingspecific problems.



j pthe achieved results. Activities in this subject arein accordance with basic tasks and goals of thestudy program.

p p

1 MSc-0291 obligatory RefrigerationEquipment

AAchieving of competence and academic skillsas well as methods for their acquisition. Thedevelopment of creative abilities and practical

skills which are essential to the profession.Objectives are concrete and achievable and infull accordance with the defined basic tasks andobjectives of the study program.

Student acquires subject-specific abilities thatare essential for the quality of professionalactivities: analysis, synthesis and prediction

of solutions and consequences; application of knowledge in practice; linking the basicknowledge in various fields with theirapplication to solve specific problems.

2 MSc-0304 obligatory Fundamentals of Air Conditioning

Getting knowledge in Air Conditioning - thermalcomfort , heat gain and cooling load, air handlingunit and its elements, mastering methods forcalculating cooling loads for non-stationaryconditions of heat transfer and using thosemethods in air conditioning project design.

Student acquires specific abilities andknowledge in air conditioning: he knows theelements of a central air conditioning system,methods of cooling load calculations and hecan use it in practice. Student links basicknowledge and apply it in solving concrete

problems in air conditioning.

2 MSc-0176 obligatory Steam Boilerprocessing

Reaching the competence and academic skillsand methods for it's acquiring. Developingcreative capabilities and mastering the specificpractical skills. Goals determine the specificresults which should be achieved within thesubject. Goals also represent basis for control of the achieved results. Activities in this subject arein accordance with basic tasks and goals of thestudy program.


2 MSc-0192 obligatory RefrigerationSystems

Achieving of competence and academic skills aswell as methods for their acquisition. Thedevelopment of creative abilities and practicalskills which are essential to the profession.Objectives are concrete and achievable and infull accordance with the defined basic tasks andobjectives of the study program.

Student acquires subject-specific abilities thatare essential for the quality of professionalactivities: analysis, synthesis and predictionof solutions and consequences; application of knowledge in practice; linking the basicknowledge in various fields with theirapplication to solve specific problems.

3 MSc-0137 obligatory Ventilating andAir ConditioningSystems

Getting knowledge and skills in air conditioning- various central air conditioning systems;mastering methods for calculating air ducts,

Student acquires specific abilities andknowledge in air conditioning: he knowsvarious central air conditioning system,



Systems mastering methods for calculating air ducts,choosing elements for intake and extract of air,and using those methods in air conditioningproject design.

various central air conditioning system,methods of air ducts calculations and he canuse it in practice. Student links basicknowledge and apply it in solving concreteproblems in air conditioning.

3 MSc-0110 obligatory Thermal PowerPlants and HeatPlants

Reaching the competence and academic skillsand methods for it's acquiring. Developingcreative capabilities and mastering the specificpractical skills. Goals determine the specificresults which should be achieved within thesubject. Goals also represent basis for control of the achieved results. Activities in this subject arein accordance with basic tasks and goals of thestudy program.


3 MSc-0166 obligatory Heat Pumps Achieving of competence and academic skills aswell as methods for their acquisition. Thedevelopment of creative abilities and practicalskills which are essential to the profession.Objectives are concrete and achievable and infull accordance with the defined basic tasks andobjectives of the study program.

Student acquires subject-specific abilities thatare essential for the quality of professionalactivities: analysis, synthesis and predictionof solutions and consequences; application of knowledge in practice; linking the basicknowledge in various fields with theirapplication to solve specific problems.

4 MSc-0357 obligatory Skill Praxis M -TTA

Practical experience and the student presence inthe environment in which the student willrealize his professional career. Identifying thebasic functions of the business system in thefield of design, development and production, aswell as the roles and tasks of mechanical

engineer in such a business system.

Students get practical experience on theorganization and functioning of theenvironment in which they will apply theirknowledge in their future professional career.Student identifies models of communicationwith colleagues and business information

flows. The student recognizes the basicprocesses in the design, manufacture,maintenance, in the context of his futureprofessional competence. Students areestablishing the personal contacts andacquaintances that will be able to use duringstudies or entering into future employment.

1 MSc-0661 elective Central HeatingSystems

Acquiring knowledge and skills in the field of central heating - hot water two-pipe systemswith natural and forced circulation of hot water,

Students acquire specific skills andknowledge of central heating systems:knowledge of different heating systems,



hot water one-pipe systems, steam heatingsystem of low pressure, air heating, panelheating, district heating, solar systems,mastering the methods for calculation of pipenetwork.

g g yknown methods of calculation of centralheating systems and can apply them inpractice. Connects basic knowledge andapply it to solve concrete problems in thetechnique of heating.

2 MSc-0313 elective Energy Steam

Boilers 2

Reaching the competence and academic skills

and methods for it's acquiring. Developingcreative capabilities and mastering the specificpractical skills. Goals determine the specificresults which should be achieved within thesubject. Goals also represent basis for control of the achieved results. Activities in this subject arein accordance with basic tasks and goals of thestudy program.

Student acquires specific capabilities which

are needed for carrying out professionalactivities: analysis, synthesis and anticipatingthe results and consequences; use of knowledge from different areas for solvingspecific problems.

3 MSc-0667 elective Energycertification of

buildings

Acquiring knowledge and skills in the field of energy certification of buildings - the concept of

energy building certificate, building energyconsumption, energy needs and significantparameters; comfort conditions and designparameters, central heating and air conditioningsystems, energy sources, final and primaryenergy, domestic hot water systems;optimization of HVAC systems and theapplication of passive techniques, methodologyof calculation of indicators, classification of buildings by type and energy codes; elaborationof energy efficiency, energy certificate.

Students acquire specific skills andknowledge in the field of energy certification

of buildings; known methods for thecalculation of indicators to determine theenergy code of the building and can beapplied in practice. Connects the basicknowledge and applies them to theelaboration of energy efficiency of thebuilding.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatorymotion of a particle, the dynamics of variablemass particle, advanced problems in kinematicsof a particle, kinematics of a complex motion of a rigid body and mechanical system of rigidbodies as well as the dynamics of spherical and

By gaining knowledge in this course, studentswill be able to efficiently solve complexproblems in kinematics and dynamics of particle and material system. This knowledgecan allow students to attend classes inspecialized courses that analyze the kinematicand dynamic problems.

general rigid body motion, the approximatetheory of gyroscope and the impact theory.

1 MSc 0685 obligatory Fluid mechanics The goal of the course is to teach the student the Learning the topics from the course student




The goal of the course is to teach the student thebasics and applications in science of fluid flow.The essence in that sense is good understandingof fundamental equations of fluid mechanics.That good understanding of the equations makesthe process of finding the solution in particularengineering problems which are dealing with

fluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basic principlesin fluid mechanics and capabilities of analytical thinking, then how to apply theknowledge in practical work, and also tomake the connection between varioussubjects from mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit and creationof flow-chart diagram. Engineering skilldevelopment to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors,actuators and PLCs as a main componenets of a mechatronical system. Based on a wellstudied reverse engineering (analysis), askillful approach to the direct design(synthesis) of an original mechatronicalconcept.

1 MSc-0202 obligatory ThermodynamicsМ Student should gain knowledge inthermodynamics and thermal devices and plants

that are present in process engineering, thermalengineering and power engineering. Throughpractical and theoretical education shouldunderstand from thermodynamic aspect thetransformation of thermal energy intomechanical work and gain physicalfundamentals on phenomena that go on in steamturbine, gas turbine and refrigeration devices aswell as in plants for drying various materials and

air conditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready toindependently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of this course isalso acquiring fundamental knowledge thatserves as the basis for active participation inother theoretical and applicative courses.

Weapon systems


1 MSc-0687 obligatory Aerodynamics of Introducing students to the fundamentals of The student is able to work independently on

Projectiles aerodynamic calculations. Introducing studentsto the fundamentals of structure andimplementation of programs for the calculation

the calculation of aerodynamiccharacteristics of guided and unguidedprojectiles. Student is qualified for



of missile aerodynamics. Introducing to theexperimental methods in aerodynamics.

experimental work in the field of aerodynamic test methods.

1 MSc-0688 obligatory Flight Dynamicsof Projectiles

Introducing students to the fundamentals of calculation and modeling of flight dynamics.Introducing students to the fundamentals of structure and implementation of programs for

modeling of flight dynamics. Introduction toexperimental methods of flight testing.

The student is able to work independently oncalculation and modeling of flight dynamicsof guided and unguided projectiles. Student isqualified for experimental work in the field

of flight tests.

1 MSc-0271 obligatory Physics of ЕxplosiveProcesses

The goal of course is that students learn the basicprinciples of combustion of materials andphysics of explosion which are of importance forthe realization of a function of weapon systems.Students should learn the contents of the processof explosion and burning of gunpowder androcket propulsion materials as integratedchemical-technological systems.

Mastering calculations of physics of explosion processes that influence onwarhead mechanisms and target efficiency.Student understand influencing parameterson the energy release by combustionprocesses and form a scientific andexperimental base for the development andcreation of new knowledge in the field of

energetic materials and energy releaseprocesses in defense technologies andproducts.

2 MSc-0181 obligatory AutomaticWeapons

Introducing of students to the basic elements of the automatic weapons. Formation of the systemof differential equations that describe themovement of elements of the mechanisms of automatic weapons during the firing cycle. Thestudy of methods for solving these differentialequations. Preliminary design of various systems

of automatic weapons.

Mastering the calculation of basic parametersthat characterize the function of varioussystems of automatic weapons. Acquiring theability of students to create their ownsoftware tool for preliminary design of anautomatic weapon. Qualifications for thedesign of individual elements of the

automatic systems and optimisation of function of different types of automaticweapons.

2 MSc-0196 obligatory Projectile Design The main objective of the course is that studentsunderstand the importance, the basic conceptsand methods of projectile design as an integralpart of the science of weapons systems. Students

Student gets contemporary knowledge aboutthe main types of projectiles (high-explosive,armor-piercing, special) and the basics of their design. Student could use methods of

should understand the key ideas about the typesand purpose of projectiles, safety in the use andmechanisms of action.

calculation of different types of projectiles.



2 MSc-0167 obligatory Launchingequipment

Goal of subject is to achieve student knowledgein two basic launcher equipment Sub systems.Sub systems of equipment and devices forshooting and missiles positioning and launching,and subsystems of equipment and devices forother defense and military integrated functions

available on the self-propelled weapon launcher.Student through practical project research of concept and component integration realizeknowledge of software and hardware integrationon the launcher and new technologiesimplementation on the self propelled or portableweapon missile launching Systems.

Student realizes skills and knowledge forindividual integrating of launcher weapon,their conceptual solutions and criticalthinking and opinion about advantages forapplied Systems and sub systems. Alsolauncher and its equipment is integrative

design system test for knowledge of missilesystem design and defense functions. Studentthrough practical selections of functions andits solutions gets knowledge of compromisesin technology possibilities and thresholdperformances of practical use and itsrequirements.

2 MSc-0689 obligatory MissilePropulsion

Introducing students to the fundamentals of determination of rocket engines performanceparameters. Introducing students to the design

of rocket engines with liquid and solidpropellants, as well as special units of liquidrocket engines. Fundamentals of thrust vectorcontrol of rocket motors. Introduction tomethods of rocket engines testing.

Student is capable for work on calculationand design of rocket engine with solid andliquid propellants. Student is also qualified

for experimental work in the field of rocketengine testing.

2 MSc-0195 obligatory LaunchingTheory

The basic purpose of the subject is aimed to thestudent knowledge and skills of appliedlaunching ballistic mechanics, gas dynamics of missiles starting motion, on-in, the launcher, andrelative interactive motions of combat platforms

and launcher .The basic theoretical goal is tointroduce students with simplified models of disturbances mechanics and to calculate criticaldisturbance cases and their influences on thelaunching and final missile shooting errors. Also,goals are to evaluate global design performancesof launcher by functional and exploitationcombat loads, as the input for strain and stress

Student achieve capabilities for individualanalyzes, preliminary integration andsyntheses of launching mechanics applied onthe launcher mounted on the combatplatform of any type or design. Accepted

methodology provides student ability tocalculate and verify missile weaponefficiency, by recognizing loads anddisturbances composed in the missile weaponerrors, caused by tube, rail or containerlauncher type and their processes, integratedand jointed with the combat platforms, of any vehicle or vessel.

integration analyses.

2 MSc-0184 obligatory Interior Ballistics Study of methods of solving the basic task of interior ballistics and ballistic design The study

Mastering the calculation of direct andindirect task of interior ballistics of various



interior ballistics and ballistic design. The studyof the basic characteristics of special types of weapons. Consideration of methodology of interior ballistic tests.

indirect task of interior ballistics of varioustypes of weapons, and the methodology of interior ballistic tests.

3 MSc-0691 obligatory TerminalBallistics

The main goal of the subject is that studentsunderstand the importance, the basic concepts

and methods of terminal ballistics, as an integralpart of the science of weapons systems. Studentsshould understand the key ideas about theprojectile/target interaction and their use inprojectile design as well as ballistic protection.

Student gets contemporary knowledge aboutthe main types of projectile effects

(penetration, fragmentation and blast) andthe fuzes as an important functional part of the projectile in terms of terminal ballistics.Student masters calculation methods of alltypes of projectile effects and their use.

3 MSc-0690 obligatory Missile Guidanceand Control

Acquiring knowledge about projectile guidanceand control and its application in the areas of research and development, design,manufacturing, marketing, operational use andanalysis of modern guided missiles. Mastering

the methodology of calculation of dynamiccharacteristics of guided missiles(maneuverability, controlability, stability, eigen-frequencies, etc..) and synthesis of autopilot andguidance law for a method of "three-point" andproportional navigation.

Student obtains general knowledge in theareas of analysis and synthesis of guidedmissile systems, which enables participationand communication in the working teamsinvolved in the development of guided

missiles. Using modern software toolsdeveloped in MATLAB and Simulink,students are qualified for the calculation of trajectories of guided missiles, the calculationof aerodynamic transfer functions andsynthesis of autopilot and guidance system of a missile. Student possess basic knowledge of verification and assessment of quality of guided missiles.

3 MSc-0123 obligatory Optical devices

andoptoelectronics

The aim of this course is to enable students,

future mechanical engineers - designers of military systems, the acquisition of knowledgenecessary to the cooperation with the designersof complex optical and optoelectronic systems.After completion of lectures and exercises,students should be able to set and calculate basicoptical systems.

The subject allows students, future

mechanical engineers - designers of militarysystems to: - Set up basic optical systems(lenses, working systems, oculars, Kepler andGalileo's scheme of telescope system); -Calculate an optical system usingsophisticated codes for optical system design.

3 MSc-0101 obligatory ArtilleryWeapons Design

Detailed analysis of design solutions forindividual elements of artillery weapons.Detailed study of design methodologies for the

i l l f P i l

Mastering the calculation of basic parametersthat characterize the function of individualpieces of artillery systems. Acquiring thebili f d h i



main structural elements of weapons. Practicalimplementation of calculations for basicstructural elements of artillery weapon throughthe realisation of projects.

ability of students to create their ownsoftware tool for the design of individualstructural elements of artillery weapons.Qualifications for the design of the mainstructural elements of artillery systems.

3 MSc-0112 obligatory Missile design Goal of subject is to achieve student in detail

contents of missiles subsystems its integrationand key performances of flight and terminalphase, functions. Goal of knowledge’s aredirected on the technology roll and influences onthe particular quality and quantity of missilesperformances .Missile is considered as the flightvehicle and ammunition for the different payloadpurposes and defense missions .Studentdeveloping detailed skills and knowledge fordesign, analyzes, syntheses of missiles androckets and about its advanced technologyapplications on the component design itsresearch and methodology of calculations anddevelopment.

Student achieve level of individual designer

of tactical missiles and other jobs andpurposes of missile syntheses .Also, studentis accomplished for the analyzes andsyntheses of all levels and types in the missileand ammunition rocket technologies by toolsof applied mechanics and software analyzesof integrative rocket and missile technologiesand performances .Parametric compositionof missile flight mechanics, special ballisticsand rocket propulsion propellantsperformances and other interdisciplinaryintegration selection and estimations, iscomprehension output of subject

3 MSc-0111 obligatory Fire ControlSystems

Goal of subject is orientated to the studentknowledge about basic technologies integratedin the battle that provides precise engagementand reliable shooting of target by direct, indirector other type of weapon fire. Modern systemsemployed and design by the basic knowledgeabout LOS, NLOS, and other shooting elementsand principles understand sensor principles,automatic devices and software proceedings,based on ballistic shooting elements. Modernnavigation and position principles of weapon firerepresented by fundamental vectoral battlemechanics, of platforms motion, targets andprojectiles flight in FCS composition models.

Student is trained and educated to solveindividual employment of weapon and theirintegrations of performances with other nonweapon helping defense equipment and battlefunctions. Those understand shootingfunctions precision positioning and errorsestimation, preparing weapon for selectedtarget mission, and ballistics and flightmechanics estimation for optimal targetshooting. Also student achieve basicknowledge for Command information battletechnology and weapon fire precision striketechnology. Software, autoimmunization andmechatronics sensor integration, in the

Processes are represented by artillery, AD, BMD,and armored vehicles battle mechanics andplatforms and units integrated systems.

battlefield mechanics of unsteady statevectoral proposals provides FCS softwareand hardware knowledge, for weapond i



designers.

4 MSc-0692 obligatory Skill Praxis M -SIN

Practical experience and student's stay in theenvironment in which he will realize hisprofessional career. Identifying the basicfunctions of the business system in the field of design, development and production, as well as

the roles and tasks of mechanical engineer insuch a business system.

Students get practical experience on theorganization and functioning of theenvironment in which they will apply theirknowledge in their future professional career.Student identifies models of communication

with colleagues and business informationflows. The student recognizes the basicprocesses in the design, manufacture,maintenance, in the context of his futureprofessional competence. Personal contactsand acquaintances are established thatstudent will be able to use during study orentering into future employment.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatory

motion of a particle, the dynamics of variablemass particle, advanced problems in kinematicsof a particle, kinematics of a complex motion of a rigid body and mechanical system of rigidbodies as well as the dynamics of spherical andgeneral rigid body motion, the approximatetheory of gyroscope and the impact theory.

By gaining knowledge in this course, studentswill be able to efficiently solve complex

problems in kinematics and dynamics of particle and material system. This knowledgecan allow students to attend classes inspecialized courses that analyze thekinematic and dynamic problems.


The goal of the course is to teach the student thebasics and applications in science of fluid flow.The essence in that sense is good understanding

of fundamental equations of fluid mechanics.That good understanding of the equations makesthe process of finding the solution in particularengineering problems which are dealing withfluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basic principlesin fluid mechanics and capabilities of

analytical thinking, then how to apply theknowledge in practical work, and also tomake the connection between varioussubjects from mechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronical

Achievment of the engineering experise in atrue analysis of mechanisms, sensors,

composition, design of applied mechanism,selection of appropriate control unit and creationof flow-chart diagram. Engineering skilld l t t th i ti l

actuators and PLCs as a main componenets of a mechatronical system. Based on a wellstudied reverse engineering (analysis), akillf l h t th di t d i



development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

skillful approach to the direct design(synthesis) of an original mechatronicalconcept.


Student should gain knowledge inthermodynamics and thermal devices and plantsthat are present in process engineering, thermal

engineering and power engineering. Throughpractical and theoretical education shouldunderstand from thermodynamic aspect thetransformation of thermal energy intomechanical work and gain physical fundamentalson phenomena that go on in steam turbine, gasturbine and refrigeration devices as well as inplants for drying various materials and airconditioning of corresponding spaces.

After completing the course, includingquizzes and tests and successfully passedexam, students shall be ready to

independently perform thermodynamiccalculations of simpler thermal plants andparticular devices. The result of this course isalso acquiring fundamental knowledge thatserves as the basis for active participation inother theoretical and applicative courses.

Welding and welded structures


1 MSc-0267 obligatory Engineeringmaterials 3

The aim of this course is to introduce studentsto different types of engineering materials andtheir properties with the goal of understandingand studying the possibility of their applicationfor manufacturing of different elements andconstructions. Special attention is devoted to

studying the influence of composition,thermical proccesing and processing by plasticdeformation on the structure and properties of the material. This course enables possiblecollabortions with institutes, companies andfactories that make and construct engineeringmaterials and deal with their application.

Attending this course student will developabilities of all encompassing analysis andpossibility to predict optimal techno-economical choice of the type of engineeringmaterial using scientific methods and modernlab equipment. Due to this course a student

will also develop the ability to combineknowledge from different areas of materialscience, physics, mechanics and strength of materials together with aquired knowledgeduring this course.

1 MSc-0468 obligatory Finite elementmethod

Understanding the basic concepts of theory of elasticity and finite element method.Introducing students to the application of finiteelement method in the analysis of linear and

By attending this course the student willmaster advanced application of finite elementmethod, especially in the field of welding andwelded structures Theoretical considerations



element method in the analysis of linear andnonlinear problems. Understanding andstudying the problems of coupled externalloads on welded structures. The developmentof an independent and practical work usinglicensed software.

welded structures. Theoretical considerations,computational exercises and work with thelicensed ABAQUS software, will allow studentsto synergize the previously acquiredknowledge of mathematics, mechanics,structures integrity and mechanical materials,

and apply this knowledge in engineeringpractice.

1 MSc-0266 obligatory Fuel, Lubricantsand IndustrialWater 2

Fuel types. Stoichiometric combustionequations. Combustion temperature.Characterization of solid fuels, technical andfundamental analysis. Solid fuel origins,derivation, applications. Liquid fuels, origins,derivation, applications. Gaseous fuels, origins,derivation, applications. Lubricants, types andmain characteristics, applications. Industrialwater, types and properties. Essentialcharacteristics of the water for industrialpurposes. Problems in the use of naturalwaters. Water treatment for industrialapplications.

Acquisition of basic knowledge about theconcept of fuel types and properties. Masteringthe basic techniques of calculation of quantityand composition of the products of combustionand combustion temperature. Acquiring basicknowledge on the characterization of solidfuels, their origins, derivation and application.Basic knowledge of liquid and gaseous fuels,their origins, derivation and application. Basicknowledge about the types of lubricants,properties and application. Basic knowledgeabout water treatment for industrialapplications.

2 MSc-0373 obligatory Design andConstruction M

Acquisition of basic knowledge of designingand constructing machinery elements andstructures. Mastering the methods of construction and design process. Developingskills of teamwork and interconnectingknowledge and skills in various fields of Mechanical Engineering. Training for furtherstudy.

Students will gain knowledge, skills andattitudes in the process of constructing in thefield of machinery design, as well as experiencein selection of the optimal variant design basedon techno economic analysis.

2 MSc-0173 obligatory Structural andstress analysis

Basic goal of this course is introduction toprinciples in design and calculation of steelstructures for wide range of material handlingmachines (mining machines, earthmovingmachines, cableways and lifts). Also, goal is

Student expands the knowledge in structuralanalysis for material handling machines withemphasis on identification of specificload/stress cases which may lead to failures of structures.

development of student creative skills fordesigning the light but safe structures, i.e.rational structures.



2 MSc-0305 obligatory OperationalStrength

Registration and statistical analysis of theoperational load, the formation of itshistograms, the distribution functions, spectraand blocks. Fatigue damage accumulationhypotheses. Calculations of working ability,operational strength, security and reliability

and operational life of machine parts andmachines exposed to varying operationalloads. Experimental methods for fatiguestrength estimation and treating of results.

Methods for registration and statistical analysisof the operational load. The definition of fatigue damage and the process flow of itsaccumulation using theoretical andexperimental methods with appropriatedamage hypotheses. Establishment of

appropriate criteria for the occurrence of critical fatigue damage phenomena anddetermination of operational fatigue life. Thereduction of results from the variable spectrato equivalent results for the full constantamplitude spectra.

3 MSc-0481 obligatory Structuralintegrity

Objectives of this course are that students,after completing theoretical basic training infracture mechanics, and with their maximuminvolvement in practical training (through

laboratory exercises, development of computational tasks, writing seminar papers,etc..), become competent in the field of structural integrity and gain appropriateacademic skills, and also develop specificcreative and practical skills that are needed inprofessional practice.

By attending this course, provided by thecurriculum of the subject, the student will beable to solve particular problems of structuralintegrity, and to examine the possible

consequences that may occur in case of badsolutions. The student will also able to linktheir knowledge in this field with other areasand apply them in practice.

3 MSc-0486 obligatory Reliability of structures

Acquisition of basic knowledge about thereliability of mechanical components andstructures. Mastering the methods of

determining the reliability of simple andcomplex systems. Developing skills of teamwork and networking knowledge andskills in various fields. Training for furtherstudy. Consideration of the importance failurefrom technical and economic point of view,mastering the skills to assess the failureassessment, based on the cause-events

Upon completion of this program is expectedthat students will be able to: - recognize therandom variables of machine elements and

constructions, - apply analytical andapproximate methods for determining thebasic reliability indicators, - draw and use thediagrams of basic indicators of reliability, -interpret the results of basic reliabilityindicators obtained from calculations or tests, -solve engineering problems in the area ofreliability.

established classifications.

3 MSc-0497 obligatory Specialized joining

After the completion of the course 'Specialized Joining Techniques', that includes theoretical

Upon completion of the designed courseprogramme, the candidate will be familiar with



j gtechniques

J g q ,and practical lectures (auditory and laboratoryexercises, problem solving, seminar work,consultations, etc.), the students are familiarwith modern processes and non-conventionalmaterial joining techniques, that are constantlybeing developed and applied in the new

modern material joining technologies. Thecandidates will also master the specificpractical skills needed in their profession.

p g ,the processes and procedures in the research of specific fields in modern joining technologies.The applied knowledge in the field of Specialized Joining Techniques will enable thecandidate to gain the ability to recognize andsolve specific problems. Thus, he is prepared to

link and apply the acquired knowledge to thisand other fields and to track innovations, e.g.in the joining of future materials (for instance,special steels, light metals and alloys, ceramics,composites, polymers, nano-materials).

3 MSc-0469 obligatory Weldingtechnology

Understanding the basic principles of weldingtechnology as a prescribed course of action tobe followed when making a weld. Introducingstudents to techniques of material selection,preparation, preheating, methods and control

of welding and subsequent thermal treatment.Understanding and solving exercises inwelding technology. Development of anindependent paper by creation andpresentation of selected seminar papers.

By attending the course the students aremastering the basic knowledge of weldingtechnology. Theoretical considerations andcomputational examples enable the student tomaster all the necessary principles of welding

technology needed for the manufacture of welded joints. Introducing students to currentmodern standards and recommendations in thisfield.

4 MSc-0156 obligatory Skill Praxis M -ZZK

Objectives of this course are that students,after completing theoretical training, areprepared for their maximum involvement inpractical training. Objective is that studentsbecome competent in the field of welding and

gain appropriate academic skills, and alsodevelop specific creative and practical skillsthat are needed in professional practice.

By attending this course, provided by thecurriculum of the subject, the student will beable to solve particular problems frompractice, and to examine the possibleconsequences that may occur in case of bad

solutions. The student will also able to linktheir knowledge from various fields and applythem in practice.

1 MSc-0004 obligatory Mechanics M The aim of this course is that students learn theelements of the dynamics of the oscillatorymotion of a particle, the dynamics of variablemass particle, advanced problems in

By gaining knowledge in this course, studentswill be able to efficiently solve complexproblems in kinematics and dynamics of particle and material system. This knowledge

kinematics of a particle, kinematics of acomplex motion of a rigid body andmechanical system of rigid bodies as well asthe dynamics of spherical and general rigid

can allow students to attend classes inspecialized courses that analyze the kinematicand dynamic problems.



the dynamics of spherical and general rigidbody motion, the approximate theory of gyroscope and the impact theory.


The goal of the course is to teach the studentthe basics and applications in science of fluidflow. The essence in that sense is good

understanding of fundamental equations of fluid mechanics. That good understanding of the equations makes the process of finding thesolution in particular engineering problemswhich are dealing with fluid flow much easier.

Learning the topics from the course studentwill get the knowledge about basic principles influid mechanics and capabilities of analytical

thinking, then how to apply the knowledge inpractical work, and also to make theconnection between various subjects frommechanical engineering.

1 MSc-0201 obligatory Mechatronics Quantum of knowledge acquired for acompetent analysis of the mechatronicalcomposition, design of applied mechanism,selection of appropriate control unit andcreation of flow-chart diagram. Engineering

skill development to synthesize an optimalmechatronical solution to fulfil specifiedtechnical requirements.

Achievment of the engineering experise in atrue analysis of mechanisms, sensors, actuatorsand PLCs as a main componenets of amechatronical system. Based on a well studiedreverse engineering (analysis), a skillful

approach to the direct design (synthesis) of anoriginal mechatronical concept.


Student should gain knowledge inthermodynamics and thermal devices andplants that are present in process engineering,thermal engineering and power engineering.Through practical and theoretical educationshould understand from thermodynamicaspect the transformation of thermal energy

into mechanical work and gain physicalfundamentals on phenomena that go on insteam turbine, gas turbine and refrigerationdevices as well as in plants for drying various

t i l d i diti i f

After completing the course, including quizzesand tests and successfully passed exam,students shall be ready to independentlyperform thermodynamic calculations of simpler thermal plants and particular devices.The result of this course is also acquiringfundamental knowledge that serves as the basis

for active participation in other theoretical andapplicative courses.

asiin master

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