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Wright Aeronautical

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Wright Aeronautical (1919–1929) was an American aircraft manufacturer headquartered in Paterson, New Jersey . It was the successor corporation to Wright-Martin . It built aircraft and was a supplier of aircraft engines to other builders in the golden age of aviation. Wright engines were used by Amelia Earhart and Charles Lindbergh . In 1929, the company merged with Curtiss Aeroplane and Motor Corporation to form Curtiss-Wright .

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85-786: In 1916, the Wright brothers ' original aviation firm, the Wright Company , merged with Glenn L. Martin 's firm, the Glenn L. Martin Company of California , to form the Wright-Martin Aircraft Corporation . In September 1917, Martin resigned from Wright-Martin and re-formed an independent Glenn L. Martin Company of Ohio (later of Maryland ). After World War I in 1919, Wright-Martin was renamed Wright Aeronautical. It moved to Paterson, New Jersey in 1919. In February 1919, an airplane with

170-765: A bishop in the Church of the United Brethren in Christ , he traveled often and the Wrights frequently moved – twelve times before finally returning permanently to Dayton in 1884. In elementary school, Orville was given to mischief and was once expelled. In 1878, when the family lived in Cedar Rapids, Iowa , their father brought home a toy helicopter for his two younger sons. The device was based on an invention of French aeronautical pioneer Alphonse Pénaud . Made of paper, bamboo and cork with

255-688: A 300 horsepower engine by Wright again came in second place at the Pulitzer Trophy Race in Omaha, Nebraska . In 1921, Wright developed a new six-cylinder dirigible engine with 400 horsepower, testing it for nine months. In 1922, a plane with a Wright H-2 engine won the Mitchell Trophy Race . In May 1923, Wright Aeronautical purchased the Lawrance Aero Engine Company , acquiring Charles Lawrance 's J-1 radial engine . Lawrance became

340-532: A Wright engine broke the world's speed record at 163 2–3 miles per hour. In November 1920, an airplane with a 300-horsepower Wright engine came in second place in the first Pulitzer Trophy Race in Long Island, New York . Other planes using Wright engines came in fourth and fifth place in the race. In 1920, Wright produced a canon engine for the Army that allowed shells to be fired through the airplane's propeller. In 1921,

425-456: A dozen reporters, assembled on the Monday but rain kept the aircraft in its shed all morning, and when the rain cleared the wind had died away. There was little chance of a successful takeoff from the 100 ft (30 m) launching rail with no headwind. The Wrights decided to attempt a short flight to satisfy the press, but the motor did not develop its full power and the aircraft reached the end of

510-486: A falling weight of 800 pounds (360 kg), later increased to 1,600 pounds (730 kg), suspended from a 16 ft (4.9 m) high derrick, with a block and tackle to multiply the distance that the aircraft was pulled. Launched by the apparatus, Wilbur made his first turn in the air on September 15, and on September 20 he succeeded in flying a complete circle—the first ever by an airplane—covering 4,080 ft (1,240 m) in 1 minute 16 seconds. This flight

595-416: A few times, but the parachute effect of the forward elevator allowed Wilbur to make a safe flat landing, instead of a nose-dive. These incidents wedded the Wrights even more strongly to the canard design, which they did not give up until 1910. The glider, however, delivered two major disappointments. It produced only about one-third the lift calculated and sometimes pointed opposite the intended direction of

680-449: A few wing shapes, and the Wrights mistakenly assumed the data would apply to their wings, which had a different shape. The Wrights took a huge step forward and made basic wind tunnel tests on 200 scale-model wings of many shapes and airfoil curves, followed by detailed tests on 38 of them. An important discovery was the benefit of longer narrower wings: in aeronautical terms, wings with a larger aspect ratio (wingspan divided by chord –

765-415: A flying machine could be controlled and balanced with practice. This was a trend, as many other aviation pioneers were also dedicated cyclists and involved in the bicycle business in various ways. From 1900 until their first powered flights in late 1903, the brothers conducted extensive glider tests that also developed their skills as pilots. Their shop mechanic Charles Taylor became an important part of

850-409: A flying machine, but rather a system of aerodynamic control that manipulated a flying machine's surfaces. From the beginning of their aeronautical work, Wilbur and Orville focused on developing a reliable method of pilot control as the key to solving "the flying problem". This approach differed significantly from other experimenters of the time who put more emphasis on developing powerful engines. Using

935-454: A good way for a flying machine to turn – to "bank" or "lean" into the turn just like a bird – and just like a person riding a bicycle, an experience with which they were thoroughly familiar. Equally important, they hoped this method would enable recovery when the wind tilted the machine to one side (lateral balance). They puzzled over how to achieve the same effect with man-made wings and eventually discovered wing-warping when Wilbur idly twisted

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1020-405: A greater quantity of air than a single relatively slow propeller and not disturb airflow over the leading edge of the wings. Wilbur made a March 1903 entry in his notebook indicating the prototype propeller was 66% efficient. Modern wind tunnel tests on reproduction 1903 propellers show they were more than 75% efficient under the conditions of the first flights, "a remarkable feat", and actually had

1105-557: A long inner-tube box at the bicycle shop. Other aeronautical investigators regarded flight as if it were not so different from surface locomotion, except the surface would be elevated. They thought in terms of a ship's rudder for steering, while the flying machine remained essentially level in the air, as did a train or an automobile or a ship at the surface. The idea of deliberately leaning, or rolling, to one side seemed either undesirable or did not enter their thinking. Some of these other investigators, including Langley and Chanute, sought

1190-414: A peak efficiency of 82%. The Wrights wrote to several engine manufacturers, but none could meet their need for a sufficiently light-weight powerplant. They turned to their shop mechanic, Charlie Taylor , who built an engine in just six weeks in close consultation with the brothers. To keep the weight down the engine block was cast from aluminum, a rare practice at the time. The Wright/Taylor engine had

1275-455: A primitive version of a carburetor , and had no fuel pump . Gasoline was gravity -fed from the fuel tank mounted on a wing strut into a chamber next to the cylinders where it was mixed with air: The fuel-air mixture was then vaporized by heat from the crankcase, forcing it into the cylinders. Wright Flyer II The Wright Flyer II was the second powered aircraft built by Wilbur and Orville Wright . During 1904 they used it to make

1360-413: A quarter of a mile, the greatest distance that they could fly without having to make a turn. Because wind strength and direction were less reliable than at Kitty Hawk, the men sometimes had to laboriously re-lay the 160 feet (49 m) of "Junction Railroad" launch rail to suit conditions. On 7 September the men began using a catapult to accelerate the aircraft to the speed necessary for takeoff. They used

1445-410: A rubber band to twirl its rotor, it was about 1 ft (30 cm) long. Wilbur and Orville played with it until it broke, and then built their own. In later years, they pointed to their experience with the toy as the spark of their interest in flying. Both brothers attended high school, but did not receive diplomas. The family's abrupt move in 1884 from Richmond, Indiana , to Dayton , Ohio, where

1530-452: A serial killer. Wilbur lost his front teeth. He had been vigorous and athletic until then, and although his injuries did not appear especially severe, he became withdrawn. He had planned to attend Yale. Instead, he spent the next few years largely housebound. During this time he cared for his mother, who was terminally ill with tuberculosis, read extensively in his father's library and ably assisted his father during times of controversy within

1615-448: A small home-built wind tunnel , the Wrights also collected more accurate data than any before, enabling them to design more efficient wings and propellers. The brothers gained the mechanical skills essential to their success by working for years in their Dayton, Ohio -based shop with printing presses, bicycles, motors, and other machinery. Their work with bicycles, in particular, influenced their belief that an unstable vehicle such as

1700-401: A success", while The New York Times headline was "Fall wrecks airship". Repairs took two weeks, but the next flight attempt also ended in a crash, necessitating a further two weeks of repair work. On June 21 three flights without any breakages were achieved, but four days later the aircraft crashed again. These accidents were caused by the aircraft's pitch instability. Suspecting that this

1785-414: A tail was not necessary, and their first two gliders did not have one. According to some Wright biographers, Wilbur probably did all the gliding until 1902, perhaps to exercise his authority as older brother and to protect Orville from harm as he did not want to have to explain to their father, Bishop Wright, if Orville got injured. * (This airfoil caused severe stability problems; the Wrights modified

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1870-478: A thorough report about the 1900–1901 glider experiments and complemented his talk with a lantern slide show of photographs. Wilbur's speech was the first public account of the brothers' experiments. A report was published in the Journal of the society, which was then separately published as an offprint titled Some Aeronautical Experiments in a 300 copy printing. Lilienthal had made "whirling arm" tests on only

1955-402: A time with so few materials and at so little expense". In their September 1908 Century Magazine article, the Wrights explained, "The calculations on which all flying machines had been based were unreliable, and ... every experiment was simply groping in the dark ... We cast it all aside and decided to rely entirely upon our own investigations." The 1902 glider wing had a flatter airfoil, with

2040-489: A total of 105 flights, ultimately achieving flights lasting five minutes and also making full circles, which was accomplished by Wilbur for the first time on September 20. The design of the Flyer II was very similar to the original 1903 Wright Flyer , but with a slightly more powerful engine and construction using white pine instead of the spruce they used in the 1903 machine and the gliders of 1900–1902. An important change

2125-481: A trove of valuable data never before known and showed that the poor lift of the 1900 and 1901 gliders was entirely due to an incorrect Smeaton value, and that Lilienthal's published data were fairly accurate for the tests he had done. Before the detailed wind tunnel tests, Wilbur traveled to Chicago at Chanute's invitation to give a lecture to the Western Society of Engineers on September 18, 1901. He presented

2210-402: A turn – a problem later known as adverse yaw – when Wilbur used the wing-warping control. On the trip home a deeply dejected Wilbur remarked to Orville that man would not fly in a thousand years. The poor lift of the gliders led the Wrights to question the accuracy of Lilienthal's data, as well as the " Smeaton coefficient" of air pressure, a value which had been in use for over 100 years and

2295-479: A vice president of Wright. In 1925, Wright's president, Frederick B. Rentschler , left the company to found Pratt & Whitney Aircraft Company ; Lawrance replaced him as company president. Rentschler poached several talented personnel from Wright to join his new firm. Working off Lawrance's designs, Wright Aeronautical developed an air-cooled engine, the Model J Whirlwind series. In 1925, a Wright-Bellanca airplane won

2380-933: The Curtiss-Wright Corporation . Their engine divisions merged in 1931. During World War II , the Paterson plant had 24,000 employees, working in three daily shifts. They made some 75,000 engines for the B-25, the Boeing B-17, and other aircraft. Wright also made engines for 44 commercial airlines and rocket engines for space travel. However, the Paterson plant closed in 1946. [REDACTED] Media related to Wright Aeronautical at Wikimedia Commons Wright brothers The Wright brothers , Orville Wright (August 19, 1871 – January 30, 1948) and Wilbur Wright (April 16, 1867 – May 30, 1912), were American aviation pioneers generally credited with inventing, building, and flying

2465-426: The camber reduced to a ratio of 1-in-24, in contrast to the previous thicker wing. The larger aspect ratio was achieved by increasing the wingspan and shortening the chord. The glider also had a new structural feature: A fixed, rear vertical rudder, which the brothers hoped would eliminate turning problems. However, the 1902 glider encountered trouble in crosswinds and steep banked turns, when it sometimes spiraled into

2550-404: The coefficient of drag replaces the coefficient of lift , computing drag instead of lift. They used this equation to answer the question, "Is there enough power in the engine to produce a thrust adequate to overcome the drag of the total frame ...," in the words of Combs. The Wrights then "... measured the pull in pounds on various parts of their aircraft, including the pull on each of

2635-586: The Brethren Church, but also expressed unease over his own lack of ambition. Orville dropped out of high school after his junior year to start a printing business in 1889, having designed and built his own printing press with Wilbur's help. Wilbur joined the print shop, and in March the brothers launched a weekly newspaper, the West Side News . Subsequent issues listed Orville as publisher and Wilbur as editor on

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2720-548: The Pulitzer Trophy Race using a Wright Whirlwind engine. In 1927, a Wright J-5C Whirlwind engine was used by Charles Lindbergh in the Spirit of St. Louis when he flew from New York City to Paris . Wright engines were also used by other famed aviators, including Richard E. Byrd , Clarence Chamberlin , and Amelia Earhart . Wright Aeronautical merged with the Curtiss Aeroplane and Motor Company on July 5, 1929, to become

2805-451: The Smeaton coefficient; Chanute identified up to 50 of them. Wilbur knew that Langley, for example, had used a lower number than the traditional one. Intent on confirming the correct Smeaton value, Wilbur performed his own calculations using measurements collected during kite and free flights of the 1901 glider. His results correctly showed that the coefficient was very close to 0.0033 (similar to

2890-550: The Wright children had middle names. Instead, their father tried hard to give them distinctive first names. Wilbur was named for Willbur Fisk and Orville for Orville Dewey , both clergymen that Milton Wright admired. They were "Will" and "Orv" to their friends and in Dayton, their neighbors knew them simply as "the Bishop's kids", or "the Bishop's boys". Because of their father's position as

2975-430: The air with no previous flying experience. Although agreeing with Lilienthal's idea of practice, the Wrights saw that his method of balance and control by shifting his body weight was inadequate. They were determined to find something better. On the basis of observation, Wilbur concluded that birds changed the angle of the ends of their wings to make their bodies roll right or left. The brothers decided this would also be

3060-425: The air, damaging the skids and propellers. A series of flights ending in damage to the aircraft followed, but the run of bad luck ended on November 9, when Wilbur flew four circuits of Huffman Prairie, staying in the air for five minutes and only landing because the engine was beginning to overheat. On December 1 Orville made a similar flight, and on December 9 they stopped flying for the year. Harry Combs summarized

3145-658: The brothers built the powered Wright Flyer , using their preferred material for construction, spruce , a strong and lightweight wood, and Pride of the West muslin for surface coverings. They also designed and carved their own wooden propellers, and had a purpose-built gasoline engine fabricated in their bicycle shop. They thought propeller design would be a simple matter and intended to adapt data from shipbuilding. However, their library research disclosed no established formulae for either marine or air propellers, and they found themselves with no sure starting point. They discussed and argued

3230-450: The brothers favored his strategy: to practice gliding in order to master the art of control before attempting motor-driven flight. The death of British aeronaut Percy Pilcher in another hang gliding crash in October 1899 only reinforced their opinion that a reliable method of pilot control was the key to successful – and safe – flight. At the outset of their experiments they regarded control as

3315-402: The brothers put wing warping to the test by building and flying a biplane kite with a 5-foot (1.5 m) wingspan, and a curved wing with a 1-foot (0.30 m) chord . When the wings were warped, or twisted, the trailing edge that was warped down produced more lift than the opposite wing, causing a rolling motion. The warping was controlled by four lines between kite and crossed sticks held by

3400-420: The camber on-site.) The brothers flew the glider for only a few days in the early autumn of 1900 at Kitty Hawk. In the first tests, probably on October 3, Wilbur was aboard while the glider flew as a kite not far above the ground with men below holding tether ropes. Most of the kite tests were unpiloted, with sandbags or chains and even a local boy as ballast. They tested wing-warping using control ropes from

3485-400: The change in direction – was done with roll control using wing-warping. The principles remained the same when ailerons superseded wing-warping. With their new method, the Wrights achieved true control in turns for the first time on October 9, a major milestone. From September 20 until the last weeks of October, they flew over a thousand flights. The longest duration was up to 26 seconds, and

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3570-497: The dramatic glides by Otto Lilienthal in Germany. 1896 brought three important aeronautical events. In May, Smithsonian Institution Secretary Samuel Langley successfully flew an unmanned steam-powered fixed-wing model aircraft. In mid-year, Chicago engineer and aviation authority Octave Chanute brought together several men who tested various types of gliders over the sand dunes along the shore of Lake Michigan. In August, Lilienthal

3655-576: The elusive ideal of "inherent stability", believing the pilot of a flying machine would not be able to react quickly enough to wind disturbances to use mechanical controls effectively. The Wright brothers, on the other hand, wanted the pilot to have absolute control. For that reason, their early designs made no concessions toward built-in stability (such as dihedral wings). They deliberately designed their 1903 first powered flyer with anhedral (drooping) wings, which are inherently unstable, but less susceptible to upset by gusty cross winds. On July 27, 1899,

3740-399: The family had lived during the 1870s, prevented Wilbur from receiving his diploma after finishing four years of high school. The diploma was awarded posthumously to Wilbur on April 16, 1994, which would have been his 127th birthday. In late 1885 or early 1886, while playing an ice-skating game with friends Wilbur was struck in the face by a hockey stick by Oliver Crook Haugh, who later became

3825-536: The first circle, followed in 1905 by the first truly practical fixed-wing aircraft , the Wright Flyer III . The brothers' breakthrough invention was their creation of a three-axis control system , which enabled the pilot to steer the aircraft effectively and to maintain its equilibrium. Their system of aircraft controls made fixed-wing powered flight possible and remains standard on airplanes of all kinds. Their first U.S. patent did not claim invention of

3910-452: The first person singular became the plural "we" and "our". Author James Tobin asserts, "it is impossible to imagine Orville, bright as he was, supplying the driving force that started their work and kept it going from the back room of a store in Ohio to conferences with capitalists, presidents, and kings. Will did that. He was the leader, from the beginning to the end." Despite Lilienthal's fate,

3995-441: The flights, "There were 105 flights made in 1904, almost all short flights, but the longest, on December 1, lasted for five minutes and eight seconds and covered a distance of 4515 meters, or about three miles. During this flight Orville circles Huffman Prairie two and a quarter times." On January 18, 1905, the brothers wrote to congressman Robert M. Nevin , "The series of aeronautical experiments upon which we have been engaged for

4080-491: The glider banked into a turn, rudder pressure overcame the effect of differential drag and pointed the nose of the aircraft in the direction of the turn, eliminating adverse yaw. In short, the Wrights discovered the true purpose of the movable vertical rudder. Its role was not to change the direction of flight, as a rudder does in sailing, but rather, to aim or align the aircraft correctly during banking turns and when leveling off from turns and wind disturbances. The actual turn –

4165-407: The government meteorologist stationed there. Kitty Hawk, although remote, was closer to Dayton than other places Chanute had suggested, including California and Florida. The spot also gave them privacy from reporters, who had turned the 1896 Chanute experiments at Lake Michigan into something of a circus. Chanute visited them in camp each season from 1901 to 1903 and saw gliding experiments, but not

4250-417: The ground – a phenomenon the brothers called "well digging". According to Combs , "They knew that when the earlier 1901 glider banked, it would begin to slide sideways through the air, and if the side motion was left uncorrected, or took place too quickly, the glider would go into an uncontrolled pivoting motion. Now, with vertical fins added to correct this, the glider again went into a pivoting motion, but in

4335-472: The ground. The glider was also tested unmanned while suspended from a small homemade tower. Wilbur, but not Orville, made about a dozen free glides on only a single day, October 20. For those tests the brothers trekked four miles (6   km) south to the Kill Devil Hills , a group of sand dunes up to 100 feet (30 m) high (where they made camp in each of the next three years). Although the glider's lift

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4420-416: The horizontal wheel. Attached vertically to the wheel were an airfoil and a flat plate mounted 90° away. As air passed by the airfoil, the lift it generated, if unopposed, would cause the wheel to rotate. The flat plate was oriented so its drag would push the wheel in the opposite direction of the airfoil. The airfoil and flat plate were made in specific sizes such that, according to Lilienthal's measurements,

4505-439: The kite flyer. In return, the kite was under lateral control. In 1900 the brothers went to Kitty Hawk , North Carolina, to begin their manned gliding experiments. In his reply to Wilbur's first letter, Octave Chanute had suggested the mid-Atlantic coast for its regular breezes and soft sandy landing surface. Wilbur also requested and examined U.S. Weather Bureau data, and decided on Kitty Hawk after receiving information from

4590-583: The lift generated by the airfoil would exactly counterbalance the drag generated by the flat plate and the wheel would not turn. However, when the brothers tested the device, the wheel did turn. The experiment confirmed their suspicion that either the standard Smeaton coefficient or Lilienthal's coefficients of lift and drag – or all of them – were in error. They then built a six-foot (1.8 m) wind tunnel in their shop, and between October and December 1901 conducted systematic tests on dozens of miniature wings. The "balances" they devised and mounted inside

4675-501: The longest distance more than 600 feet (180 m). Having demonstrated lift, control, and stability, the brothers now turned their focus to the problem of power. Thus did three-axis control evolve: wing-warping for roll (lateral motion), forward elevator for pitch (up and down) and rear rudder for yaw (side to side). On March 23, 1903, the Wrights applied for their famous patent for a "Flying Machine", based on their successful 1902 glider. Some aviation historians believe that applying

4760-503: The masthead. In April 1890 they converted the paper to a daily, The Evening Item , but it lasted only four months. They then focused on commercial printing. One of their clients was Orville's friend and classmate, Paul Laurence Dunbar , who rose to international acclaim as a ground-breaking African-American poet and writer. For a brief period the Wrights printed the Dayton Tattler , a weekly newspaper that Dunbar edited. Capitalizing on

4845-522: The material they thought was needed to be self-sufficient at Kitty Hawk. Besides living in tents once again, they built a combination workshop and hangar. Measuring 25 feet (7.6 m) long by 16 feet (4.9 m) wide, the ends opened upward for easy glider access. Hoping to improve lift, they built the 1901 glider with a much larger wing area and made dozens of flights in July and August for distances of 50 to 400 ft (15 to 122 m). The glider stalled

4930-654: The national bicycle craze (spurred by the invention of the safety bicycle and its substantial advantages over the penny-farthing design), in December 1892 the brothers opened a repair and sales shop (the Wright Cycle Exchange, later the Wright Cycle Company ) and in 1896 began manufacturing their own brand. They used this endeavor to fund their growing interest in flight. In the early or mid-1890s they saw newspaper or magazine articles and probably photographs of

5015-432: The number Langley used), not the traditional 0.0054, which would significantly exaggerate predicted lift. The brothers decided to find out if Lilienthal's data for lift coefficients were correct. They devised an experimental apparatus which consisted of a freely rotating bicycle wheel mounted horizontally in front of the handlebars of a bicycle. The brothers took turns pedaling the bicycle vigorously, creating air flow over

5100-419: The opposite direction, with the nose swinging downward." Orville apparently visualized that the fixed rudder resisted the effect of corrective wing-warping when attempting to level off from a turn. He wrote in his diary that on the night of October 2, "I studied out a new vertical rudder". The brothers then decided to make the rear rudder movable to solve the problem. They hinged the rudder and connected it to

5185-436: The past five years has ended in the production of a flying-machine of the type fitted for practical use. The numerous flights in straight lines, in circles, and over S-shaped courses, in calms and in winds, have made it quite certain that flying has been brought to a point where it can be made of great practical use in various ways, one of which is that of scouting and carrying messages in time of war." The Wrights disassembled

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5270-431: The pilot's warping "cradle", so a single movement by the pilot simultaneously controlled wing-warping and rudder deflection. The apparatus made the trailing edge of the rudder turn away from whichever end of the wings had more drag (and lift) due to warping. The opposing pressure produced by turning the rudder enabled corrective wing-warping to reliably restore level flight after a turn or a wind disturbance. Furthermore, when

5355-466: The powered flights. The Wrights based the design of their kite and full-size gliders on work done in the 1890s by other aviation pioneers. They adopted the basic design of the Chanute-Herring biplane hang glider ("double-decker" as the Wrights called it), which flew well in the 1896 experiments near Chicago, and used aeronautical data on lift that Otto Lilienthal had published. The Wrights designed

5440-513: The present-day Wright-Patterson Air Force Base . The owner of the land, banker Torrance Huffman, allowed them to use the land rent-free, his only requirement being that they were to shepherd the livestock to safety before experimenting. The Wrights began erecting a shed to house their aircraft during April and by the end of May were ready to begin trials, and an announcement was made to the press that trials would begin on Monday, May 23. A crowd of around forty people, made up of family and friends and

5525-428: The question, sometimes heatedly, until they concluded that an aeronautical propeller is essentially a wing rotating in the vertical plane. On that basis, they used data from more wind tunnel tests to design their propellers. The finished blades were just over eight feet long, made of three laminations of glued spruce. The Wrights decided on twin " pusher " propellers (counter-rotating to cancel torque), which would act on

5610-511: The rail without taking off. Work on the engine and poor weather delayed further attempts until the Thursday afternoon, when despite ignition problems a takeoff was attempted, and a flight of around 25 feet (7.6 m) was made, ending in a heavy landing which damaged the aircraft. Press reports were mixed: the Chicago Tribune ran its story under the headline "Test of flying machine is judged

5695-475: The system of three-axis flight control on the 1902 glider was equal to, or even more significant, than the addition of power to the 1903 Flyer. Peter Jakab of the Smithsonian asserts that perfection of the 1902 glider essentially represents invention of the airplane. In addition to developing the lift equation, the brothers also developed the equation for drag. It is of the same form as the lift equation, except

5780-531: The team, building their first airplane engine in close collaboration with the brothers. The Wright brothers' status as inventors of the airplane has been subject to numerous counter-claims. Much controversy persists over the many competing claims of early aviators . Wilbur and Orville Wright were two of seven children born to Milton Wright (1828–1917), a clergyman of English and Dutch ancestry, and Susan Catherine Koerner (1831–1889), of German and Swiss ancestry. Milton Wright's mother, Catherine Reeder,

5865-422: The tunnel to hold the wings looked crude, made of bicycle spokes and scrap metal, but were "as critical to the ultimate success of the Wright brothers as were the gliders." The devices allowed the brothers to balance lift against drag and accurately calculate the performance of each wing. They could also see which wings worked well as they looked through the viewing window in the top of the tunnel. The tests yielded

5950-414: The unsolved third part of "the flying problem". The other two parts – wings and engines – they believed were already sufficiently promising. The Wright brothers' plan thus differed sharply from more experienced practitioners of the day, notably Ader , Maxim , and Langley , who all built powerful engines, attached them to airframes equipped with untested control devices, and expected to take to

6035-692: The wing and land on his feet with his arms wrapped over the framework. Within a few glides, however, they discovered the pilot could remain prone on the wing, headfirst, without undue danger when landing. They made all their flights in that position for the next five years. Before returning to Kitty Hawk in the summer of 1901, Wilbur published two articles, "The Angle of Incidence" in The Aeronautical Journal , and "The Horizontal Position During Gliding Flight" in Illustrierte Aeronautische Mitteilungen . The brothers brought all of

6120-429: The wing's front-to-back dimension). Such shapes offered much better lift-to-drag ratio than the stubbier wings the brothers had tried so far. With this knowledge, and a more accurate Smeaton number, the Wrights designed their 1902 glider. The wind tunnel tests, made from October to December 1901, were described by biographer Fred Howard as "the most crucial and fruitful aeronautical experiments ever conducted in so short

6205-451: The wings of the Wright glider were braced by wires in their own version of Chanute's modified Pratt truss , a bridge-building design he used for his biplane glider (initially built as a triplane). The Wrights mounted the horizontal elevator in front of the wings rather than behind, apparently believing this feature would help to avoid, or protect them from, a nosedive and crash like the one that killed Lilienthal. Wilbur incorrectly believed

6290-416: The wings of the biplane in level position in known wind velocities ... They also devised a formula for power-to-weight ratio and propeller efficiency that would answer whether or not they could supply to the propellers the power necessary to deliver the thrust to maintain flight ... they even computed the thrust of their propellers to within 1 percent of the thrust actually delivered ..." In 1903

6375-420: The wings with camber , a curvature of the top surface. The brothers did not discover this principle, but took advantage of it. The better lift of a cambered surface compared to a flat one was first discussed scientifically by Sir George Cayley . Lilienthal, whose work the Wrights carefully studied, used cambered wings in his gliders, proving in flight the advantage over flat surfaces. The wooden uprights between

6460-425: The work of Sir George Cayley , Chanute, Lilienthal, Leonardo da Vinci , and Langley, they began their mechanical aeronautical experimentation that year. The Wright brothers always presented a unified image to the public, sharing equally in the credit for their invention. Biographers note that Wilbur took the initiative in 1899 and 1900, writing of "my" machine and "my" plans before Orville became deeply involved when

6545-513: The world's first successful airplane . They made the first controlled, sustained flight of an engine-powered, heavier-than-air aircraft with the Wright Flyer on December 17, 1903, four miles (6 km) south of Kitty Hawk, North Carolina , at what is now known as Kill Devil Hills . In 1904 the Wright brothers developed the Wright Flyer II , which made longer-duration flights including

6630-573: Was born near Millville, Indiana , in 1867; Orville in Dayton, Ohio , in 1871. The brothers never married. The other Wright siblings were Reuchlin (1861–1920), Lorin (1862–1939), Katharine (1874–1929), and twins Otis and Ida (born 1870, died in infancy). The direct paternal ancestry goes back to a Samuel Wright (b. 1606 in Essex , England) who sailed to America and settled in Massachusetts in 1636 . None of

6715-478: Was caused by the centre of gravity being too far forward, they moved the engine and pilot position back, but this made matters worse. The machine would undulate unless the front elevator was depressed, but this created additional drag , and so they added 70 lb (32 kg) of iron bars as ballast under the elevators, which were also enlarged. So modified, 24 flights were made in August, including two on August 22 of

6800-624: Was descended from the progenitor of the Vanderbilt family  – one of America's richest families – and the Huguenot Gano family of New Rochelle, New York . Wilbur and Orville were the 3rd great nephews of John Gano , the Revolutionary War Brigade Chaplain, who allegedly baptized President George Washington . Through John Gano they were 5th cousins 1 time removed of billionaire and aviator Howard Hughes . Wilbur

6885-563: Was killed in the plunge of his glider. These events lodged in the minds of the brothers, especially Lilienthal's death. The Wright brothers later cited his death as the point when their serious interest in flight research began. Wilbur said, "Lilienthal was without question the greatest of the precursors, and the world owes to him a great debt." In May 1899 Wilbur wrote a letter to the Smithsonian Institution requesting information and publications about aeronautics. Drawing on

6970-409: Was less than expected, the brothers were encouraged because the craft's front elevator worked well and they had no accidents. However, the small number of free glides meant they were not able to give wing-warping a true test. The pilot lay flat on the lower wing, as planned, to reduce aerodynamic drag. As a glide ended, the pilot was supposed to lower himself to a vertical position through an opening in

7055-443: Was part of the accepted equation for lift. L = lift in pounds k = coefficient of air pressure (Smeaton coefficient) S = total area of lifting surface in square feet V = velocity (headwind plus ground speed) in miles per hour C L = coefficient of lift (varies with wing shape) The Wrights used this equation to calculate the amount of lift that a wing would produce. Over the years a wide variety of values had been measured for

7140-468: Was reducing the wing camber to 1-in-25 from the 1-in-20 used in 1903. The brothers thought that reducing the camber would reduce drag, though less lift was actually achieved. With these alterations Flyer II was heavier by some 200 pounds (91 kg) than the 1903 machine. The Wrights tested the new aircraft at Huffman Prairie , a cow pasture outside of Dayton, Ohio , which is now part of Dayton Aviation Heritage National Historical Park and also part of

7225-550: Was witnessed by Amos Root , who wrote an account in the January 1, 1905 issue of Gleanings in Bee Culture , a trade magazine he published. On October 14 Orville made his first circular flight and the following day Octave Chanute arrived to view the Wright brother's progress. Unfortunately Orville, attempting another circular fight, was unable to straighten out and was forced to land the aircraft at high speed after only 30 seconds in

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