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Engineering
Aerospace Engineering
Flight Mechanics and Control
1. Introduction to Flight Mechanics
2. Aerodynamic Forces and Moments
3. Coordinate Systems and Transformations
4. Aircraft Performance Analysis
5. Static Stability Principles
6. Longitudinal Control Analysis
7. Lateral-Directional Control Analysis
8. Aircraft Equations of Motion
9. Dynamic Stability Analysis
10. Flight Control System Fundamentals
11. Mechanical Flight Control Systems
12. Stability Augmentation Systems
13. Autopilot Systems
14. Fly-by-Wire Control Systems
12.
Stability Augmentation Systems
12.1.
Pitch Stability Augmentation
12.1.1.
Pitch Damper Systems
12.1.1.1.
Rate Gyro Sensors
12.1.1.2.
Elevator Actuation
12.1.1.3.
System Architecture
12.1.2.
Pitch Attitude Hold
12.1.2.1.
Attitude Reference
12.1.2.2.
Control Law Design
12.2.
Roll Stability Augmentation
12.2.1.
Roll Damper Systems
12.2.1.1.
Roll Rate Sensing
12.2.1.2.
Aileron Actuation
12.2.2.
Roll Attitude Hold
12.2.2.1.
Bank Angle Control
12.2.2.2.
Turn Coordination
12.3.
Yaw Stability Augmentation
12.3.1.
Yaw Damper Systems
12.3.1.1.
Dutch Roll Suppression
12.3.1.2.
Yaw Rate Feedback
12.3.1.3.
Rudder Actuation
12.3.2.
Turn Coordination
12.3.2.1.
Sideslip Elimination
12.3.2.2.
Coordinated Flight
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11. Mechanical Flight Control Systems
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13. Autopilot Systems