Learning Outcomes

Professional competencies (PC)

PC1. Ability to analyse materials, structures and processes based on laws, theories and methods of mathematics, natural sciences and applied mechanics

PC2. Ability to evaluate the performance parameters of materials, structures and machines in operating conditions and find appropriate solutions to ensure a given level of reliability of structures and processes, including in the presence of some uncertainty

PC3. Ability to conduct technological and technical and economic assessment of the effectiveness of new technologies and technical means

PC4. Ability to make the optimal choice of technological equipment, complete set of technical complexes, to have basic ideas about the rules of their operation

PC5. Ability to use analytical and numerical mathematical methods to solve problems of applied mechanics, in particular to calculate the strength, endurance, stability, durability, rigidity in the process of static and dynamic loading to assess the reliability of parts and structures of machines

PC6. Ability to perform technical measurements, obtain, analyse and critically evaluate measurement results

PC7. Ability to use computerized systems of design (CAD), production (CAM), engineering research (CAE) and specialized application software to solve engineering problems in applied mechanics

PC8. Ability to spatial thinking and reproduction of spatial objects, structures and mechanisms in the form of projection drawin GS 0 and three-dimensional geometric models

PC9. Ability to present the results of its engineering activities in compliance with generally accepted norms and standards

PC10. Ability to describe and classify a wide range of technical objects and processes, based on a deep knowledge and understanding of basic mechanical theories and practices, as well as basic knowledge of related sciences

PC11. Ability to choose rational approaches and technical means to creation, testing and operation of control systems of technical objects and systems, machines and mechanisms with means of mechanics, hydropneumatic automation, electromechanics, mechatronics and robotics

PC12. Ability to use modern approaches and tools of computer-aided design to create automated mechanical systems, machines, systems of hydropneumatic automation, electromechanics, mechatronics and robotics and their components with the implementation of specified functions, performance characteristics and efficiency indicators

PC13. Ability to use design tools, justify and develop rational design solutions for automated mechanical systems, machines, hydropneumatic systems, electromechanics, mechatronics and robotics and their elements and units, in accordance with the specified operational, functional, economic, ergonomic and other practical tasks

PC14. Ability to use modern approaches and tools of computer-aided design to create automated mechanical systems, machines, systems of hydropneumatic automation, electromechanics, mechatronics and robotics and their components with the implementation of specified functions, performance characteristics and efficiency indicators

PC15. Ability to use modern tools to develop mathematical and simulation models of automated mechanical systems, machines, hydropneumatic systems, electromechanics, mechatronics and robotics and their components to determine the rational design and operating parameters, modes and conditions of operation, evaluation of functionality and efficiency computer simulation

Program learning outcomes

LO1. Choose and apply for solving problems of applied mechanics suitable mathematical methods

LO2. To use knowledge of theoretical bases of mechanics of liquids and gases, heat engineering and electrical engineering for the decision of professional problems

LO3. Perform calculations for strength, endurance, stability, durability, rigidity of machine parts

LO4. Evaluate the reliability of parts and structures of machines in the process of static and dynamic loading

LO3. Perform calculations for strength, endurance, stability, durability, rigidity of machine parts

LO6. To create and theoretically substantiate the design of machines, mechanisms and their elements on the basis of methods of applied mechanics, general principles of design, the theory of interchangeability, standard methods of calculating machine parts

LO7. Apply regulatory and reference data to monitor compliance of technical documentation, products and technologies with standards, specifications and other regulatory documents

LO8. Know and understand the basics of information technology, programming, practical use of application software to perform engineering calculations, information processing and experimental results research

LO9. Know and understand related fields (fluid and gas mechanics, heat engineering, electrical engineering, electronics) and be able to identify interdisciplinary links in applied mechanics at the level required to meet other requirements of the educational program

LO10. Know the design, methods of selection and calculation, basics of maintenance and operation of drives of machine tools and robotic equipment

LO11. Understand the principles of automated control systems of technological equipment, including microprocessors, choose and use the optimal means of automation

LO12. Have skills in the practical use of computer-aided design (CAD), production preparation (CAM) and engineering research (CAE)

LO13. Evaluate the technical and economic efficiency of production

LO14. Carry out the optimal choice of equipment and equipment of technical complexes

LO15. Take into account by making decisions the main factors of man-made impact on the environment and the main methods of environmental protection, labor protection and life safety

LO16. Communicate freely on professional issues orally and in writing in the state and foreign languages, including knowledge of special terminology and interpersonal skills

LO17. Take into account and choose rational technologies for the manufacture of structural elements and assembly of units and devices in the development of new and modernization of known design solutions

LO18. To develop rational constructive decisions of the automated mechanical systems, machines, systems of hydropneumatic automation, electromechanics, mechatronics and robotics and their elements and units, according to the set characteristics by the solving of practical problems

LO19. Design automated mechanical systems, machines, systems of hydropneumatic automation, electromechanics, mechatronics and robotics and their components with the use of computer tools, and provide functions, performance characteristics and performance indicators of design objects

LO20. To determine rational design and operational parameters, efficiency, modes and conditions of operation of automated mechanical systems, machines, systems of hydropneumatic automation, electromechanics, mechatronics and robotics and their components, by computer and imitation modelling

LO21. To build rational technical solutions for automation of the set functions by means of hydroautomatics and electromechanics with providing of certain parameters, modes and conditions of operation as a part of the automated mechanical systems and machines

LO22. To develop rational technical solutions of control systems of technical objects and systems, machines and mechanisms with means of mechanics, hydropneumatic automation, electromechanics, mechatronics and robotics with provision of certain parameters, modes and conditions of operation of automated mechanical systems and machine