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Uncontrolled copy not subject to amendment. Principles of Flight. Principles of Flight. Learning Outcome 5: Be able to apply the principles of flight and control to rotary wing aircraft Part 2. REVISION. Questions. Blade Angle of Attack is between? a. The Chord and Relative Airflow.

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  1. Uncontrolled copy not subject to amendment Principles of Flight

  2. Principles of Flight Learning Outcome 5: Be able to apply the principles of flight and control to rotary wing aircraft Part 2

  3. REVISION

  4. Questions • Blade Angle of Attack is between? • a.The Chord and Relative Airflow. • b. The Rotational Velocity and the Relative Airflow. • The Total Reaction and the Chord. • Lift and Drag.

  5. Questions • Increasing speed with a fixed pitch propeller will? • a.Be more efficient. • b. Reduce efficiency. • Make no difference. • Increase the Engine speed.

  6. Questions • The Forces trying to alter the Propeller Blade • Angle of Attack are? • a.ATM and CTM. • b. CDM and ATM. • CTM and REV. • AOA and ATM.

  7. Questions • The Resultant Forces that a Propeller produce are? • a.Lift and Thrust. • Thrust and Propeller Rotational Drag . • Drag and Total Reaction. • d. Drag and Thrust.

  8. Helicopters • Objectives: • State the method of generating Lift for a Helicopter. • List and Describe the following: • Blades, Rotor Head, Pitch Angle, Collective Pitch, • Rotor Disc, Cyclic Pitch, Tail Rotor, Hand Throttle, • Torque Reaction. • Explain how a Helicopter achieves Horizontal Flight. • Describe the Operation of the following Controls: • The Collective. • The Cyclic. • The Yaw Pedals. • The Hand Throttle.

  9. Helicopters How does a Wing produce Lift? Do you remember the Wind-Tunnel?

  10. Lift - - C A + + B Air enters at ‘A’. On reaching ‘B’ it has increased in speed to get through the narrower gap. At ‘C’ the air has returned to the same values as ‘A’. If Speed increases then Pressure Drops & Vice Versa. SO, HOW DOES THIS WORK AS A WING?

  11. Lift LIFT - - C A + + B A Wing works in the same way as the “Wind-Tunnel”. Because the air is faster over the top surface, then the pressure is decreased. The Wing is now producing LIFT.

  12. Helicopters So, instead of moving a Wing through the air, how about we rotate the ‘Wing’! Cross-sectional area of Blade is the same shape as a Wing. The rotating ‘Wing’ is now producing Lift

  13. Helicopters How does a Helicopter Climb and Descend? Lift Chord Relative Airflow Angle of Attack

  14. Helicopters Climbing – How can the ‘Wing’ produce more Lift? Lift Increase AoA Chord Chord Relative Airflow Angle of Attack

  15. Helicopters Descending – How can the ‘Wing’ produce less Lift? Lift Decrease AoA (Increasing or Decreasing Rotor Speed will also affect Lift Production).

  16. Blades Tail Rotor Rotor Head Rotor Disc Parts of a Helicopter

  17. Parts of a Helicopter

  18. HELICOPTER CONTROLS 1. The Collective Pitch Lever. 2. The Hand Throttle. 3. The Cyclic Pitch Control. 4. The Tail Rotor Control (Yaw Pedals).

  19. HELICOPTER CONTROLS

  20. Controls Cyclic

  21. Controls Collective

  22. Controls Yaw Pedals

  23. Controls Cyclic Collective Yaw Pedals

  24. Hand Throttle The Hand Throttle The Collective Pitch Lever often contains a Hand Throttle (like on a motor bike).

  25. The Collective Pitch Lever Rotor Blade All Blades are changed by the same Angle.

  26. THE COLLECTIVE PITCH LEVER

  27. Torque Reaction - Yaw Fuselage Torque Reaction What can be done to stop this?

  28. Torque Reaction - Yaw Airflow Balancing Force A Tail Rotor is added to counter the Torque Reaction. Which Control is used for this?

  29. Yaw Pedals The Yaw Pedals Moving the Yaw Pedals will alter Blade Pitch equally on all the Tail Rotor Blades The Yaw Pedals can also be used to turn (yaw) the Helicopter around the main Rotor.

  30. Tail Rotors

  31. Horizontal Flight How does a Helicopter achieve this?

  32. Horizontal Flight Lift Lift Thrust Thrust The ‘Disc’ is tilted, producing a horizontal component of Thrust.

  33. Horizontal Flight The Rotor Disc can be tilted forward, back, left, right depending on the position of the Cyclic Control.

  34. Horizontal Flight

  35. Any Questions?

  36. Helicopters • Objectives: • State the method of generating Lift for a Helicopter. • List and Describe the following: • Blades, Rotor Head, Pitch Angle, Collective Pitch, • Rotor Disc, Cyclic Pitch, Tail Rotor, Hand Throttle, • Torque Reaction. • Explain how a Helicopter achieves Horizontal Flight. • Describe the Operation of the following Controls: • The Collective. • The Cyclic. • The Yaw Pedals. • The Hand Throttle.

  37. Questions • How does a Helicopter generate Lift? • Spinning the main rotor faster. • Spinning the main rotor slower. • Increasing the angle of attack of each rotor blade. • Decreasing the angle of attack of each rotor blade.

  38. Questions • When a Helicopter rotor is driven in a circular motion • there is an opposing force, what is this force called? • Lift. • Torque Reaction. • Lift Reaction. • Drag.

  39. Questions • What is the purpose of a Tail Rotor? • Counter Torque Reaction. • Reduce Drag. • Provide Thrust. • Control the Helicopter in the rolling plane.

  40. Questions • What are the 3 controls a Helicopter uses to control • the aircraft’s attitude? • Collective, Cyclic, Yaw Pedals. • Ailerons, Rudders. • Cyclic, Elevators, Throttle. • Yaw Pedals, Fin, Rotor.

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