aviation history lecture 3: basic aircraft. types of airplane commercialmilitary general/ private...
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AVIATION HISTORYAVIATION HISTORY
Lecture 3: Basic Aircraft
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Types of airplane and their usesCommercial airplane Scheduled and charter airline flights, carrying both
passengers and cargo. The larger passenger-carrying types are often referred
to as airliners Some of the smaller types are also used in general
aviation
Passenger/ Cargo Aircraft Airbus A380
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Types of airplane and their uses
Military Fighters and bombers (shooting, combat) Search and rescue, reconnaissance (spying),
observation transport, and tanker aircraft among others.
Fighter Aircraft
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Military airplane
Black WidowWorld’s Smallest Spy
Aircraft
Northrop B-2 Stealth Bomber
Refueling an airplane in mid-air
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Types of airplane and their uses
General and Private General- Business jets , trainers, aerobatic
types, racers, gliders, firefighters, medical transports, and cargo transports.
Private- Light passenger, business, or recreational types.
Used for a wide range of commercial tasks, such as flight training, policing, crop spraying, and medical evacuations.
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Private Aircraft
Crop Spraying
Medical Evacuations
Tiltrotor plane’s
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Types of airplane and their uses
Experimental aircraft Built and used to explore some aspect of
aircraft design. The Bell X-1 rocket plane, which first broke
the sound barrier (travel more than speed of sound-supersonic) in level flight, is a famous example.
X-15
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Major Parts of Airplane
WING
EMPENNAGE
ENGINE
FUSELAGE
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Parts of an AirplaneFuselage: Basic structure of the airplane to which wings,
empennage and landing gear are attached. It is designed to hold passengers, crews & cargo.Empennage (tail): Consists of vertical stabilizer & horizontal
stabilizer. It provides the greatest stabilizing influence of all
the components of an airplane.
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Parts of an Airplane
Engine: Provides the thrust necessary for powered flight. The types of engine depends on the mission
requirements of the airplane.Wing The wing is an airfoil attached to the fuselage and is
designed to produce lift. It may contain fuel cells, engine nacelles and landing
gear. Airplane control surfaces (aileron, flaps, slat and spoiler)
also attached on it.
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Wing
High Wing: Wing on top (very stable)
Mid Wing: Wing in middle (acrobatic)
Low Wing: Wing on bottom (less drag)
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Parts of an Airplane
Landing gear : The landing gear can be fixed in place or retractable. Many small airplanes have fixed landing gear which
increases drag, but keeps the airplane lightweight. Larger, faster and more complex aircraft have retractable
landing gear that can reduced weight. Most planes today use what is called a tricycle landing
gear arrangement. This system has two large main gear units located near
the middle of the plane and a single smaller nose gear unit near the nose of the aircraft.
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Parts of an Airplane
Cockpit/ Flight Deck Front part of the fuselage and contains all the instruments
needed to fly the plane. The cockpits have hardened doors, securing them from
unauthorized persons during flight, takeoffs and landings. Cabin Section of the fuselage for passengers, cargo, or both. A
typical passenger cabin has galleys for food preparation; lavatories; one or more seating compartments & etc
Cargo Below the passenger deck where cargo and baggage are
carried.
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Boeing 747
RudderAileronFlaps
ElevatorRudder
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Primary Control Surfaces
Ailerons: horizontal surfaces located on wing tips. Provide roll control- Roll the aircraft to the
right or left. Elevator: horizontal surface located on the tail
Provide pitch control-Nosing the aircraft up and down.
Rudder: vertical surface located on the tail Provide yaw control- turning the aircraft to the
left or right.
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Additional Control SurfacesFlaps: A movable control surface on the aircraft wing,
used to change the amount of lift generated. Flaps deflect downward during take-off & landing
to increase lift. Flaps retracted immediately after landing to
decrease lift.Slats: A movable control surface on the aircraft wing,
also used to change the amount of lift generated. Slats enable the airplane to get off the ground
quickly and to land more slowly.
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Additional Control SurfacesSpoilers: Located on the upper wing which, when opened,
decreases lift and increases drag. They reduce lift by disrupting the airflow over the
top of the wing. They are used during the descend prior to landing
and immediately after landing.
Spoiler
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Basic Aircraft
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4 Forces acted on an 4 Forces acted on an airplaneairplane
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4 Forces acted on airplane
1. Thrust The force that moves the aircraft through the
air. Generate by the engine
2. Lift This force is generated by the flow of air
around the airplane especially to the wing. Amount of lift generated depends on airspeed,
angle of attack, airfoil shape, wing area.
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Lift Equation
ρ=density, V=velocity, S = wing area, Cl=coefficient of lift (vary wit h AoA).
In designing an aircraft wing, it is better to get the higher coefficient of lift.
Coefficient of lift is vary with angle of attack. That’s why by changing the angle of attack, the
amount of generated lift can be adjusted.
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Forces acted on Aircraft3. Drag Drag is the force of resistance an aircraft ‘feels’ as it
moves through the air. Wing is designed to be smooth in order to reduce drag. Drag important during landing in order to slow down
the aircraft.4. Weight Weight is the earth’s gravity pulls down on objects and
gives them weight. It includes the aircraft itself, the payload and the fuel.
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Airplane can fly because…….Airplane can fly because…….1. Four forces acted on the plane2. Thrust generated by the engine3. Lift force produced by airflow to the Wing.
4. Drag is air resistance 5. Weight is gravitational pull
ThrustThrustLiftLiftBoeing 747
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How airplane flies? There are actually four forces (thrust, lift, drag
and weight) acting on airplane. When taking off, the plane is moving at high
speed on the runway due to the thrust generated by the engine.
As engines are attached to the wing of an airplane, its thrust will be applied to the airplane.
The airflows pass over the wings generate a lift force.
To allow the airplane take-off, Lift force must greater than the plane’s weight and thrust force must greater than the drag force .
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How Lift is Created As airplanes speed up or move forward, air is
moving to the wings. Due to the shape of the airfoil which is the top
surface more curve than the below, makes the airflow travel faster over the top of the wing and slower below the wing. Lift
Slower Airflow
Faster Airflow
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How airplane flies?
According to the Bernoulli’s principles ,an increase in velocity leads to a decrease in pressure.
So that, the air pressure below the wing is higher meanwhile the air pressure above the wing is lower.
This difference in pressure pushes the wings up. And as both wings are attached on the fuselage, the
whole airplane body also goes up. If enough lift is created or lift is greater than the
plane’s weight, the plane naturally lift into the air.
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Airfoil SectionAirfoil is the cross section of the wing that produces lift or
any aerodynamic effect as it passes through the air. Leading Edge: Front edge of wing Trailing Edge: Back edge of wing Camber: Center line between top and bottom of wing Chord Line: Line connecting leading edge and trailing
edge
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Angle of Attack (AoA) Relative wind: direction of the airstream in
relation to airfoil.
Angle of Attack (AoA): Angle between the chord line and the relative wind
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Angle of Attack (AoA)
The angle of attack (AoA) is related to the amount of lift.
AoA , Lift It changes during a flight as the pilot changes
the direction of the airplane. Too high an AoA (exceed the critical value)
can cause the airplane stalls. Stall means airplane loss of LIFT force, thus
the airplane may goes down.
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Stall: Loss of lift caused by the breakdown of airflow over the wing the Angle of Attack (AoA) passes a critical point.
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Airplane Stability and Control
Airplane can be controlled by their three axes, roll axis, pitch axis and yaw axis. As an airplane moves through the air, their three axes system also moves.
This movement can be described by the movement of its center of gravity.
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3 Main Control Surfaces The main control surfaces for an airplane are
the ailerons (for roll), elevators(for pitch) and rudder(for yaw).
Pilot control the movement of the airplane using the control sticks/ yokes and rudder pedals inside the cockpit.
control yokes
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Ailerons Ailerons are used to roll or rotate the aircraft When the pilot moves the control stick to the
right the right aileron moves up and the left aileron moves down.
This causes more lift on the left wing and less lift on the right wing.
The difference in forces causes the aircraft to roll to the right.
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Ailerons
When the pilot moves the control stick to the left the left aileron moves up and the right aileron moves down.
This causes more lift on the right wing and less lift on the left wing.
The difference in forces causes the aircraft to roll to the left.
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Elevator
Elevators are used to pitch the aircraft up or down causing it to climb or dive
To climb, the pilot pulls the control stick back causing the elevators to deflected up.
This in turn causes the airflow to force the tail down and the nose up.
To dive, the pilot pushes the control stick forward causing elevator to deflect down.
This in turn causes the airflow to lift the tail up and nose down.
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Rudder
The rudder turns the aircraft right or left. On the vertical tail, the rudder moves from side
to side, pushing the tail in a left or right direction. To turn right, the pilot steps on the right rudder
pedals. This causes rudder tilt to the right . When rudder tilts to the right , more lift is
created on the right, which pushes the vertical stabilizer to the left.
This in turn causes the airplane nose turn right.