22.12.2 Explain the basic purpose of lift augmentation devices.
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24.4.2 Define air density.
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24.4.4 Describe the effect of temperature, pressure and humidity on
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24.4.14 Explain the meaning of density altitude (DA) and, in broad t
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22.6.6 With respect to aerofoils, describe the meanings of the foll
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22.12.4 Explain the basic principles of trailing and leading-edge devices
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22.12.16 Explain the effect of operating leading-edge slats on CL, stalling angle and nose attitude
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22.14 Flight Controls
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22.16 Stalling and Spinning
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24.4.6 Describe the normal changes in pressure, temperature and den
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22.6.7 Distinguish between high-lift, general purpose (GP) and high-speed aerofoil sections
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22.16.10 Explain the standard recovery from the stalled condition.
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22.16.14 Describe the conditions which encourage a wing-drop at the stall.
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22.18.2 Explain the four forces acting and the conditions required for steady straight and level flight
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22.18.6 Explain the power and attitude relationships at various airs
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22.6.4 Explain the principle of airspeed indication, and indicate t
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22.6.8 Define relative airflow and angle of attack ().
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22.22.2 Explain how the required turning (centripetal) force is generated
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22.22.4 Define load factor.
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22.22.6 Describe how load factor increases with bank angle.
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22.6.12 Describe a venturi and explain venturi effect.
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22.6.14 Explain the changes to the airflow and pressure distribution around a typical aerofoil in a low- subsonic speed airflow as is increased from the zero-lift angle to beyond the stalling angle.
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22.6.18 Explain the term centre of pressure (CP); and describe typic
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22.6.20 Define the total aerodynamic reaction force (TR) of an aerofoil
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