| Code |
15090
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| Year |
3
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| Semester |
S1
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| ECTS Credits |
6
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| Workload |
TP(60H)
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| Scientific area |
Aeronautics and Astronautics
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|
Entry requirements |
N/A.
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Mode of delivery |
Face-to-face
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Work placements |
There is no work placement.
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Learning outcomes |
- Know how to model and analyze the flight dynamics of fixed-wing aeronautical vehicles;
- Know how to numerically simulate flight dynamics.
The skills expected from the knowledge acquired in this course are:
- Be able to model the flight dynamics of an aircraft both in the design phase and in the operation phase;
- Be able to design computational flight simulation systems;
- Be able to contribute efficiently to research projects related to flight dynamics and simulation.
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Syllabus |
1. Numerical Methods
2. Atmospheric Flight Coordinate Systems
3. Attitude Dynamics
4. Forces and Moments
5. Static Stability Analysis
6. Flight Dynamics Models (Longitudinal/Lateral-directional)
7. Flight Dynamics Analysis (Longitudinal/Lateral-directional)
8. Flight Simulation
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Main Bibliography |
1. M.V. Cook, Flight Dynamics. Arnold Publishers, 2009.
2. B. Etkin, L.D. Reid, Dynamic of Flight. Stability and Control. John Wiley & Sons, 1996.
4. D. McLean, Automatic Flight Control Systems, Prentice Hall, 1990.
5. R.C. Nelson, Flight Stability and Automatic Control. 2nd. Edition, McGraw-Hill, 1998.
6. Research papers on specific and current topics related to flight dynamics and simulation (will be made available to the students in due time by the lecturer).
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Teaching Methodologies and Assessment Criteria |
TEACHING METHODOLOGIES:
The methodologies applied (assessment included) comply with the Rectoral Order (R) 28/2006 of 14 September, and the successive amendments introduced by Orders 32-A / 2006 of 30 October, 33/2008 of 1 September, and 31 / R / 2009 of August 4th.
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Language |
Portuguese. Tutorial support is available in English.
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