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Mechanical engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
Aims of study program in Mechanical Engineering are dedicated to prepare first-cycle specialists in the field of technology providing them with sufficient mathematics and other physical sciences, technological sciences, engineering design knowledge and skills in mechanical engineering. This will lead to develop skills and knowledge required for global engineering, high technology develop the ability to apply that knowledge and create new ones. The acquired knowledge and skills of technological science the graduates would be able to combine with the basics of business and management, communication with specialists and non-specialists; perceive the influence and importance of engineering decisions on the development of society; have developed the ability to learn independently, be able to maintain their professional competence through lifelong learning
Learning outcomes:
1.Knowledge and understanding.
The student knows and understands the basics of natural sciences and mathematics required to understand the fundamentals of the field of mechanical engineering;
knows and systematically understands the essential theoretical and applied bases and concepts of the field of study of mechanical engineering;
has consistently linked basic knowledge of mechanical engineering;
is able to theoretically understand new technologies;
knows about materials used in engineering and their properties. The Student knows the broader multidisciplinary context of engineering;
is able to apply methods and processes in other fields of science.
2.Engineering analysis.
has ability to select and apply appropriate analytical and modeling methods in the field of mechanical engineering.
Student has basic software skills, is able to apply and use numerical computer methods to solve specific engineering problems; use computers to obtain and process problem-solving data, process control, automated design, computer graphics, use other computer functions.
The student is able to apply subject knowledge in solving qualitative and quantitative tasks of known and unknown nature;
is able to identify and analyze new technological science problems and plan strategies to solve them;
is able to select and apply appropriate methods of analysis and modeling.
3. Engineering design.
The student knows the methods and techniques for the design, construction and manufacture of mechanical equipment and components; the technical means used for these operations and their control methods, and the principles of quality assurance. Student is able to design systems, processes and their elements; understand design methodologies and apply them.
4. Research.
The student is able to find the necessary scientific and professional information using databases and other sources of scientific and engineering information; has skills in practical research, planning, designing and performing experiments, starting with problem formulation, selection of research equipment and evaluation and qualification of results;
is able to choose appropriate methods and methodologies and perform reliable measurements;
has the skills to work with equipment, monitor and measure quantitative and qualitative physical properties, events or changes, and systematically record and document them.
5. Practical activities
The student is able to select and apply appropriate methods, tools and equipment for the implementation of engineering solutions;
knows the constructions, operating principles, functions of engineering equipment, has the initial skills to use them, has safe work skills;
is able to combine theory and practice in solving mechanical engineering problems;
understands the principles of organization of engineering activities, the importance of work and human safety and the basic requirements, the interaction of engineering activities.
6. Personal skills.
The student is able to work effectively independently and in a team;
knows how to communicate with the engineering community and the general public;
has developed a holistic approach to making professional decisions, balancing cost, safety, quality, reliability and environmental impact;
has the ability to evaluate engineering decisions from an ethical, social, economic and safety point of view; understands the importance of individual lifelong learning and is prepared for it.
Activities of teaching and learning:
Mechanical Engineering study programme is oriented to the development of generic and specialist competences and creativity: lectures, seminars, discussions, individual and group projects, practice, case studies, public presentation and defense of projects, mind-maps, problem-solving reading, writing articles, information search and systematizing, etc.
Methods of assessment of learning achievements:
The assessment of the learning outcomes of the study programme is carried out during the semester and the examination session applying a cumulative assessment system. During the semester, the learning outcomes are assessed by means of interim assignments: tests, individual and group projects, case studies, information search and systematizing, discussions, essays, independent creative tasks, seminars, practice reports, examinations, final projects.
Framework:
Study subjects (modules), practical training:
Study subjects (206 ECTS): Professional Communication, Professional Foreign Language, Basics of Management, Economics, Project Management, Physics, Informatics, Materials Science, Theoretical Mechanics, Mathematics, Engineering and Computer Graphics, Environmental and Human Safety, Mechanic of materials, Electrical Engineering and Electronics, Thermodynamics, Measurements, Machine Elements and Mechanisms, Hydromechanics, Manufacturing Technologies, Technological Equipment, Computer-aided Manufacturing Design, Technical Maintenance of Equipment and other.
Optional subjects (20 ECTS).
Practice (19 ECTS), Final work (15 ECTS)
Specialisations:
no
Optional courses:
Machine repair technologies, robotic systems, technological devices; energy efficiency in technological processes, free electives, electives of general education subjects.
Distinctive features of a study programme:
The study program is focused on industrial enterprises, which are dominated by modern production and equipment, relevant reliability of technical equipment, their diagnostics, computer design and analysis of structures.
Access to professional activity or further study:
Access to professional activity:
After obtaining a bachelor's degree in mechanical engineering, graduates can work as mechanical engineers in various industrial enterprises (food, chemical, furniture, textile, etc.), designers - designers in design companies, technical consultants, managers of industrial enterprises or its divisions, technical project managers.
Access to further study:
Access to the second cycle studies upon meeting requirements set by the accepting higher education institution.
