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	{{~~For~~\|his grandson, the cricketer\|George Cayley (cricketer)}}		{{for multi\|his grandson, the cricketer\|George Cayley (cricketer)\|the Royal Navy admiral and RAF general\|G. C. Cayley}}
			{{short description\|British aeronautical engineer (1773–1857)}}
	{{Use dmy dates\|date=April 2012}}
			{{Use dmy dates\|date=December 2020}}
			{{Use British English\|date=December 2016}}
	{{Infobox scientist		{{Infobox scientist
			\| honorific_prefix = Sir
	\| name = Sir George Cayley, 6th Baronet of Brompton
			\| name = George Cayley
			\| honorific_suffix = {{post-nominals\|country=GBR\|Bt\|size=100%}}
	\| image = George Cayley.jpg		\| image = George Cayley.jpg
			\| caption = Portrait of Cayley c.1840 by ]
	\| image_size = 200px
	\| caption = George Cayley
	\| father = Sir Thomaa Cayley, 5th Bt.
	\| mother = Isabella Seton
	\| birth_date = {{Birth date\|1773\|12\|27\|df=yes}}		\| birth_date = {{Birth date\|1773\|12\|27\|df=yes}}
	\| birth_place = ], ], England		\| birth_place = ], ], ]
	\| death_date = {{Death date and age\|1857\|12\|15\|1773\|12\|27\|df=yes}}		\| death_date = {{Death date and age\|1857\|12\|15\|1773\|12\|27\|df=yes}}
	\| death_place = ], Yorkshire, England		\| death_place = ], Yorkshire, England
	\| nationality = ]		\| nationality = English
	\| ~~field~~ = ], ], ], ]		\| spouse = Sarah Benskin Charlotte Elizabeth Illingworth
			\| citizenship = ]
	\| known_for = Designed first successful human glider. Discovered the four ] forces of flight ], ], ], ] and ], basis for the design of the modern aeroplane.
			\| field = ], ], ], ]
			\| known_for = Designed first successful human glider. Discovered the four ] forces of flight: ], ], ], ]; and ], basis for the design of the modern aeroplane.
	\| }}		\| }}
	'''Sir George Cayley, 6th Baronet of Brompton''' (27 December 1773 – 15 December 1857) was a prolific ] ] and one of the most important people in the history of ]. Many consider him the first true scientific aerial investigator and the first person to understand the underlying principles and forces of ].<ref name="Father of aviation">
	*{{cite web
	\| title = Sir George Cayley
	\| url = http://www.flyingmachines.org/cayl.html
	\| publisher = Flyingmachines.org
	\| accessdate =26 July 2009
	}}
	*{{cite web
	\| title = The Pioneers: Aviation and Airmodelling
	\| url = http://www.ctie.monash.edu.au/hargrave/cayley.html
	\| publisher =
	\| accessdate =26 July 2009
	\| quote = Sir George Cayley, is sometimes called the 'Father of Aviation'/'Father Of Aerial Navigation'. A pioneer in his field, he is credited with the first major breakthrough in heavier-than-air flight. He was the first to identify the four aerodynamic forces of flight – weight, lift, drag, and thrust – and their relationship and also the first to build a successful human carrying glider.}}
	*{{cite web
	\| title = U.S Centennial of Flight Commission – Sir George Cayley.
	\| url = http://www.centennialofflight.gov/essay/Prehistory/Cayley/PH2.htm
	\| publisher =
	\| accessdate =10 September 2008
	}}</ref>

	In 1799 he set forth the concept of the modern aeroplane as a ] flying machine with separate systems for lift, propulsion, and control.<ref>{{cite web
	\| title = Aviation History
	\| url = http://www.aviation-history.com/early/cayley.htm
	\| publisher =
	\| accessdate =26 July 2009
	}}</ref>
	<ref>{{cite web
	\| title = Sir George Cayley (British Inventor and Scientist)
	\| url = http://www.britannica.com/EBchecked/topic/100795/Sir-George-Cayley-6th-Baronet
	\| publisher = Britannica
	\| accessdate =26 July 2009

			'''Sir George Cayley,<ref name="haecayley">{{cite web\|url=http://hotairengines.org/inventors/cayley\|title=George Cayley's life\|work=hotairengines.org}}</ref> ]''' (27 December 1773 – 15 December 1857)<ref name="ODNB">{{cite ODNB\|id=37271 \|title=Cayley, Sir George, sixth baronet \|first=John A. \|last=Bagley}}</ref> was an English ], inventor, and aviator. He is one of the most important people in the history of ]. Many consider him to be the first true scientific aerial investigator and the first person to understand the underlying principles and forces of ] and the first man to create the wire wheel.<ref name="Father of aviation">
	}}</ref>
			*{{cite web\|title=Sir George Cayley\|url=http://www.flyingmachines.org/cayl.html\|publisher=Flyingmachines.org \|access-date=26 July 2009}}
	He was a pioneer of ] and is sometimes referred to as "the father of aviation", <ref name="Father of aviation"/> Designer of the first glider to carry a human being aloft, he discovered and identified the four aerodynamic forces of flight: ], ], ], and ], which act on any flying vehicle. Modern aeroplane design is based on those discoveries and also on the importance of ], also identified by Cayley.
			*{{cite web\|title=The Pioneers: Aviation and Airmodelling\|url=http://www.ctie.monash.edu.au/hargrave/cayley.html\|access-date=26 July 2009}}
			*{{cite web\|title=U.S Centennial of Flight Commission – Sir George Cayley.\|url=http://www.centennialofflight.gov/essay/Prehistory/Cayley/PH2.htm\|access-date=10 September 2008\|url-status=dead\|archive-url=https://web.archive.org/web/20080920052758/http://centennialofflight.gov/essay/Prehistory/Cayley/PH2.htm\|archive-date=20 September 2008}}</ref>

			In 1799, he set forth the concept of the modern aeroplane as a ] flying machine with separate systems for lift, propulsion, and control.<ref>{{cite web\|title=Aviation History\|url=http://www.aviation-history.com/early/cayley.htm\|access-date =26 July 2009}}</ref><ref>{{cite web\|title= Sir George Cayley (British Inventor and Scientist)\|url=http://www.britannica.com/EBchecked/topic/100795/Sir-George-Cayley-6th-Baronet\|publisher=Britannica\|access-date=26 July 2009}}</ref>
	He worked over half a century before the development of powered flight, being acknowledged by the ].<ref name="ctie">{{cite web \|title=The Pioneers: Aviation and Airmodelling \|url=http://www.ctie.monash.edu.au/hargrave/cayley.html \|publisher= \|accessdate=26 July 2009}}</ref><ref name="deeWright7">Dee, Richard. Retrieved: 30 May 2010.</ref> He constructed the first flying model aeroplane and also diagrammed the elements of vertical flight.<ref>{{cite web
			He was a pioneer of ] and is sometimes referred to as "the father of aviation."<ref name="Father of aviation"/> He identified the four forces which act on a heavier-than-air flying vehicle: ], ], ] and ].<ref>
	\| title = U.S Centennial of Flight Commission.
	~~\| url =~~ http://www.centennialofflight.~~gov~~/essay/~~Dictionary~~/Cayley/~~DI15~~.htm		U.S. Centennial of Flight Commission. Retrieved 28 June 2016
			</ref> Modern aeroplane design is based on those discoveries and on the importance of ], also proposed by Cayley.<ref>] (20 September 1962) ], link from ]</ref> He constructed the first flying model aeroplane and also diagrammed the elements of vertical flight.<ref>{{cite web
	\| publisher =
			\| title = Sir George Cayley
	\| accessdate =10 September 2008
			\| url = http://www.centennialofflight.net/essay/Dictionary/Cayley/DI15.htm
			\| publisher = U.S Centennial of Flight Commission
			\| access-date =10 September 2008}}
	</ref>		</ref>
			He also designed the first glider reliably reported to carry a human aloft. He correctly predicted that sustained flight would not occur until a lightweight engine was developed to provide adequate thrust and lift.<ref name="Pioneers"/> The ] acknowledged his importance to the development of aviation.<ref name="Pioneers">{{cite web \|title=The Pioneers: Aviation and Airmodelling \|url=https://www.ctie.monash.edu.au/hargrave/cayley.html \|access-date=26 July 2009}}</ref>

			Cayley represented the ] party as ] for ] from 1832 to 1835, and in 1838, helped found the UK's first Polytechnic Institute, the Royal Polytechnic Institution (now ]) and served as its chairman for many years. He was elected as a Vice-President of the ] in 1824.<ref>{{cite report \|url=https://www.biodiversitylibrary.org/item/250327#page/48/mode/1up \|title=Annual Report of the Yorkshire Philosophical Society for 1824 \|publisher=Yorkshire Philosophical Society \|page=34 \|date=1825}}</ref> He was a founding member of the ] and was a distant cousin of the ] ].
	]
	Cayley served for the ] party as ] for ] from 1832 to 1835, and in 1838 helped found the UK's first Polytechnic Institute; the Royal Polytechnic Institution (now ]), serving as its chairman for many years. He was a founding member of the ] and was a distant cousin of the ] ].

	==General engineering projects==		==General engineering projects==
	Cayley, from ], near ] in ], inherited Brompton Hall and ] and other estates on the death of his father, the 5th baronet. Captured by the optimism of the times, he engaged in a wide variety of ] projects.		Cayley, from ], near ] in ], inherited Brompton Hall and ] and other estates on the death of his father, the 5th baronet. Captured by the optimism of the times, he engaged in a wide variety of ] projects. Among the many things that he developed are self-righting ]s, ]s,
			<ref>In his notebook, dated 19 March 1808, Cayley proposed that in order to produce "the lightest possible wheel for aerial navigation cars," one should "do away with wooden spokes altogether and refer the whole firmness of the wheel to the strength of the rim only, by the intervention of tight strong cording … " See: J.A.D. Ackroyd (2011) {{Webarchive\|url=https://web.archive.org/web/20131226050808/http://aerosociety.com/Assets/Docs/Publications/The%20Journal%20of%20Aeronautical%20History/2011-06Cayley-Ackroyd2.pdf \|date=26 December 2013 }} ''Journal of Aeronautical History'' , paper no. 6, pages 130–181. Cayley's tension-spoke wheel appears on page 152, "3.7 The Tension Wheel, 1808".</ref> the "Universal Railway" (his term for ]),<ref> ''Mechanics' Magazine'', '''5''' (127) : 225–227 (28 January 1826).</ref> automatic signals for railway crossings,<ref>George Cayley (13 February 1841) ''Mechanics' Magazine'', '''34''' (914) : 129–133. See also letters in reply on pages 180–181.</ref> ]s, small scale ]s, and a kind of prototypical ] fuelled by ] (]). He suggested that a more practical engine might be made using gaseous vapours rather than gunpowder, thus foreseeing the modern internal combustion engine.<ref>Raleigh, W; ''The War in the Air, Vol. 1'', Clarendon 1922.</ref> He also contributed in the fields of ]s, ], ], ] ], ], ] and ], and held the belief that these advancements should be freely available.<ref name="ackroyd">Ackroyd, J.A.D. ''Notes Rec. R. Soc. Lond. 56 (2), 167–181'' (2002). Retrieved: 29 May 2010.</ref><!--page170-->

			According to the ], George Cayley was the inventor of the ] in 1807: "The first successfully working hot air engine was Cayley's, in which much ingenuity was displayed in overcoming practical difficulties arising from the high working temperature."<ref name="haecayley1807">{{cite web\|url=http://hotairengines.org/furnace-air-engine/cayley-1807\|title=Cayley's 1807 Hot Air Engine\|work=hotairengines.org}}</ref> His second hot air engine of 1837 was a forerunner of the ]: "In 1837, Sir George Cayley, Bart., Assoc. Inst. C.E., applied the products of combustion from closed furnaces, so that they should act directly upon a piston in a cylinder. Plate No. 9 represents a pair of engines upon this principle, together equal to 8 HP, when the piston travels at the rate of 220 feet per minute."<ref name="haecayley1837">{{cite web\|url=http://hotairengines.org/furnace-air-engine/cayley-1837\|title=Cayley's 1837 Hot Air Engine\|work=hotairengines.org}}</ref>
	Among the many things that he developed are self-righting ]s, ]s,<ref>In his notebook, dated March 19, 1808, Cayley proposed that in order to produce "the lightest possible wheel for aerial navigation cars," one should "do away with wooden spokes altogether and refer the whole firmness of the wheel to the strength of the rim only, by the intervention of tight strong cording … " See: J.A.D. Ackroyd (2011) ''Journal of Aeronautical History'' , paper no. 6, pages 130–181. Cayley's tension-spoke wheel appears on page 152, "3.7 The Tension Wheel, 1808".</ref> the "Universal Railway" (his term for ]),<ref> ''Mechanics' Magazine'', '''5''' (127) : 225–227 (Jan. 28, 1826).</ref> automatic signals for railway crossings,<ref>George Cayley (February 13, 1841) ''Mechanics' Magazine'', '''34''' (914) : 129–133. See also letters in reply on pages 180–181.</ref> ]s, small scale ]s, and a kind of prototypical ] fuelled by ]. He suggested that a more practical engine might be made using gaseous vapours rather than gunpowder, thus foreseeing the modern internal combustion engine.<ref>Raleigh, W; ''The War in the Air, Vol. 1'', Clarendon 1922.</ref> He also contributed in the fields of ]s, ], ], ] ], ], ] and ], and held the belief that these advancements should be freely available.<ref name="ackroyd">Ackroyd, J.A.D. ''Notes Rec. R. Soc. Lond. 56 (2), 167–181'' (2002). Retrieved: 29 May 2010.</ref><!--page170-->

	==Flying machines==		==Flying machines==
	]		]
			Cayley is mainly remembered for his pioneering studies and experiments with ]s, including the working, piloted ] that he designed and built. He wrote a landmark three-part treatise titled "On Aerial Navigation" (1809–1810),<ref name="AerNav123">''Cayley, George''. "On Aerial Navigation" {{webarchive \|url=https://web.archive.org/web/20130511071413/http://www.aeronautics.nasa.gov/fap/OnAerialNavigationPt1.pdf \|date=11 May 2013 }} , {{webarchive \|url=https://web.archive.org/web/20130511041814/http://www.aeronautics.nasa.gov/fap/OnAerialNavigationPt2.pdf \|date=11 May 2013 }} , {{webarchive \|url=https://web.archive.org/web/20130511052409/http://www.aeronautics.nasa.gov/fap/OnAerialNavigationPt3.pdf \|date=11 May 2013 }} ''Nicholson's Journal of Natural Philosophy'', 1809–1810. (Via ]). . Retrieved: 30 May 2010.</ref> which was published in ]'s ''Journal of Natural Philosophy, Chemistry and the Arts''. The 2007 discovery of sketches in Cayley's school notebooks (held in the archive of the ] Library)<ref>{{Cite web\|url=http://www.adsadvance.co.uk/sir-george-cayley-s-notebooks-featured-on-antiques-roadshow.html\|title = ADS Advance - Sir George Cayley's notebooks featured on Antiques Roadshow}}</ref> revealed that even at school Cayley was developing his ideas on the theories of flight. It has been claimed<ref>{{cite book \|last= Dee \|first= Richard \|author-link= Richard Dee \|title= The Man who Discovered Flight: George Cayley and the First Airplane \|year= 2007\|publisher= McClelland and Stewart\|location= Toronto \|isbn= 978-0-7710-2971-4 }}</ref> that these images indicate that Cayley identified the principle of a lift-generating inclined plane as early as 1792. To measure the drag on objects at different speeds and angles of attack, he later built a "whirling-arm apparatus", a development of earlier work in ballistics and air resistance. He also experimented with rotating wing sections of various forms in the stairwells at Brompton Hall.
	]
	He is mainly remembered for his pioneering studies and experiments with ]s, including the working, piloted ] that he designed and built. He wrote a landmark three-part treatise titled "On Aerial Navigation" (1809–1810),<ref name="AerNav123">''Cayley, George''. "On Aerial Navigation" , , ''Nicholson's Journal of Natural Philosophy'', 1809–1810. (Via ]). . Retrieved: 30 May 2010.</ref> which was published in ]'s ''Journal of Natural Philosophy, Chemistry and the Arts''. The 2007 discovery of sketches in Cayley's school notebooks (held in the archive of the ] Library revealed that even at school Cayley was developing his ideas on the theories of flight. It has been claimed<ref>{{cite book \|last= Dee \|first= Richard \|authorlink= Richard Dee \|coauthors= \|title= The Man who Discovered Flight: George Cayley and the First Airplane \|year= 2007\|publisher= McClelland and Stewart\|location= Toronto \|isbn= 978-0-7710-2971-4 }}</ref> that these images indicate that Cayley identified the principle of a lift-generating inclined plane as early as 1792. To measure the drag on objects at different speeds and angles of attack, he later built a "whirling-arm apparatus", a development of earlier work in ballistics and air resistance. He also experimented with rotating wing sections of various forms in the stairwells at Brompton Hall.

			{{Quote box\|width=28%\|align=left\|quote="About 100 years ago, an Englishman, Sir George Cayley, carried the science of flight to a point which it had never reached before and which it scarcely reached again during the last century."\|source =— ], 1909.<ref name="Pioneers"/>}}
	These scientific experiments led him to develop an efficient ] ] and to identify the four vector forces that influence an aircraft: ''thrust'', ''lift'', ''drag'', and ''gravity''. He discovered the importance of the ] angle for lateral stability in flight, and deliberately set the ] of many of his models well below the wings for this reason; these principles influenced the development of ]. As a result of his investigations into many other theoretical aspects of flight, many now acknowledge him as the first ]. His emphasis on lightness led him to shift the forces in the landing gear wheel from ] to ] by using string as wires,<ref name="FG54">Pritchard, J. Laurence. '']'' number 2390 volume 66 page 702, 12 November 1954. Retrieved: 29 May 2010"</ref> in effect re-inventing the wheel. This ] was (and is) later used by others for bicycles, cars and many other vehicles.
			These scientific experiments led him to develop an efficient ] ] and to identify the four vector forces that influence an aircraft: ''thrust'', ''lift'', ''drag'', and ''weight''. He discovered the importance of the ] angle for lateral stability in flight, and deliberately set the ] of many of his models well below the wings for this reason; these principles influenced the development of ]. As a result of his investigations into many other theoretical aspects of flight, many now acknowledge him as the first ]. His emphasis on lightness led him to invent a new method of constructing ] which is in common use today. For his landing wheels, he shifted the spoke's forces from ] to ] by making them from tightly-stretched string, in effect "reinventing the wheel".<ref name="FG54">Pritchard, J. Laurence. '']'' number 2390 volume 66 page 702, 12 November 1954. Retrieved: 29 May 2010"</ref><ref>John Lloyd and John Mitchinson; ''QI: The Second Book of General Ignorance'', Faber & Faber 2010, </ref> Wire soon replaced the string in practical applications and over time the ] came into common use on bicycles, cars, aeroplanes and many other vehicles.

			]
	The model glider successfully flown by Cayley in 1804 had the layout of a modern aircraft, with a kite-shaped wing towards the front and an adjustable tailplane at the back consisting og ]s and a ]. A movable weight allowed adjustment of the model's ].<ref>Gibbs-Smith 2002, p. 35</ref> Around 1843, he was the first to suggest the idea for a convertiplane, an idea which was published in a paper written that same year. At some time before 1849 he designed and built a biplane in which an unknown ten-year-old boy flew. Later, with the continued assistance of his grandson George John Cayley and his resident engineer Thomas Vick, he developed a larger scale glider (also probably fitted with "flappers") which flew across Brompton Dale in front of ] in 1853. The first adult aviator has been claimed to be either Cayley's coachman, footman or butler: one source (]) has suggested that it was John Appleby, a Cayley employee: however there is no definitive evidence to fully identify the pilot. An entry in volume IX of the 8th Encyclopædia Britannica of 1855 is the most contemporaneous account of authority regarding the event. A 2007 biography of Cayley (Richard Dee's ''The Man Who Discovered Flight: George Cayley and the First Airplane'') claims the first pilot was Cayley's grandson George John Cayley (1826–1878). A replica of the 1853 machine was flown at the original site in Brompton Dale by ] in 1973<ref name="glidmag1">Piggott, Derek. ''Gliding Magazine'' issue 10, 2003. Accessed 11 August 2008</ref> for TV and in the mid-1980s<ref name="glidmag2">Short, Simine. ''Gliding Magazine'' issue 10, 2003. Retrieved: 29 May 2010</ref> for the ] film '']''. The glider is currently on display at the ].<ref name="Yorkshire Air Museum">{{cite web
			The model glider successfully flown by Cayley in 1804 had the layout of a modern aircraft, with a kite-shaped wing towards the front and an adjustable tailplane at the back consisting of ]s and a ]. A movable weight allowed adjustment of the model's ].<ref>Gibbs-Smith 2002, p. 35</ref> In 1843 he was the first to suggest the idea of a ].<ref>{{Cite journal \|last=Cayley \|first=Geo. \|date=1843 \|title=On the principles of aerial navigation \|url=https://books.google.com/books?id=_-9IAAAAMAAJ&pg=RA1-PA202 \|journal=Journal of the Franklin Institute \|language=en \|volume=36 \|issue=3 \|pages=202-209 \|doi=10.1016/S0016-0032(43)91070-1}}</ref> At some time before 1849 he designed and built a biplane in which an unknown ten-year-old boy flew. Later, with the continued assistance of his grandson George John Cayley and his resident engineer Thomas Vick, he developed a larger scale glider (also probably fitted with "flappers") which flew across Brompton Dale in front of ] in 1853. The first adult aviator has been claimed to be either Cayley's coachman, footman or butler. One source (]) has suggested that it was John Appleby, a Cayley employee; however, there is no definitive evidence to fully identify the pilot. An entry in volume IX of the 8th Encyclopædia Britannica of 1855 is the most contemporaneous authoritative account regarding the event. A 2007 biography of Cayley (Richard Dee's ''The Man Who Discovered Flight: George Cayley and the First Airplane'') claims the first pilot was Cayley's grandson George John Cayley (1826–1878).
	\|url = http://www.yorkshireairmuseum.co.uk/exhibits/pioneers-of-aviation <!--deadlink was http://www.yorkshireairmuseum.co.uk/collections/aircraft/pre_wwII_aircraft_info.asp?id=2 -->

	\|title = Cayley glider
			A replica of the 1853 machine was flown at the original site in Brompton Dale by ] in 1973<ref name="glidmag1">Piggott, Derek. {{webarchive\|url=https://web.archive.org/web/20120717072431/http://www.glidingmagazine.com/FeatureArticle.asp?id=360 \|date=17 July 2012 }} ''Gliding Magazine'' issue 10, 2003. Accessed 11 August 2008</ref> for TV and in the mid-1980s<ref name="glidmag2">Short, Simine. {{webarchive\|url=https://web.archive.org/web/20120729014138/http://www.glidingmagazine.com/FeatureArticle.asp?id=357 \|date=29 July 2012 }} ''Gliding Magazine'' issue 10, 2003. Retrieved: 29 May 2010</ref> for the ] film '']''. The glider is currently on display at the ].<ref name="Yorkshire Air Museum">{{cite web
	}}
			\|url = http://www.yorkshireairmuseum.co.uk/exhibits/pioneers-of-aviation
	</ref> Another replica, piloted by Allan McWhirter,<ref name="virCay"> ''Virgin'', 4 March 2005. Retrieved: 29 May 2010.</ref> flew in ] just before ] landed the ] there again in March 2003, and later piloted by ] at Brompton in summer 2003.<ref name="popmecCay"> '']'' page 20, November 2003. Retrieved: 29 May 2010.</ref>
			\|title = Cayley glider
			\|access-date = 29 May 2010
			\|archive-date = 31 May 2010
			\|archive-url = https://web.archive.org/web/20100531174840/http://www.yorkshireairmuseum.co.uk/exhibits/pioneers-of-aviation
			\|url-status = dead
			}}</ref>

			A second replica of the Cayley Glider was built in 2003 by a team from BAE Systems to commemorate the 150th anniversary of the original flight. Built using modern materials and techniques, the craft was test flown by Alan McWhirter at RAF Pocklington, before being flown by Sir Richard Branson on 5 July 2003 at Brompton Dale, the site of the original gliders flight. Virgin Atlantic sponsored construction of the replica glider. In 2005, the replica glider was transported and rebuilt in Salina, Kansas, as part of the ground show for the return of the 'round-the-world' ] flight, with the glider being towed by a vehicle along the runway in front of the gathered crowds. Returning to the UK, the replica glider was flown once more for a segment on '']''. Again towed by a vehicle, the glider undertook its longest and highest flights during the filming and was flown by Dave Holborn. Placed into storage at BAE System's Farnborough site, it was donated to the ] in 2021 and is now on display.<ref>{{Cite web \|title=South Yorkshire Aircraft Museum {{!}} Aircraft List \|url=https://www.southyorkshireaircraftmuseum.org.uk/aircraftlist \|access-date=2023-12-24 \|website=AeroventureSYAM \|language=en \|archive-date=15 December 2018 \|archive-url=https://web.archive.org/web/20181215174650/https://www.southyorkshireaircraftmuseum.org.uk/aircraftlist \|url-status=dead }}</ref>

	==Memorial==		==Memorial==
			] commemorating Cayley in ], London]]
	Cayley is commemorated in Scarborough at the ], where a ] and a teaching building are named after him. He is one of many scientists and engineers commemorated by having a hall of residence and a bar at ] named after him. The ] also honours Cayley's contribution in the formation of the institution with a gold plaque at the entrance of the ] campus.
			Cayley died in 1857 and was buried in the graveyard of All Saints' Church in Brompton-by-Sawdon.<ref>{{Cite web\|title=Engineering Timelines - Home of Sir George Cayley\|url=http://www.engineering-timelines.com/scripts/engineeringItem.asp?id=545\|access-date=2021-04-10\|website=www.engineering-timelines.com}}</ref>

			He is commemorated in Scarborough at the ], where a ] and a teaching building are named after him. He is one of many scientists and engineers commemorated by having a hall of residence and a bar at ] named after him. The ] also honours Cayley's contribution to the formation of the institution with a gold plaque at the entrance of the ] building.
	There are display boards and a video film at the ] in Hendon, honouring Cayley's achievements and a modern exhibition and film "Pioneers of Aviation" at the Yorkshire Air Museum, Elvington,York. The Sir George Cayley Sailwing Club is a Yorkshire-based free flight club, affiliated to the British Hang Gliding and Paragliding Association, which has borne his name since its founding in 1975.<ref>{{cite web \|url=http://www.cayleyparagliding.co.uk/ \|title=Sir George Cayley Sailwing Club \|publisher=cayleyparagliding.co.uk \|accessdate=July 2015}}</ref>

			]
	==Ancestry==
			There are display boards and a video film at the ] in Hendon honouring Cayley's achievements and a modern exhibition and film "Pioneers of Aviation" at the Yorkshire Air Museum, Elvington, York.
	{{unreferenced section\|date=July 2015}}
			The Sir George Cayley Sailwing Club is a North Yorkshire-based free flight club, affiliated to the British Hang Gliding and Paragliding Association, which has borne his name since its founding in 1975.<ref>{{cite web \|url=http://www.cayleyparagliding.co.uk/ \|title=Sir George Cayley Sailwing Club \|publisher=cayleyparagliding.co.uk \|access-date=5 July 2015}}</ref>
	{{Ahnentafel top\|width=100%}}

	<center>{{ahnentafel-compact5
			In 1974, Cayley was inducted into the ].<ref>Sprekelmeyer, Linda, editor. ''These We Honor: The International Aerospace Hall of Fame''. Donning Co. Publishers, 2006. {{ISBN\|978-1-57864-397-4}}.</ref>
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			==Family==
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			On 3 July 1795 Cayley married Sarah Walker, daughter of his first tutor ].<ref>Parish Register of All Saints, Edmonton, transcript and linked image of parish register at - subscription required. Retrieved 29 May 2022.</ref><ref>J Laurence Pritchard. "Sir George Cayley", Max Parrish, 1961, p. 23</ref> (J W Clay's expanded edition of Dugdale's Visitation of Yorkshire incorrectly gives the date as 9 July 1795,<ref name="Dugdale">J W Clay. "Dugdale's Visitation of Yorkshire, with Additions", Vol. III. J W Pollard, 1917, p. 299. </ref> as does George Cayley's entry in the ''Oxford Dictionary of National Biography''.<ref name="ODNB"/>) They had ten children, of whom three died young.<ref name="ODNB"/> Sarah died on 8 December 1854.<ref name="Dugdale"/>
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	\|boxstyle_5=background-color: #9fe;
	\|1= 1. '''Sir George Cayley, 6th Bt.'''
	\|2= 2. Sir Thomas Cayley, 5th Bt. (1732-1792)
	\|3= 3. Isabella Seton (d. 1828)
	\|4= 4. Sir George Cayley, 4th Bt. (d. 1791)
	\|5= 5. Philadelphia Digby (1706-1765)
	\|8= 8. Sir Arthur Cayley, 3rd Bt. (d. 1727)
	\|9= 9. Everilda Thornhill (1680-1733)
	\|10= 10. John Digby (1668-1728)
	\|11= 11. Jane Wharton
	\|16= 16. ]
	\|17= 17. Mary Holbech (d. 1709)
	\|18= 18. George Thornhill (1655-1687),<br>grandson of ] and<br>Everilda Maltby (matrineal descendant of ])
	\|19= 19. Mary Wyvill
	\|22= 22. Sir Thomas Wharton (d. 1684),<br> son of ] and ]
	\|23= 23. Jane Dand (d. 1714)
	}}</center>
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	==See also==		==See also==
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	==Notes==		==Notes==
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	==References==		==References==

	* ] ''Notes and Records of the Royal Society of London'', Vol. 17, No. 1 (May, 1962), pp. 36–56		* ] ''Notes and Records of the Royal Society of London'', Vol. 17, No. 1 (May 1962), pp. 36–56
	* Gibbs-Smith, C.H. ''Aviation''. London, NMSO, 2002		* Gibbs-Smith, C.H. ''Aviation''. London, NMSO, 2002
	* ] and Elizabeth Cayley, ''The Life of a Genius'', ], 1965.		* ] and Elizabeth Cayley, ''The Life of a Genius'', ], 1965.

	== External links ==		==External links==
			{{Commonscat}}
	* {{Hansard-contribs \| sir-george-cayley \| Sir George Cayley }}
			*{{Hansard-contribs \| sir-george-cayley \| Sir George Cayley }}

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	* a 1954 ''Flight'' article		* a 1954 ''Flight'' article
	* a 1954 ''Flight'' ~~article~~		* a 1954 ''Flight'' art
	* a 1973 ''Flight'' article		* a 1973 ''Flight'' article
			*Ackroyd, J.A.D. "Sir George Cayley, the father of Aeronautics". Notes and Records of the Royal Society of London 56 (2002) ,

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	* Ackroyd, J.A.D. "Sir George Cayley, the father of Aeronautics". Notes and Records of the Royal Society of London 56 (2002) ,

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	{{succession box \| before=] \| title=]<br />'''(of Brompton) \| years=~~'''~~1792–1857 \| after=]}}		{{succession box \| before=] \| title=]<br />'''(of Brompton)''' \| years=1792–1857 \| after=]}}
	{{s-end}}		{{s-end}}

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	{{Persondata <!-- Metadata: see ]. -->
	\| NAME = Cayley, George
	\| ALTERNATIVE NAMES =
	\| SHORT DESCRIPTION = British politician
	\| DATE OF BIRTH = 27 December 1773
	\| PLACE OF BIRTH = ], ], ]
	\| DATE OF DEATH = 15 December 1857
	\| PLACE OF DEATH = ], Yorkshire, England
	}}
	{{DEFAULTSORT:Cayley, George}}		{{DEFAULTSORT:Cayley, George}}
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Latest revision as of 12:05, 27 October 2024

For his grandson, the cricketer, see George Cayley (cricketer). For the Royal Navy admiral and RAF general, see G. C. Cayley. British aeronautical engineer (1773–1857)

SirGeorge CayleyBt
Portrait of Cayley c.1840 by Henry Perronet Briggs
Born	(1773-12-27)27 December 1773 Scarborough, Yorkshire, England
Died	15 December 1857(1857-12-15) (aged 83) Brompton, Yorkshire, England
Nationality	English
Citizenship	British
Known for	Designed first successful human glider. Discovered the four aerodynamic forces of flight: weight, lift, drag, thrust; and cambered wings, basis for the design of the modern aeroplane.
Spouse	Sarah Benskin Charlotte Elizabeth Illingworth
Scientific career
Fields	Aviation, aerodynamics, aeronautics, aeronautical engineering

Sir George Cayley, 6th Baronet (27 December 1773 – 15 December 1857) was an English engineer, inventor, and aviator. He is one of the most important people in the history of aeronautics. Many consider him to be the first true scientific aerial investigator and the first person to understand the underlying principles and forces of flight and the first man to create the wire wheel.

In 1799, he set forth the concept of the modern aeroplane as a fixed-wing flying machine with separate systems for lift, propulsion, and control. He was a pioneer of aeronautical engineering and is sometimes referred to as "the father of aviation." He identified the four forces which act on a heavier-than-air flying vehicle: weight, lift, drag and thrust. Modern aeroplane design is based on those discoveries and on the importance of cambered wings, also proposed by Cayley. He constructed the first flying model aeroplane and also diagrammed the elements of vertical flight. He also designed the first glider reliably reported to carry a human aloft. He correctly predicted that sustained flight would not occur until a lightweight engine was developed to provide adequate thrust and lift. The Wright brothers acknowledged his importance to the development of aviation.

Cayley represented the Whig party as Member of Parliament for Scarborough from 1832 to 1835, and in 1838, helped found the UK's first Polytechnic Institute, the Royal Polytechnic Institution (now University of Westminster) and served as its chairman for many years. He was elected as a Vice-President of the Yorkshire Philosophical Society in 1824. He was a founding member of the British Association for the Advancement of Science and was a distant cousin of the mathematician Arthur Cayley.

General engineering projects

Cayley, from Brompton-by-Sawdon, near Scarborough in Yorkshire, inherited Brompton Hall and Wydale Hall and other estates on the death of his father, the 5th baronet. Captured by the optimism of the times, he engaged in a wide variety of engineering projects. Among the many things that he developed are self-righting lifeboats, tension-spoke wheels, the "Universal Railway" (his term for caterpillar tractors), automatic signals for railway crossings, seat belts, small scale helicopters, and a kind of prototypical internal combustion engine fuelled by gunpowder (Gunpowder engine). He suggested that a more practical engine might be made using gaseous vapours rather than gunpowder, thus foreseeing the modern internal combustion engine. He also contributed in the fields of prosthetics, air engines, electricity, theatre architecture, ballistics, optics and land reclamation, and held the belief that these advancements should be freely available.

According to the Institution of Mechanical Engineers, George Cayley was the inventor of the hot air engine in 1807: "The first successfully working hot air engine was Cayley's, in which much ingenuity was displayed in overcoming practical difficulties arising from the high working temperature." His second hot air engine of 1837 was a forerunner of the internal combustion engine: "In 1837, Sir George Cayley, Bart., Assoc. Inst. C.E., applied the products of combustion from closed furnaces, so that they should act directly upon a piston in a cylinder. Plate No. 9 represents a pair of engines upon this principle, together equal to 8 HP, when the piston travels at the rate of 220 feet per minute."

Flying machines

Cayley's glider in *Mechanics' Magazine*, 1852

Cayley is mainly remembered for his pioneering studies and experiments with flying machines, including the working, piloted glider that he designed and built. He wrote a landmark three-part treatise titled "On Aerial Navigation" (1809–1810), which was published in Nicholson's Journal of Natural Philosophy, Chemistry and the Arts. The 2007 discovery of sketches in Cayley's school notebooks (held in the archive of the Royal Aeronautical Society Library) revealed that even at school Cayley was developing his ideas on the theories of flight. It has been claimed that these images indicate that Cayley identified the principle of a lift-generating inclined plane as early as 1792. To measure the drag on objects at different speeds and angles of attack, he later built a "whirling-arm apparatus", a development of earlier work in ballistics and air resistance. He also experimented with rotating wing sections of various forms in the stairwells at Brompton Hall.

"About 100 years ago, an Englishman, Sir George Cayley, carried the science of flight to a point which it had never reached before and which it scarcely reached again during the last century."

— Wilbur Wright, 1909.

These scientific experiments led him to develop an efficient cambered airfoil and to identify the four vector forces that influence an aircraft: thrust, lift, drag, and weight. He discovered the importance of the dihedral angle for lateral stability in flight, and deliberately set the centre of gravity of many of his models well below the wings for this reason; these principles influenced the development of hang gliders. As a result of his investigations into many other theoretical aspects of flight, many now acknowledge him as the first aeronautical engineer. His emphasis on lightness led him to invent a new method of constructing lightweight wheels which is in common use today. For his landing wheels, he shifted the spoke's forces from compression to tension by making them from tightly-stretched string, in effect "reinventing the wheel". Wire soon replaced the string in practical applications and over time the wire wheel came into common use on bicycles, cars, aeroplanes and many other vehicles.

The model glider successfully flown by Cayley in 1804 had the layout of a modern aircraft, with a kite-shaped wing towards the front and an adjustable tailplane at the back consisting of horizontal stabilisers and a vertical fin. A movable weight allowed adjustment of the model's centre of gravity. In 1843 he was the first to suggest the idea of a convertiplane. At some time before 1849 he designed and built a biplane in which an unknown ten-year-old boy flew. Later, with the continued assistance of his grandson George John Cayley and his resident engineer Thomas Vick, he developed a larger scale glider (also probably fitted with "flappers") which flew across Brompton Dale in front of Wydale Hall in 1853. The first adult aviator has been claimed to be either Cayley's coachman, footman or butler. One source (Gibbs-Smith) has suggested that it was John Appleby, a Cayley employee; however, there is no definitive evidence to fully identify the pilot. An entry in volume IX of the 8th Encyclopædia Britannica of 1855 is the most contemporaneous authoritative account regarding the event. A 2007 biography of Cayley (Richard Dee's The Man Who Discovered Flight: George Cayley and the First Airplane) claims the first pilot was Cayley's grandson George John Cayley (1826–1878).

A replica of the 1853 machine was flown at the original site in Brompton Dale by Derek Piggott in 1973 for TV and in the mid-1980s for the IMAX film On the Wing. The glider is currently on display at the Yorkshire Air Museum.

A second replica of the Cayley Glider was built in 2003 by a team from BAE Systems to commemorate the 150th anniversary of the original flight. Built using modern materials and techniques, the craft was test flown by Alan McWhirter at RAF Pocklington, before being flown by Sir Richard Branson on 5 July 2003 at Brompton Dale, the site of the original gliders flight. Virgin Atlantic sponsored construction of the replica glider. In 2005, the replica glider was transported and rebuilt in Salina, Kansas, as part of the ground show for the return of the 'round-the-world' Virgin Atlantic GlobalFlyer flight, with the glider being towed by a vehicle along the runway in front of the gathered crowds. Returning to the UK, the replica glider was flown once more for a segment on The One Show. Again towed by a vehicle, the glider undertook its longest and highest flights during the filming and was flown by Dave Holborn. Placed into storage at BAE System's Farnborough site, it was donated to the South Yorkshire Aircraft Museum in 2021 and is now on display.

Memorial

Cayley died in 1857 and was buried in the graveyard of All Saints' Church in Brompton-by-Sawdon.

He is commemorated in Scarborough at the University of Hull, Scarborough Campus, where a hall of residence and a teaching building are named after him. He is one of many scientists and engineers commemorated by having a hall of residence and a bar at Loughborough University named after him. The University of Westminster also honours Cayley's contribution to the formation of the institution with a gold plaque at the entrance of the Regent Street building.

There are display boards and a video film at the Royal Air Force Museum London in Hendon honouring Cayley's achievements and a modern exhibition and film "Pioneers of Aviation" at the Yorkshire Air Museum, Elvington, York. The Sir George Cayley Sailwing Club is a North Yorkshire-based free flight club, affiliated to the British Hang Gliding and Paragliding Association, which has borne his name since its founding in 1975.

In 1974, Cayley was inducted into the International Air & Space Hall of Fame.

Family

On 3 July 1795 Cayley married Sarah Walker, daughter of his first tutor George Walker. (J W Clay's expanded edition of Dugdale's Visitation of Yorkshire incorrectly gives the date as 9 July 1795, as does George Cayley's entry in the Oxford Dictionary of National Biography.) They had ten children, of whom three died young. Sarah died on 8 December 1854.

Notes

"George Cayley's life". hotairengines.org.
^ Bagley, John A. "Cayley, Sir George, sixth baronet". Oxford Dictionary of National Biography (online ed.). Oxford University Press. doi:10.1093/ref:odnb/37271. (Subscription or UK public library membership required.)
^
- "Sir George Cayley". Flyingmachines.org. Retrieved 26 July 2009.
- "The Pioneers: Aviation and Airmodelling". Retrieved 26 July 2009.
- "U.S Centennial of Flight Commission – Sir George Cayley". Archived from the original on 20 September 2008. Retrieved 10 September 2008.
"Aviation History". Retrieved 26 July 2009.
"Sir George Cayley (British Inventor and Scientist)". Britannica. Retrieved 26 July 2009.
Sir George Cayley – Making Aviation Practical U.S. Centennial of Flight Commission. Retrieved 28 June 2016
C. H. Gibbs-Smith (20 September 1962) New Light on Cayley Flight International, link from Flightglobal
"Sir George Cayley". U.S Centennial of Flight Commission. Retrieved 10 September 2008.
^ "The Pioneers: Aviation and Airmodelling". Retrieved 26 July 2009.
Annual Report of the Yorkshire Philosophical Society for 1824 (Report). Yorkshire Philosophical Society. 1825. p. 34.
In his notebook, dated 19 March 1808, Cayley proposed that in order to produce "the lightest possible wheel for aerial navigation cars," one should "do away with wooden spokes altogether and refer the whole firmness of the wheel to the strength of the rim only, by the intervention of tight strong cording … " See: J.A.D. Ackroyd (2011) "Sir George Cayley: The invention of the aeroplane near Scarborough at the time of Trafalgar," Archived 26 December 2013 at the Wayback Machine Journal of Aeronautical History , paper no. 6, pages 130–181. Cayley's tension-spoke wheel appears on page 152, "3.7 The Tension Wheel, 1808".
"Sir George Cayley's patent universal railway," Mechanics' Magazine, 5 (127) : 225–227 (28 January 1826).
George Cayley (13 February 1841) "Essay on the means of promoting safety in railway carriages," Mechanics' Magazine, 34 (914) : 129–133. See also letters in reply on pages 180–181.
Raleigh, W; The War in the Air, Vol. 1, Clarendon 1922.
Ackroyd, J.A.D. Sir George Cayley, the father of Aeronautics Notes Rec. R. Soc. Lond. 56 (2), 167–181 (2002). Retrieved: 29 May 2010.
"Cayley's 1807 Hot Air Engine". hotairengines.org.
"Cayley's 1837 Hot Air Engine". hotairengines.org.
Cayley, George. "On Aerial Navigation" Part 1 Archived 11 May 2013 at the Wayback Machine , Part 2 Archived 11 May 2013 at the Wayback Machine , Part 3 Archived 11 May 2013 at the Wayback Machine Nicholson's Journal of Natural Philosophy, 1809–1810. (Via NASA). Raw text. Retrieved: 30 May 2010.
"ADS Advance - Sir George Cayley's notebooks featured on Antiques Roadshow".
Dee, Richard (2007). The Man who Discovered Flight: George Cayley and the First Airplane. Toronto: McClelland and Stewart. ISBN 978-0-7710-2971-4.
Pritchard, J. Laurence. Summary of First Cayley Memorial Lecture at the Brough Branch of the Royal Aeronautical Society Flight number 2390 volume 66 page 702, 12 November 1954. Retrieved: 29 May 2010"
John Lloyd and John Mitchinson; QI: The Second Book of General Ignorance, Faber & Faber 2010, Page 1.
Gibbs-Smith 2002, p. 35
Cayley, Geo. (1843). "On the principles of aerial navigation". Journal of the Franklin Institute. 36 (3): 202–209. doi:10.1016/S0016-0032(43)91070-1.
Piggott, Derek. Gliding 1852 Style Archived 17 July 2012 at the Wayback Machine Gliding Magazine issue 10, 2003. Accessed 11 August 2008
Short, Simine. Stamps that tell a story Archived 29 July 2012 at the Wayback Machine Gliding Magazine issue 10, 2003. Retrieved: 29 May 2010
"Cayley glider". Archived from the original on 31 May 2010. Retrieved 29 May 2010.
"South Yorkshire Aircraft Museum | Aircraft List". AeroventureSYAM. Archived from the original on 15 December 2018. Retrieved 24 December 2023.
"Engineering Timelines - Home of Sir George Cayley". www.engineering-timelines.com. Retrieved 10 April 2021.
"Sir George Cayley Sailwing Club". cayleyparagliding.co.uk. Retrieved 5 July 2015.
Sprekelmeyer, Linda, editor. These We Honor: The International Aerospace Hall of Fame. Donning Co. Publishers, 2006. ISBN 978-1-57864-397-4.
Parish Register of All Saints, Edmonton, transcript and linked image of parish register at Ancestry - subscription required. Retrieved 29 May 2022.
J Laurence Pritchard. "Sir George Cayley", Max Parrish, 1961, p. 23
^ J W Clay. "Dugdale's Visitation of Yorkshire, with Additions", Vol. III. J W Pollard, 1917, p. 299.

References

Gibbs-Smith, Charles H. Notes and Records of the Royal Society of London, Vol. 17, No. 1 (May 1962), pp. 36–56
Gibbs-Smith, C.H. Aviation. London, NMSO, 2002
Gerard Fairlie and Elizabeth Cayley, The Life of a Genius, Hodder and Stoughton, 1965.

External links

Hansard 1803–2005: contributions in Parliament by Sir George Cayley
Cayley's principles of flight, models and gliders
Cayley's gliders
Some pioneers of air engine design
Sir George Cayley – Making Aviation Practical
Sir George Cayley
"Sir George Cayley – The Man: His Work" a 1954 Flight article
"Aerodynamics in 1804" a 1954 Flight art
"Cayley's 1853 Aeroplane" a 1973 Flight article
Ackroyd, J.A.D. "Sir George Cayley, the father of Aeronautics". Notes and Records of the Royal Society of London 56 (2002) Part 1 (2), pp167–181, Part 2 (3), pp333–348
Cayley's Flying Machines

Parliament of the United Kingdom
Preceded byCharles Manners-Sutton Edmund Phipps	Member of Parliament for Scarborough 1832–1835 With: Sir John Vanden-Bempde-Johnstone, Bt	Succeeded bySir John Vanden-Bempde-Johnstone, Bt Sir Frederick Trench
Baronetage of England
Preceded byThomas Cayley	Baronet (of Brompton) 1792–1857	Succeeded byDigby Cayley

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