Program learning outcomes (PLO)
PLO1. To communicate freely orally and in writing in state and foreign languages on professional issues.
PLO2. Understand environmentally hazardous and harmful factors of professional activity and adjust its content in order to prevent negative impact on the environment.
PLO3. Have the means of modern information and communication technologies to the extent sufficient for training and professional activities.
PLO4. Explain their decisions and the basis for their adoption to specialists and non-specialists in a clear and unambiguous form.
PLO5. Have the skills of self-study and autonomous work to improve professional skills and solve problems in a new or unfamiliar environment.
PLO6. To form substantiated assessments of the actions of state bodies and other political institutions from the standpoint of universal, democratic values, the priority of human and civil rights and freedoms.
PLO7. Have the logic and methodology of scientific knowledge, based on an understanding of the current state and methodology of the subject area.
PLO8. Comply with the requirements of industry regulations on the procedures for design, manufacture, testing, operation and (or) certification of elements and objects of aerospace and rocket technology at all stages of their life cycle.
PLO9. Explain the influence of design parameters of elements of aviation and rocket and space technology on its flight characteristics. Have an idea of the methods of ensuring the stability and controllability of aviation and rocket and space technology.
PLO10. Have the skills to determine the loads on the structural elements of aviation and space technology at all stages of its life cycle.
PLO11. Understand the principles of fluid and gas mechanics, in particular, hydraulics, aerodynamics (gas dynamics).
PLO12. Describe the structure of metals and nonmetals and know the methods of modifying their properties. Assign optimal materials for elements and systems of aerospace and rocket technology, taking into account their structure, physical, mechanical, chemical and operational properties, as well as economic factors.
PLO13. Understand the features of work processes in hydraulic, pneumatic, electrical and electronic systems used in aerospace and rocketry.
PLO14. Describe experimental methods for studying the structural, physical-mechanical and technological properties of materials and structures.
PLO15. Apply in professional activities modern methods of design, construction and production of elements and systems of aviation and space technology.
PLO16. Calculate the stress-strain state, determine the ineffectiveness of structural elements and the reliability of aerospace and rocket systems.
PLO17. Understand and justify the sequence of design, manufacture, testing, operation and (or) certification of elements and systems of aerospace and rocketry.
PLO18. Understand the structure and principles of operation of onboard and navigation equipment of aviation and space technology.
PLO19. Understand and justify the design features and basic aspects of work processes in systems and elements of aerospace and rocket technology.
PLO20. Understand the theoretical principles and practical methods of instrumental interchangeability of parts of aerospace and rocket technology.
PLO21. Have the skills to develop technological processes, including the use of automated computer-aided design of the production of structural elements and systems of aerospace and rocketry.
PLO22. Assess the economic efficiency of production of elements and systems of aviation rocket and space technology.
PLO23. Understand how operational factors affect the design of aircraft, engines and their systems.
PLO24. Have basic knowledge of the organization of maintenance and repair of aircraft.
PLO25. Have a basic knowledge of methods and tools for diagnosing aircraft, engines and their systems.
PLO26. Have basic knowledge to ensure compliance of aircraft with the requirements of regulatory and technical documentation and standards of airworthiness and flight safety