Aerospace Engineering Thesis M.S. Program
Program Outcomes
- Possesses advanced knowledge in one or more subfields of aerospace engineering and applies this knowledge effectively in engineering practices and solution processes.
- Follows current scientific and technological developments in the field, identifies research problems, generates solutions using appropriate methods, and interprets the results.
- Employs analytical thinking and numerical methods in solving complex engineering problems and, when necessary, develops and applies appropriate experimental approaches.
- Uses appropriate modeling, analysis, simulation, and experimental methods for complex engineering problems, evaluates the results, and makes engineering decisions.
- Clearly and systematically communicates scientific and technical knowledge in written and oral form, works effectively in intra-disciplinary and interdisciplinary teams, and assumes leadership when necessary.
- Acts with professional ethics and awareness of social and environmental responsibility and evaluates the possible impacts of engineering solutions.
- Understands the importance of lifelong learning and effectively uses methods to access new knowledge.
- Is aware of fundamental engineering problems related to national aerospace, defense, and energy technologies and possesses the competence to contribute to these areas.
Last Updated:
27/08/2025 - 08:45