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Engineering
Aerospace Engineering
Aerodynamics
1. Introduction to Aerodynamics
2. Properties of the Atmosphere
3. Fundamental Principles of Fluid Dynamics
4. Incompressible, Inviscid Flow
5. Incompressible, Viscous Flow
6. Airfoils and Two-Dimensional Wings
7. Three-Dimensional Wings and Finite Wing Theory
8. Compressible Flow Fundamentals
9. Subsonic and Transonic Aerodynamics
10. Supersonic and Hypersonic Aerodynamics
11. Aerodynamic Drag Analysis
12. High-Lift Systems and Flow Control
13. Aircraft Stability and Control
14. Propulsion Integration
15. Experimental Aerodynamics
16. Computational Fluid Dynamics
12.
High-Lift Systems and Flow Control
12.1.
High-Lift Requirements
12.1.1.
Takeoff and Landing Performance
12.1.2.
Stall Speed Reduction
12.1.3.
Approach Speed Control
12.2.
Trailing Edge Flaps
12.2.1.
Plain Flaps
12.2.2.
Split Flaps
12.2.3.
Slotted Flaps
12.2.4.
Fowler Flaps
12.2.5.
Multi-Element Airfoils
12.2.5.1.
Slot Flow Physics
12.2.5.2.
Circulation Control
12.3.
Leading Edge Devices
12.3.1.
Fixed Slots
12.3.2.
Slats
12.3.2.1.
Automatic Slats
12.3.2.2.
Powered Slats
12.3.3.
Leading Edge Flaps
12.3.4.
Krueger Flaps
12.4.
Spoilers and Speed Brakes
12.4.1.
Spoiler Aerodynamics
12.4.2.
Roll Control Applications
12.4.3.
Speed Brake Functions
12.4.4.
Ground Spoilers
12.5.
Active Flow Control
12.5.1.
Circulation Control
12.5.2.
Synthetic Jets
12.5.3.
Plasma Actuators
12.5.4.
Micro-Vortex Generators
12.6.
Stall Characteristics
12.6.1.
Stall Progression
12.6.2.
Stall Warning Systems
12.6.3.
Post-Stall Behavior
12.6.4.
Spin Characteristics
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11. Aerodynamic Drag Analysis
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13. Aircraft Stability and Control