| Gossamer Albatross |
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The Gossamer Albatross was a Human-powered Aircraft built by American Aeronautical Engineer Dr. Paul B. MacCready 's AeroVironment . On June 12 , 1979 it completed a successful crossing of the English Channel to win the second Kremer Prize . OVERVIEW The aircraft was powered using pedals to drive a large two-bladed propeller. Piloted by amateur cyclist Bryan Allen it completed the 35.8 km (22.2 mi) crossing in 2 hours and 49 minutes, achieving a top speed of 29 km/h (18 mph) and an average altitude of 1.5 metres (5 feet). The aircraft is of unusual configuration, using a large horizontal stabilizer forward in a manner similar to the Wright Brothers successful "Flyer" aircraft. The ''Gossamer Albatross'' was constructed using plastic over a Carbon Fiber frame, with the structure of the wings provided with expanded Polystyrene ribs. The entire structure was then wrapped in a thin, transparent plastic ( PET Film ). The empty mass of the structure was only 32 kg (71 lb), although the gross mass for the Channel flight was almost 100 kg (220 lb). To maintain the craft in the air it was designed with very long tapering wings (high Aspect Ratio ), like those of a glider, allowing the flight to be undertaken with a minimum of power. In still air the required power was on the order of 0.3 horsepower (200 W), though even mild turbulence made this figure rise rapidly. HISTORY The aircraft was designed and built by a team led by Paul B. MacCready , a noted US aeronautics engineer, designer, and world soaring champion, and ''Gossamer Albatross'' was his second human-powered aircraft. The first was the '' Gossamer Condor '' which won the first Kremer prize on August 23, 1977 by completing a specified figure-eight course. MacCready's team built two Albatrosses; the back-up plane was jointly tested as part of the NASA Langley/Dryden flight research program in 1980 . The back-up craft was also flown inside the Houston Astrodome , the first ever controlled indoor flight by a human-powered aircraft. The Albatross II is currently on display at the Museum Of Flight in Seattle, Washington . The aircraft used in the channel-crossing is on display at the Smithsonian Institution's Udvar-Hazy Center . SOLAR-POWERED VARIANTS A follow-up to the ''Albatross'' was the solar-powered ''Gossamer Penguin'' in 1980 . The ''Penguin'' airframe had been built by the MacCready team as a third craft for the cross-channel attempt; in most of its dimensions it was 3/4 the size of the ''Gossamer Albatross'', and was held in reserve as a speedier if slightly higher-powered alternative to be used if it were found that the Channel weather precluded success by the slower-flying Albatross. The ''Penguin'' was fragile and not very airworthy, but led to a better aircraft, the '''''Solar Challenger'''''. Designed by Paul MacCready, the Solar Challenger had a wingspan of 14.3 meters (47 feet) and a mass of 90 kilograms (198.42 pounds). Its wings were covered with 16,128 PV cells, with a total output power of 2,600 watts, about enough to drive a pair of hair driers. The ''Solar Challenger'' was capable of reaching an altitude of 3,660 meters (12,000 feet). On July 7, 1981 the aircraft, piloted by Steve Ptacek, accomplished the 262 kilometer (163 mile) flight from Paris to Manston in the UK. "SOLAR-POWERED UAVS: HALSOL & SOLAR HAPP", The Prehistory Of Endurance UAVs, by Greg Goebel, in the Public Domain SPECIFICATIONS :Length: 10.36 m (34.0 ft) :Wingspan: 29.77 m (97.7 ft) :Height: 4.88 m (16.0 ft) REFERENCES EXTERNAL LINKS
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