Control surfaces: Difference between revisions

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==Ailerons==
Aircraft flight control surfaces allow a pilot to adjust and control the aircraft's flight attitude.
[[Image:Ailerons.jpg|thumb|300px|Ailerons (red) on the wings of a [[Cessna C172]]]]'''Ailerons''' are hinged control surfaces attached to the trailing edge of the wing of a fixed-wing aircraft. The ailerons are used to control the aircraft in roll. The two ailerons are typically interconnected so that one goes down when the other goes up: the downgoing aileron increases the lift on its wing while the upgoing aileron reduces the lift on the other wing, producing a rolling moment about the aircraft's longitudinal axis. The word aileron is French for "little wing."
 
==Elevators==
Development of an effective set of flight controls was a critical advance in the development of the aircraft. Early efforts at fixed-wing aircraft design succeeded in generating sufficient lift to get the aircraft off the ground, but once aloft, the aircraft proved uncontrollable, often with disastrous results. The development of effective flight controls is what allowed stable flight.
[[Image:Elevator.jpg|thumb|300px|Elevators on the tail of a [[Boeing 777-200]]]]'''Elevator'''s are control surfaces, usually at the rear of an aircraft, which control the aircraft's orientation by changing the pitch of the aircraft, and so also the angle of attack of the wing. An increased wing angle of attack will cause a greater lift to be produced by the profile of the wing, and a slowing of the aircraft. A decreased angle of attack will produce an increase in speed (a dive). The elevators may be the only pitch control surface present (and are then called a stabilator), or may be hinged to a fixed or adjustable surface called a stabilizer.
== Ailerons ==
==Flaps==
[[File:Ailerons.jpg|thumb|300px|Ailerons (red) on the wings of a [[Cessna C172]]]]'''Ailerons''' are hinged control surfaces attached to the trailing edge of the wing of a fixed-wing aircraft. The ailerons are used to control the aircraft in roll. The two ailerons are typically interconnected so that one goes down when the other goes up: the downgoing aileron increases the lift on its wing while the upgoing aileron reduces the lift on the other wing, producing a rolling moment about the aircraft's longitudinal axis. The word aileron is French for "little wing."
[[Image:Flaps.jpg|thumb|300px|Flaps (red) on the wings of a [[Cessna C172]]]]'''Flaps''' are hinged surfaces on the trailing edge of the wings of a fixed-wing aircraft. As flaps are extended the stalling speed of the aircraft is reduced. Flaps are also used on the leading edge of the wings of some high-speed jet aircraft, where they may be called slats.
== Wingtip Devices ==
[[File:Wingtip_device.jpg|thumb|300px|A wingtip device (red) on the wing of a [[Boeing 747]]]]'''Wingtip device'''s, sometimes know as winglets, are usually intended to improve the efficiency of fixed-wing [[aircraft]]. There are several types of devices, and though they function in different manners, the intended aerodynamic effect is to modify the aircraft's wake in some beneficial manner. Wingtip devices can also improve aircraft handling characteristics. From a marketing standpoint, they are also valued for their aesthetic appeal, and aircraft have been equipped with them for cosmetic reasons as well.
== Elevators ==
[[File:Elevator.jpg|thumb|300px|Elevators on the tail of a [[Boeing 777-200]]]]'''Elevator'''s are control surfaces, usually at the rear of an aircraft, which control the aircraft's orientation by changing the pitch of the aircraft, and so also the angle of attack of the wing. An increased wing angle of attack will cause a greater lift to be produced by the profile of the wing, and a slowing of the aircraft. A decreased angle of attack will produce an increase in speed (a dive). The elevators may be the only pitch control surface present (and are then called a stabilator), or may be hinged to a fixed or adjustable surface called a stabilizer.
== Flaps ==
[[File:Flaps.jpg|thumb|300px|Flaps (red) on the wings of a [[Cessna C172]]]]'''Flaps''' are hinged surfaces on the trailing edge of the wings of a fixed-wing aircraft. As flaps are extended the stalling speed of the aircraft is reduced. Flaps are also used on the leading edge of the wings of some high-speed jet aircraft, where they may be called slats.


Flaps reduce the stalling speed by increasing the camber of the wing and thereby increasing the maximum lift coefficient. Some trailing edge flaps also increase the area of the wing and, for any given aircraft weight, this reduces the stalling speed. The Fowler flap is an example of one which increases the area of the wing.
Flaps reduce the stalling speed by increasing the camber of the wing and thereby increasing the maximum lift coefficient. Some trailing edge flaps also increase the area of the wing and, for any given aircraft weight, this reduces the stalling speed. The Fowler flap is an example of one which increases the area of the wing.
==Rudder==
== Rudder ==
[[Image:Rudder.jpg|thumb|300px|Rudder (red) on the tail of a [[Cessna C172]]]]On an aircraft, the '''rudder''' is called a "control surface" along with the rudder-like elevator (attached to horizontal tail structure) and [[aileron]]s (attached to the wings) that control [[pitch]] and [[roll]]. The rudder is usually attached to the fin (or vertical stabilizer) which allows the pilot to control yaw in the vertical axis, i.e. change the horizontal direction in which the nose is pointing. The rudder's direction is manipulated with the movement of foot pedals by the pilot.
[[File:Rudder.jpg|thumb|300px|Rudder (red) on the tail of a [[Cessna C172]]]]On an aircraft, the '''rudder''' is called a "control surface" along with the rudder-like elevator (attached to horizontal tail structure) and [[aileron]]s (attached to the wings) that control [[pitch]] and [[roll]]. The rudder is usually attached to the fin (or vertical stabilizer) which allows the pilot to control yaw in the vertical axis, i.e. change the horizontal direction in which the nose is pointing. The rudder's direction is manipulated with the movement of foot pedals by the pilot.
 
[[Category:Aircraft controls]]
[[Category:Aircraft controls]]
[[es:Superficies de control]]

Revision as of 17:16, 14 February 2016

Aircraft flight control surfaces allow a pilot to adjust and control the aircraft's flight attitude.

Development of an effective set of flight controls was a critical advance in the development of the aircraft. Early efforts at fixed-wing aircraft design succeeded in generating sufficient lift to get the aircraft off the ground, but once aloft, the aircraft proved uncontrollable, often with disastrous results. The development of effective flight controls is what allowed stable flight.

Ailerons

Ailerons (red) on the wings of a Cessna C172

Ailerons are hinged control surfaces attached to the trailing edge of the wing of a fixed-wing aircraft. The ailerons are used to control the aircraft in roll. The two ailerons are typically interconnected so that one goes down when the other goes up: the downgoing aileron increases the lift on its wing while the upgoing aileron reduces the lift on the other wing, producing a rolling moment about the aircraft's longitudinal axis. The word aileron is French for "little wing."

Wingtip Devices

A wingtip device (red) on the wing of a Boeing 747

Wingtip devices, sometimes know as winglets, are usually intended to improve the efficiency of fixed-wing aircraft. There are several types of devices, and though they function in different manners, the intended aerodynamic effect is to modify the aircraft's wake in some beneficial manner. Wingtip devices can also improve aircraft handling characteristics. From a marketing standpoint, they are also valued for their aesthetic appeal, and aircraft have been equipped with them for cosmetic reasons as well.

Elevators

Elevators on the tail of a Boeing 777-200

Elevators are control surfaces, usually at the rear of an aircraft, which control the aircraft's orientation by changing the pitch of the aircraft, and so also the angle of attack of the wing. An increased wing angle of attack will cause a greater lift to be produced by the profile of the wing, and a slowing of the aircraft. A decreased angle of attack will produce an increase in speed (a dive). The elevators may be the only pitch control surface present (and are then called a stabilator), or may be hinged to a fixed or adjustable surface called a stabilizer.

Flaps

Flaps (red) on the wings of a Cessna C172

Flaps are hinged surfaces on the trailing edge of the wings of a fixed-wing aircraft. As flaps are extended the stalling speed of the aircraft is reduced. Flaps are also used on the leading edge of the wings of some high-speed jet aircraft, where they may be called slats.

Flaps reduce the stalling speed by increasing the camber of the wing and thereby increasing the maximum lift coefficient. Some trailing edge flaps also increase the area of the wing and, for any given aircraft weight, this reduces the stalling speed. The Fowler flap is an example of one which increases the area of the wing.

Rudder

Rudder (red) on the tail of a Cessna C172

On an aircraft, the rudder is called a "control surface" along with the rudder-like elevator (attached to horizontal tail structure) and ailerons (attached to the wings) that control pitch and roll. The rudder is usually attached to the fin (or vertical stabilizer) which allows the pilot to control yaw in the vertical axis, i.e. change the horizontal direction in which the nose is pointing. The rudder's direction is manipulated with the movement of foot pedals by the pilot.