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Aviation Mechanics Engineering

Language of instruction

english, lithuanian

Qualification degree and (or) qualification to be awarded

Bachelor of Engineering Sciences

Place of delivery

Vilnius, Saulėtekio al. 11, LT-10223

Institution that has carried out assessment

No data

Institution that has performed accreditation, accreditation term

Studijų kokybės vertinimo centras, 5/30/2030

Data provided or updated (date)

3/5/2018

Order on accreditation

SV6-27
More about programme

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Summary of the Profile

General Description:
Objective(s) of a study programme:
Educate aviation mechanics engineering specialists, by providing knowledge on fundamental sciences, aeronautics engineering, engineering design and management, developing the skills of organising aircraft technical maintenance work, solving problems in aviation mechanics engineering, designing aircraft mechanical equipment, also the understanding of the impact of aircraft improvement and technical maintenance on transport infrastructure, the importance and impact of engineering decisions on the development of society, the continuous need for improvement of qualifications and competences in order to participate in the global aviation engineering market.
Learning outcomes:
Knowledge and implementation:
Will have knowledge and systematic understanding of the fundamentals of natural, fundamental and engineering sciences, necessary to understand the fundamentals of aviation mechanics engineering, key theoretical and applied fundamentals and concepts.
Will have coherent fundamental knowledge of aviation mechanics engineering corresponding to the study programme in an interdisciplinary engineering context, including EASA Part 66 requirements, and will be able to apply the methods and processes of other scientific fields.

Research abilities:
Will be capable of finding the necessary scientific and professional information using databases and other information sources, planning and carrying out experiments and analyses, processing and assessing their data as well as drawing conclusions.
Will have the skills of working with the equipment used in aeronautics engineering study field corresponding to the study programme.

Engineering analysis:
Will be able to apply their knowledge and understanding to solve problems related to aeronautics engineering study field by formulating and analysing engineering tasks, and will solve them by selecting appropriate methods, experimental and production equipment.
Will be able to select and apply appropriate analytical and modelling methods used in aeronautics engineering study field corresponding to the study programme.

Engineering design:
Will be able to apply the knowledge of aeronautics engineering study field and design methodologies when creating and implementing various projects meeting specific requirements, drawing and modelling new aircraft structures, and will understand the link between technological decisions and economic impact.

Engineering activity abilities:
Will be able to combine theoretical and applied knowledge for solving complex engineering tasks related to aircraft structures and engines, other engineering problems, understand and assess the ethical, environmental, and commercial conditions of aeronautics engineering activity.
Will be able to select and apply appropriate methods, means and equipment for implementing aviation mechanics engineering solutions, will have knowledge of the structure of such engineering equipment, its operating principles, functions, and have basic skills of using it.
Will understand the organisational principles of engineering activity, importance and requirements of occupational health and safety, and fire safety and will be able to apply them to professional activity in any workplace.

Personal and social abilities:
Will be able to work effectively both individually and in a team, to communicate with the engineering community and the public, to understand the importance of individual life-long learning and be ready for it.
Will have a holistic understanding of the impact of engineering decisions on the society and environment, will adhere to the norms of professional ethics and engineering activity, and understand the responsibility for it.
Activities of teaching and learning:
Interactive lectures and problem based learning, laboratory works, practices, demonstration lectures, individual or team work tasks, excursions, case studies, reports and papers, information search and summarising, study of research and study literature, presentations, design project using CAD.
Methods of assessment of learning achievements:
Cumulative assessment system: individual work tasks and tests, reports of laboratory works and practices, course and complex projects, defence of final thesis.
Framework:
Study subjects (modules), practical training:
The results of the study program are implemented through study subjects in the study process, which can be found on the website www.vgtu.lt.
Specialisations:
None
Optional courses:
Free choice study modules offered by VGTU
Distinctive features of a study programme:
Graduates will have knowledge on fundamental sciences, aeronautics engineering, engineering design and management, and the skills of organising aircraft technical maintenance work, solving problems in aviation mechanics engineering, designing aircraft mechanical equipment, will understand the impact of engineering decisions on the development of society, the continuous need for improvement of qualifications and competences in order to participate in the global aviation engineering market.

Access to professional activity or further study:
Access to professional activity:
Graduates of the study programe can become engineers in various aircraft maintenance, repair, manufacturing and design companies.
Access to further study:
Access to the second cycle studies.