Warm-Up – 1/10 – 10 minutes
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Transcript of Warm-Up – 1/10 – 10 minutes
Utilizing your notes and past knowledge answer the following questions:
1) From a pilot’s perspective, what is the direction of the yaw and what do we refer to this type of motion?
2) How do you counter the effects of adverse yaw?
3) What must a pilot do to maintain steady altitude during a roll or bank of an aircraft?
4) In an aircraft with a T-tail configuration during normal flight conditions, what effects are removed from influencing the elevator?
5) At slow speeds, the elevator on a T-tail aircraft must be moved through a (larger or smaller) number of degrees of travel to raise the nose the same amount as on a conventional aircraft.
Warm-Up – 1/10 – 10 minutes
Questions / Comments
Utilizing your notes and past knowledge answer the following questions:
1) From a pilot’s perspective, what is the direction of the yaw and what do we refer to this type of motion?
2) How do you counter the effects of adverse yaw?
3) What must a pilot do to maintain steady altitude during a roll or bank of an aircraft?
4) In an aircraft with a T-tail configuration during normal flight conditions, what effects are removed from influencing the elevator?
5) At slow speeds, the elevator on a T-tail aircraft must be moved through a (larger or smaller) number of degrees of travel to raise the nose the same amount as on a conventional aircraft.
Warm-Up – 1/10 – 10 minutes
Flight Control SystemsAdverse Yaw
• This results in the aircraft yawing toward the wing which had experienced an increase in lift (and drag).
• From the pilot’s perspective, the yaw is opposite the direction of the bank.
Utilizing your notes and past knowledge answer the following questions:
1) From a pilot’s perspective, what is the direction of the yaw and what do we refer to this type of motion?
2) How do you counter the effects of adverse yaw?
3) What must a pilot do to maintain steady altitude during a roll or bank of an aircraft?
4) In an aircraft with a T-tail configuration during normal flight conditions, what effects are removed from influencing the elevator?
5) At slow speeds, the elevator on a T-tail aircraft must be moved through a (larger or smaller) number of degrees of travel to raise the nose the same amount as on a conventional aircraft.
Warm-Up – 1/10 – 10 minutes
Flight Control SystemsAdverse Yaw
• Application of rudder is used to counteract adverse yaw.
• The amount of rudder control required is greatest at low airspeeds, high angles of attack, and with large aileron deflections.
Utilizing your notes and past knowledge answer the following questions:
1) From a pilot’s perspective, what is the direction of the yaw and what do we refer to this type of motion?
2) How do you counter the effects of adverse yaw?
3) What must a pilot do to maintain steady altitude during a roll or bank of an aircraft?
4) In an aircraft with a T-tail configuration during normal flight conditions, what effects are removed from influencing the elevator?
5) At slow speeds, the elevator on a T-tail aircraft must be moved through a (larger or smaller) number of degrees of travel to raise the nose the same amount as on a conventional aircraft.
Warm-Up – 1/10 – 10 minutes
Flight Control SystemsAdverse Yaw
• Additionally, because more lift is required during a turn than when in straight-and-level flight, the angle of attack (AOA) must be increased by applying elevator back pressure.
Utilizing your notes and past knowledge answer the following questions:
1) From a pilot’s perspective, what is the direction of the yaw and what do we refer to this type of motion?
2) How do you counter the effects of adverse yaw?
3) What must a pilot do to maintain steady altitude during a roll or bank of an aircraft?
4) In an aircraft with a T-tail configuration during normal flight conditions, what effects are removed from influencing the elevator?
5) At slow speeds, the elevator on a T-tail aircraft must be moved through a (larger or smaller) number of degrees of travel to raise the nose the same amount as on a conventional aircraft.
Warm-Up – 1/10 – 10 minutes
Flight Control SystemsT-Tail
• In a T-tail configuration, the elevator is above most of the effects of downwash from the propeller as well as airflow around the fuselage and/or wings during normal flight conditions.
Utilizing your notes and past knowledge answer the following questions:
1) From a pilot’s perspective, what is the direction of the yaw and what do we refer to this type of motion?
2) How do you counter the effects of adverse yaw?
3) What must a pilot do to maintain steady altitude during a roll or bank of an aircraft?
4) In an aircraft with a T-tail configuration during normal flight conditions, what effects are removed from influencing the elevator?
5) At slow speeds, the elevator on a T-tail aircraft must be moved through a (larger or smaller) number of degrees of travel to raise the nose the same amount as on a conventional aircraft.
Warm-Up – 1/10 – 10 minutes
Flight Control SystemsT-Tail
• An additional benefit is reduced vibration and noise inside the aircraft.
• At slow speeds, the elevator on a T-tail aircraft must be moved through a larger number of degrees of travel to raise the nose a given amount than on a conventional-tail aircraft.
Questions / Comments
January 10
• In 1942... The US Army announces the delivery of its first troop-transport gliders.
THIS DAY IN AVIATION
January 10
• In 1982... The Gulfstream III Spirit of America sets a round-the-world record for an executive jet of 43 hours, 39 minutes and 6 seconds in Taterboro, New Jersey.
THIS DAY IN AVIATION
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• 1982 — The Airbus A300 becomes the world's first wide-bodied airliner to be certified for operation by a flight crew of two.
THIS DAY IN AVIATION
Questions / Comments
SUNDAY MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY SATURDAY
1 2 3 4
5 6
Chapter 5 Flight Controls
Primary Flight Controls
7 8
Chapter 5 Flight Controls
Ailerons
Adverse Yaw Elevators
9 10
Chapter 5 Flight Controls
T-Tail
Stabilator
Quiz
11
12 13 14
Chapter 5 Flight Controls
Canards
Flaps
15 16
Chapter 5 Flight Controls
Trim Systems
Autopilot
Chapter TEST
Grades Due
17
NO SCHOOL
18
19 20
NO SCHOOL
21 22
Chapter 6 Aircraft Systems
23 24
Chapter 6 Aircraft Systems
25
26 27 28
Chapter 6 Aircraft Systems
29 30
Chapter 6 Aircraft Systems
31
January 2014
Questions / Comments
Chapter 5 – Flight ControlsFAA – Pilot’s Handbook of Aeronautical Knowledge
Mission: Identify in writing the flight control systems a pilot uses to control
the forces of flight, and the aircraft’s direction and attitude. Describe how the flight control systems and characteristics can
vary greatly depending on the type of aircraft flown. Describe in writing the basic flight control system designs.
EQ: Describe the importance of Aeronautical Knowledge for the
student pilot learning to fly.
Today’s Mission Requirements
Flight Control SystemsT-Tail
• This is because the conventional-tail aircraft has the downwash from the propeller pushing down on the tail to assist in raising the nose.
Flight Control SystemsT-Tail
• The forces required to raise the nose of a T-tail aircraft are greater than those for a conventional-tail aircraft.
• The pilot must be aware that the required control forces are greater at slow speeds during takeoffs, landings, or stalls than for similar size aircraft equipped with conventional tails.
Flight Control SystemsT-Tail
• When flying at a very high AOA with a low airspeed and an aft CG, the T-tail aircraft may be susceptible to a deep stall.
• In a deep stall, the airflow over the horizontal tail is blanketed by the disturbed airflow from the wings and fuselage.
Flight Control SystemsT-Tail
• In these circumstances, elevator or stabilator control could be diminished, making it difficult to recover from the stall.
Flight Control SystemsStabilator
• A stabilator is a one-piece horizontal stabilizer that pivots from a central hinge point.
Flight Control SystemsStabilator
• Because stabilators pivot around a central hinge point, they are extremely sensitive to control inputs and aerodynamic loads.
• Antiservo tabs are incorporated on the trailing edge to decrease sensitivity.
Flight Control SystemsStabilator
• They deflect in the same direction as the stabilator.
• This results in an increase in the force required to move the stabilator, thus making it less prone to pilot-induced overcontrolling.
Questions / Comments
Chapter 5 – Flight ControlsFAA – Pilot’s Handbook of Aeronautical Knowledge
Chapter 5Quiz
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