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Wing

January 09, 2024

For other uses, see Wing (disambiguation) and Wings (disambiguation).

A wing is a type of fin that produces lift while moving through air or some other fluid. Accordingly, wings have streamlined cross-sections that are subject to aerodynamic forces and act as airfoils. A wing's aerodynamic efficiency is expressed as its lift-to-drag ratio. The lift a wing generates at a given speed and angle of attack can be one to two orders of magnitude greater than the total drag on the wing. A high lift-to-drag ratio requires a significantly smaller thrust to propel the wings through the air at sufficient lift.

Wing of a eurasian magpie, which allows flight by the flapping of wings.
A swept wing KC-10 Extender (top) refuels a trapezoidal-wing F-22 Raptor.

Lifting structures used in water include various foils, such as hydrofoils. Hydrodynamics is the governing science, rather than aerodynamics. Applications of underwater foils occur in hydroplanes, sailboats and submarines.

Etymology and usage edit

For many centuries, the word "wing", from the Old Norse vængr,[1] referred mainly to the foremost limbs of birds (in addition to the architectural aisle). But in recent centuries the word's meaning has extended to include lift producing appendages of insects, bats, pterosaurs, boomerangs, some sail boats and aircraft, or the inverted airfoil on a race car that generates a downward force to increase traction.

Aerodynamics edit

 
Condensation in the low pressure region over the wing of an Airbus A340, passing through humid air.
 
Flaps (green) are used in various configurations to increase the wing area and to increase the lift. In conjunction with spoilers (red), flaps maximize drag and minimize lift during the landing roll.
Main article: Lift (force)

The design and analysis of the wings of aircraft is one of the principal applications of the science of aerodynamics, which is a branch of fluid mechanics. In principle, the properties of the airflow around any moving object can be found by solving the Navier-Stokes equations of fluid dynamics. However, except for simple geometries these equations are notoriously difficult to solve and simpler equations are used.[2]

For a wing to produce lift, it must be oriented at a suitable angle of attack. When this occurs, the wing deflects the airflow downwards as it passes the wing. Since the wing exerts a force on the air to change its direction, the air must also exert an equal and opposite force on the wing.[3][4][5][6]

Cross-sectional shape edit

An airfoil (American English) or aerofoil (British English) is the shape of a wing, blade (of a propeller, rotor, or turbine), or sail (as seen in cross-section). Wings with an asymmetrical cross section are the norm in subsonic flight. Wings with a symmetrical cross section can also generate lift by using a positive angle of attack to deflect air downward. Symmetrical airfoils have higher stalling speeds than cambered airfoils of the same wing area[7] but are used in aerobatic aircraft[8] as they provide practical performance whether the aircraft is upright or inverted. Another example comes from sailboats, where the sail is a thin membrane with no path-length difference between one side and the other.[9]

For flight speeds near the speed of sound (transonic flight), airfoils with complex asymmetrical shapes are used to minimize the drastic increase in drag associated with airflow near the speed of sound.[10] Such airfoils, called supercritical airfoils, are flat on top and curved on the bottom.[11]

Design features edit

Main article: Wing configuration
 
The wing of a landing BMI Airbus A319-100. The slats at its leading edge and the flaps at its trailing edge are extended.

Aircraft wings may feature some of the following:

  • A rounded leading edge cross-section
  • A sharp trailing edge cross-section
  • Leading-edge devices such as slats, slots, or extensions
  • Trailing-edge devices such as flaps or flaperons (combination of flaps and ailerons)
  • Winglets to keep wingtip vortices from increasing drag and decreasing lift
  • Dihedral, or a positive wing angle to the horizontal, increases spiral stability around the roll axis, whereas anhedral, or a negative wing angle to the horizontal, decreases spiral stability.

Aircraft wings may have various devices, such as flaps or slats that the pilot uses to modify the shape and surface area of the wing to change its operating characteristics in flight.

Wings may have other minor independent surfaces.

Applications and variants edit

Besides fixed-wing aircraft, applications for wing shapes include:

In nature edit

Further information: Bird's wing
Further information: Insect wing

In nature, wings have evolved in insects, pterosaurs, dinosaurs (birds, Scansoriopterygidae), and mammals (bats) as a means of locomotion. Various species of penguins and other flighted or flightless water birds such as auks, cormorants, guillemots, shearwaters, eider and scoter ducks and diving petrels are avid swimmers, and use their wings to propel through water.[17]

Wing forms in nature

Tensile structures edit

In 1948, Francis Rogallo invented a kite-like tensile wing supported by inflated or rigid struts, which ushered in new possibilities for aircraft.[18] Near in time, Domina Jalbert invented flexible un-sparred ram-air airfoiled thick wings. These two new branches of wings have been since extensively studied and applied in new branches of aircraft, especially altering the personal recreational aviation landscape.[19]

See also edit

Natural world
Aviation
Sailing

References edit

  1. ^ "Online Etymology Dictionary". Etymonline.com. Retrieved 2012-04-25.
  2. ^ "Navier-Stokes Equations". Glenn Research Center. 2012-04-16. Retrieved 2012-04-25.
  3. ^ Halliday, David; Resnick, Robert. Fundamentals of Physics (3rd ed.). John Wiley & Sons. p. 378. ...the effect of the wing is to give the air stream a downward velocity component. The reaction force of the deflected air mass must then act on the wing to give it an equal and opposite upward component.
  4. ^ "If the body is shaped, moved, or inclined in such a way as to produce a net deflection or turning of the flow, the local velocity is changed in magnitude, direction, or both. Changing the velocity creates a net force on the body" "Lift from Flow Turning". Glenn Research Center. Retrieved 2011-06-29.
  5. ^ "The cause of the aerodynamic lifting force is the downward acceleration of air by the airfoil..." Weltner, Klaus; Ingelman-Sundberg, Martin. . Goethe University Frankfurt. Archived from the original on 2011-07-19.
  6. ^ "Incorrect Lift Theory". Glenn Research Center.
  7. ^ Laitone, E. V. (1997). "Wind tunnel tests of wings at Reynolds numbers below 70 000". Experiments in Fluids. 23 (405): 405–409. doi:10.1007/s003480050128. S2CID 122755021.
  8. ^ "What are acrobatic and aerobatic flight?". Federal Aviation Administration. Retrieved 26 October 2022.
  9. ^ "...consider a sail that is nothing but a vertical wing (generating side-force to propel a yacht). ...it is obvious that the distance between the stagnation point and the trailing edge is more or less the same on both sides. This becomes exactly true in the absence of a mast—and clearly the presence of the mast is of no consequence in the generation of lift. Thus, the generation of lift does not require different distances around the upper and lower surfaces." Holger Babinsky How do Wings Work? Physics Education November 2003, PDF
  10. ^ John D. Anderson, Jr. Introduction to Flight 4th ed page 271.
  11. ^ "Supercritical wings have a flat-on-top "upside down" look". NASA Dryden Flight Research Center.
  12. ^ Hahne, David E.; Jordan, Frank L. Jr. (1991). Semi-span full-scale tests of a business-jet wing with a natural laminar flow airfoil. National Aeronautics and Space Administration, Scientific and Technical Information Office. p. 5 – via Google Books.
  13. ^ "The Physics Of Kite Flying – Aerodynamic Lift". RealWorldPhysicsProblems.com. real-world-physics-problems.com. Retrieved 28 January 2022.
  14. ^ López, Harm Frederik Althuisius. "Helicopter physics" (PDF). ColoradoCollege.edu. Colorado College Dept. of Physics. Retrieved 28 January 2022.
  15. ^ "Rocket aerodynamics". Sciencelearn.org.nz. New Zealand Government Ministry of Business, Innovation & Employment. Retrieved 28 January 2022.
  16. ^ Zoechling, Moritz (20 January 2015). "Aerodynamics on Formula 1 Race Cars". APlusPhysics.com. A Plus Physics. Retrieved 28 January 2022.
  17. ^ "Swimming". Stanford university. Retrieved 2012-04-25.
  18. ^ "Rogallo Wing -the story told by NASA". History.nasa.gov. Retrieved 2012-12-23.
  19. ^ Hopkins, Ellen; Bledsoe, Glen (2001). The Golden Knights: The U.S. Army Parachute Team. Capstone. pp. 21. ISBN 9780736807753. Domina Jalbert ram air wing.

External links edit

 
Wikimedia Commons has media related to Wings.
  • How Wings Work - Holger Babinsky Physics Education 2003
  • How Airplanes Fly: A Physical Description of Lift
  • Demystifying the Science of Flight – Audio segment on NPR's Talk of the Nation Science Friday
  • NASA's explanations and simulations
  • Flight of the StyroHawk wing
  • See How It Flies

January 09, 2024
wing, other, uses, disambiguation, disambiguation, wing, type, that, produces, lift, while, moving, through, some, other, fluid, accordingly, wings, have, streamlined, cross, sections, that, subject, aerodynamic, forces, airfoils, wing, aerodynamic, efficiency. For other uses see Wing disambiguation and Wings disambiguation A wing is a type of fin that produces lift while moving through air or some other fluid Accordingly wings have streamlined cross sections that are subject to aerodynamic forces and act as airfoils A wing s aerodynamic efficiency is expressed as its lift to drag ratio The lift a wing generates at a given speed and angle of attack can be one to two orders of magnitude greater than the total drag on the wing A high lift to drag ratio requires a significantly smaller thrust to propel the wings through the air at sufficient lift Wing of a eurasian magpie which allows flight by the flapping of wings A swept wing KC 10 Extender top refuels a trapezoidal wing F 22 Raptor Lifting structures used in water include various foils such as hydrofoils Hydrodynamics is the governing science rather than aerodynamics Applications of underwater foils occur in hydroplanes sailboats and submarines Contents 1 Etymology and usage 2 Aerodynamics 2 1 Cross sectional shape 3 Design features 4 Applications and variants 4 1 In nature 4 2 Tensile structures 5 See also 6 References 7 External linksEtymology and usage editFor many centuries the word wing from the Old Norse vaengr 1 referred mainly to the foremost limbs of birds in addition to the architectural aisle But in recent centuries the word s meaning has extended to include lift producing appendages of insects bats pterosaurs boomerangs some sail boats and aircraft or the inverted airfoil on a race car that generates a downward force to increase traction Aerodynamics edit nbsp Condensation in the low pressure region over the wing of an Airbus A340 passing through humid air nbsp Flaps green are used in various configurations to increase the wing area and to increase the lift In conjunction with spoilers red flaps maximize drag and minimize lift during the landing roll Main article Lift force The design and analysis of the wings of aircraft is one of the principal applications of the science of aerodynamics which is a branch of fluid mechanics In principle the properties of the airflow around any moving object can be found by solving the Navier Stokes equations of fluid dynamics However except for simple geometries these equations are notoriously difficult to solve and simpler equations are used 2 For a wing to produce lift it must be oriented at a suitable angle of attack When this occurs the wing deflects the airflow downwards as it passes the wing Since the wing exerts a force on the air to change its direction the air must also exert an equal and opposite force on the wing 3 4 5 6 Cross sectional shape edit An airfoil American English or aerofoil British English is the shape of a wing blade of a propeller rotor or turbine or sail as seen in cross section Wings with an asymmetrical cross section are the norm in subsonic flight Wings with a symmetrical cross section can also generate lift by using a positive angle of attack to deflect air downward Symmetrical airfoils have higher stalling speeds than cambered airfoils of the same wing area 7 but are used in aerobatic aircraft 8 as they provide practical performance whether the aircraft is upright or inverted Another example comes from sailboats where the sail is a thin membrane with no path length difference between one side and the other 9 For flight speeds near the speed of sound transonic flight airfoils with complex asymmetrical shapes are used to minimize the drastic increase in drag associated with airflow near the speed of sound 10 Such airfoils called supercritical airfoils are flat on top and curved on the bottom 11 Design features editMain article Wing configuration nbsp The wing of a landing BMI Airbus A319 100 The slats at its leading edge and the flaps at its trailing edge are extended Aircraft wings may feature some of the following A rounded leading edge cross section A sharp trailing edge cross section Leading edge devices such as slats slots or extensions Trailing edge devices such as flaps or flaperons combination of flaps and ailerons Winglets to keep wingtip vortices from increasing drag and decreasing lift Dihedral or a positive wing angle to the horizontal increases spiral stability around the roll axis whereas anhedral or a negative wing angle to the horizontal decreases spiral stability Aircraft wings may have various devices such as flaps or slats that the pilot uses to modify the shape and surface area of the wing to change its operating characteristics in flight Ailerons usually near the wingtips to roll the aircraft clockwise or counterclockwise about its long axis Spoilers on the upper surface to disrupt the lift and to provide additional traction to an aircraft that has just landed but is still moving Vortex generators mitigate flow separation at low speeds and high angles of attack especially over control surfaces 12 Wing fences to keep flow attached to the wing by stopping boundary layer separation from spreading roll direction Folding wings allow more aircraft storage in the confined space of the hangar deck of an aircraft carrier Variable sweep wing or swing wings that allow outstretched wings during low speed flight i e take off and landing and swept back wings for high speed flight including supersonic flight such as in the F 111 Aardvark the F 14 Tomcat the Panavia Tornado the MiG 23 the MiG 27 the Tu 160 and the B 1B Lancer warplanes Strakes to improve flight characteristics Chine which may blend into the wing Leading edge droop flap a high lift device Fairings structures whose primary function is to produce a smooth outline and reduce drag For example flap track fairingsWings may have other minor independent surfaces Applications and variants editThis section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed Find sources Wing news newspapers books scholar JSTOR March 2019 Learn how and when to remove this template message Besides fixed wing aircraft applications for wing shapes include Hang gliders which use wings ranging from fully flexible paragliders gliding parachutes flexible framed sail wings to rigid Kites which use a variety of surfaces to attain lift and maintain stability 13 Flying model airplanes Helicopters which use a rotating wing with a variable pitch angle to provide directional forces 14 Propellers whose blades generate lift for propulsion The NASA Space Shuttle which uses its wings only to glide during its descent to a runway These types of aircraft are called spaceplanes 15 Some racing cars especially Formula One cars which use upside down wings or airfoils to provide greater traction at high speeds 16 Sailboats which use flexible cloth sails as vertical wings with variable fullness and direction to move across water Hydrofoils which use rigid wing shaped structures to lift a vessel out of the water to reduce drag and increase speed In nature edit Further information Bird s wing Further information Insect wing In nature wings have evolved in insects pterosaurs dinosaurs birds Scansoriopterygidae and mammals bats as a means of locomotion Various species of penguins and other flighted or flightless water birds such as auks cormorants guillemots shearwaters eider and scoter ducks and diving petrels are avid swimmers and use their wings to propel through water 17 Wing forms in nature nbsp Winged tree seeds that cause autorotation in descent nbsp A laughing gull exhibiting the gull wing outline nbsp Bat in flightTensile structures edit In 1948 Francis Rogallo invented a kite like tensile wing supported by inflated or rigid struts which ushered in new possibilities for aircraft 18 Near in time Domina Jalbert invented flexible un sparred ram air airfoiled thick wings These two new branches of wings have been since extensively studied and applied in new branches of aircraft especially altering the personal recreational aviation landscape 19 See also editFlightNatural worldBat flight Bird flight Flight feather Flying and gliding animals Insect flight List of soaring birds Samara winged seeds of trees AviationAircraft Blade solidity FanWing and Flettner airplane experimental wing types Flight dynamics fixed wing aircraft Kite types Ornithopter Flapping wing aircraft research prototypes simple toys and models Otto Lilienthal Wing configuration Wing root Wingsuit flyingSailingSails Forces on sails WingsailReferences edit Online Etymology Dictionary Etymonline com Retrieved 2012 04 25 Navier Stokes Equations Glenn Research Center 2012 04 16 Retrieved 2012 04 25 Halliday David Resnick Robert Fundamentals of Physics 3rd ed John Wiley amp Sons p 378 the effect of the wing is to give the air stream a downward velocity component The reaction force of the deflected air mass must then act on the wing to give it an equal and opposite upward component If the body is shaped moved or inclined in such a way as to produce a net deflection or turning of the flow the local velocity is changed in magnitude direction or both Changing the velocity creates a net force on the body Lift from Flow Turning Glenn Research Center Retrieved 2011 06 29 The cause of the aerodynamic lifting force is the downward acceleration of air by the airfoil Weltner Klaus Ingelman Sundberg Martin Physics of Flight reviewed Goethe University Frankfurt Archived from the original on 2011 07 19 Incorrect Lift Theory Glenn Research Center Laitone E V 1997 Wind tunnel tests of wings at Reynolds numbers below 70 000 Experiments in Fluids 23 405 405 409 doi 10 1007 s003480050128 S2CID 122755021 What are acrobatic and aerobatic flight Federal Aviation Administration Retrieved 26 October 2022 consider a sail that is nothing but a vertical wing generating side force to propel a yacht it is obvious that the distance between the stagnation point and the trailing edge is more or less the same on both sides This becomes exactly true in the absence of a mast and clearly the presence of the mast is of no consequence in the generation of lift Thus the generation of lift does not require different distances around the upper and lower surfaces Holger Babinsky How do Wings Work Physics Education November 2003 PDF John D Anderson Jr Introduction to Flight 4th ed page 271 Supercritical wings have a flat on top upside down look NASA Dryden Flight Research Center Hahne David E Jordan Frank L Jr 1991 Semi span full scale tests of a business jet wing with a natural laminar flow airfoil National Aeronautics and Space Administration Scientific and Technical Information Office p 5 via Google Books The Physics Of Kite Flying Aerodynamic Lift RealWorldPhysicsProblems com real world physics problems com Retrieved 28 January 2022 Lopez Harm Frederik Althuisius Helicopter physics PDF ColoradoCollege edu Colorado College Dept of Physics Retrieved 28 January 2022 Rocket aerodynamics Sciencelearn org nz New Zealand Government Ministry of Business Innovation amp Employment Retrieved 28 January 2022 Zoechling Moritz 20 January 2015 Aerodynamics on Formula 1 Race Cars APlusPhysics com A Plus Physics Retrieved 28 January 2022 Swimming Stanford university Retrieved 2012 04 25 Rogallo Wing the story told by NASA History nasa gov Retrieved 2012 12 23 Hopkins Ellen Bledsoe Glen 2001 The Golden Knights The U S Army Parachute Team Capstone pp 21 ISBN 9780736807753 Domina Jalbert ram air wing External links edit nbsp Wikimedia Commons has media related to Wings How Wings Work Holger Babinsky Physics Education 2003 How Airplanes Fly A Physical Description of Lift Demystifying the Science of Flight Audio segment on NPR s Talk of the Nation Science Friday NASA s explanations and simulations Flight of the StyroHawk wing See How It Flies Retrieved from https en wikipedia org w index php title Wing amp oldid 1191920948, wikipedia, wiki, book, books, library,

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