22.20.8 Define absolute ceiling and service ceiling.
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22.20.10 Explain the factors affecting climb performance
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22.20.12 Identify the forces acting in a glide and a steady power-on
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22.20.14 Explain the connection between L/D ratio, glide angle, airspeed and gliding range
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22.20.16 Describe the effect of:
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22.22.8 Explain the connection between load factor and percentage increase in stalling speed
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22.22.10 Explain the factors affecting rate and radius of turn.
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22.22.12 Explain the conditions for a maximum rate/minimum radius turn
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22.22.14 Explain the effect of wind during:
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22.22.16 In climbing and descending turns, describe:
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22.22.20 Identify the factors affecting the radius of a looping manoeuvre
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22.22.22 Describe design manoeuvre speed (Va) and ...
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22.22.22 .... and explain the features of a typical V-n(or V-g) diagram
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22.24.2 Define blade face, blade angle, pitch (or helix) angle, heli
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22.24.4 Describe the forces acting on a propeller blade; the rpm/airspeed relationship; and the most effective blade sections
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22.24.6 Explain how propeller pitch affects efficiency at different speeds
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22.24.8 Explain the purpose of the constant-speed (variable pitch) propeller
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22.24.10 Describe in broad terms the operation of the constant speed unit (CSU) with changes in power setting and airspeed.
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22.24.12 Describe the correct procedure for handling manifold pressure and propeller controls.
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22.24.14 Describe the forces acting on a propeller when:
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22.24.16 Explain propeller centrifugal and aerodynamic twisting moments
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22.26.2 Explain static stability and dynamic stability.
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22.26.6 Define longitudinal stability and explain:
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22.26.8 Define directional stability and explain the factors affecti
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