Conventional controls

Flight Control Systems (Conventional &
Digital) & Enhanced Diagnostic Aid (EDNA)
2a. Identify principles of flight with
at least 80% accuracy.

2a. Identify principles of flight with at least 80% accuracy.

• Overview of Principles of Flight
– Basic Facts and Terms
– Controls and Surfaces
– Axes of Rotation


• Principles of Flight
– Bernoulli’s Principle
• As air velocity increases,
pressure decreases
• As air velocity decreases,
pressure increases
• Venturi tube


– Density
•
•
•
•

As air is compressed, it becomes more dense
Air has less density at high altitude
Air expands as it is heated – occupies more space
Changes in air density affect flight
– Climate is cold, altitude is low = dense air
» Aircraft achieves takeoff speed more quickly
» Takes off with less runway
– High Altitude = low density (airplane flies faster)


– Humidity
• Higher temperature of air – the more water it can
absorb
• Temperature the same – density of air varies with
humidity
• Damp days
– Density is less than it is on dry days
– Airplane requires longer runway for takeoff


– Relative Wind – the direction of the airflow with
respect to the wing


– Angle of Attack – angle between the wing chord
line and the direction of the relative wind


– Airfoils
• Any object designed to obtain a reaction upon itself
from the air through which it passes


– Wing Chord Line
• Distance from the leading edge to the trailing edge
• Represented by a straight line called the chord line


– Camber
• The curve or departure from the chord line
• Positive – Convex Surface
• Negative – Concave Surface


– Camber
• Upper Surface – Always positive
• Lower Surface
– Positive (usually)
– Zero
– Negative


• Producing Lift
– High-speed flow is associated with low pressure
– Low-speed flow is associated with high pressure


– Airfoil is designed to increase the velocity of the
airflow above the surface – decreases pressure
above the airfoil
– Impact of air on lower surface increases pressure
below
– Pressure differential causes lift


• Weight – the force of gravity
acting downward upon
anything that goes into the
aircraft
– Reduced as fuel is burned
– Reduced as missles and
bombs are released
– Reduced the aircraft will
climb


• Lift – acts vertically, by doing so counteracts
weight
– Increases to a certain point with
• AOA
• Air Density
• Airspeed

– Lift is increased – aircraft will climb
– Lift is reduced – aircraft will descend


• Drag – forward deterrent force (caused by the disruption
of the airflow by the wings, fuselage and protruding
objects)
– Increases with
• Airspeed
• AOA (drag increases much more rapidly than lift as AOA
increases)

– Decreases with increased altitude due to decrease in air density


• Thrust – the forward force produced by the jet engine
that overcomes the force of drag
– Increased thrust increases airspeed
– Decreased thrust is needed at higher altitude to achieve the
same airspeed due to less air density and drag
– Thrust is decreased, airspeed will decrease


• Controls and Surfaces
– Stick


– Mechanical/Electronic
Controls


– Electronic Controls


– Rudder Pedals


– Flap Controls


• Control/Surface Connection
– Direct Mechanical


– Power Assisted Mechanical


– Powered, Electronically Controlled


• Flight Control Surfaces
– Wings
• Primary means of providing lift for the aircraft


• Flaps
– Attached to wings
– Moveable surfaces that provide increased lift


• Flaps
– Trailing Edge Flaps


• Flaps
– Leading Edge Flaps


• Ailerons
– Moveable surfaces to provide roll control


• Horizontal Stabilizers
– Provides stabilization against uncontrolled pitching of the
aircraft
– Attached to aft section of aircraft


• Elevators
– Moveable surfaces to provide pitch control
– Attached to trailing edge of horizontal stabs


• Moveable Horizontal Stabilizers
– Entire Surface pivots to provide pitch control
– Does not require elevators


• Vertical Stabilizers
– Provides stabilization against uncontrolled yawing
of the aircraft


• Rudder
– Moveable surfaces to provide yaw control
– Move symmetrically

2a. Identify principles of flight with at least 80%
accuracy.

• Combined Surfaces
– Flaperon

accuracy.

• Elevons

accuracy.

• Speedbrake

accuracy.

• Axes of Rotation

– Surfaces are normally “streamline” for straight
and level flight

accuracy.

• Roll

– The longitudal axis is an imaginary line through
center of straight and level flight

accuracy.

• Roll

– Movement about the axis is roll

accuracy.

• Roll

– Roll is initiated by applying lateral pressure to the
side stick controller

accuracy.

• Pitch

– The lateral axis is an imaginary line from the wing
tip to wing tip

accuracy.

• Pitch

– Movement about about the axis is pitch

accuracy.

• Pitch

– Pitch is initiated by applying fore and aft pressure
on the side stick controller

accuracy.

• Yaw

– The vertical axis is an imaginary line through the
center of the aircraft from top to bottom

accuracy.

• Yaw

– Movement about the axis is yaw

accuracy.

• Yaw

– Yaw initiated using rudder pedals

accuracy.

• Trim

accuracy.

• Summary of Principles of Flight
– Defined Basic Facts and Terms
– Covered Controls and Surfaces
– Axes of Rotation

Conventional controls

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