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Flying Wing
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Alexander Lippisch
Alexander Martin Lippisch (November 2, 1894 – February 11, 1976) was a German pioneer of aerodynamics. He made important contributions to the understanding of flying wings, delta wings and the ground effect. His most famous design is the Messerschmitt Me 163 rocket-powered interceptor.
http://wn.com/Alexander_Lippisch -
Charles Fauvel
Charles Fauvel (31 December 1904 - 10 September 1979) was a French aircraft designer noted for his flying wing designs, and in particular, his flying wing sailplanes. He became interested in soaring after witnessing a competition at Vauville in 1925, and set out to design a competition glider with minimal drag, settling on the flying wing formula based on the work of Georges Abrial and René Arnoux. One of his designs, the AV.10 was the first flying wing to attain a French Certificate of Navigability. His greatest commercial success was the AV.36 sailplane, first flown in 1951.
http://wn.com/Charles_Fauvel -
Cheston L. Eshelman
http://wn.com/Cheston_L_Eshelman -
Horten brothers
Walter Horten (13 November 1913 - 9 December 1998 Baden-Baden) and Reimar Horten (12 March 1915 - 14 March 1994 Villa General Belgrano, Argentina), sometimes credited as the Horten Brothers, were German aircraft pilots and enthusiasts, and members of the Hitler Youth and Nazi party. Though they had little, if any, formal training in aeronautics or a related field, the Hortens designed some of the most advanced aircraft of the 1940s, including the world's first jet-powered flying wing, the Horten Ho 229.
http://wn.com/Horten_brothers -
Hugo Junkers
Hugo Junkers (3 February 1859 – 3 February 1935) was an innovative German engineer, as his many patents in varied areas (gas engines, aeroplanes) show. In 1915, he pioneered the first great change in aviation materials and design technology, away from wood and fabric materials braced by wire rigging, towards all-metal, cantilever-winged monoplane aircraft that had little to no external bracing.
http://wn.com/Hugo_Junkers -
Jack Northrop
http://wn.com/Jack_Northrop -
Vincent Burnelli
Vincent Justus Burnelli (November 22, 1895 – June 22, 1964) was an American aeronautics engineer, instrumental in furthering the lifting body and flying wing concept.
http://wn.com/Vincent_Burnelli
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Germany
Germany (), officially the Federal Republic of Germany (, ), is a country in Western Europe. It is bordered to the north by the North Sea, Denmark, and the Baltic Sea; to the east by Poland and the Czech Republic; to the south by Austria and Switzerland; and to the west by France, Luxembourg, Belgium, and the Netherlands. The territory of Germany covers 357.021 km2 and is influenced by a temperate seasonal climate. With 81.8 million inhabitants, it is the most populous member state of the European Union, and home to the third-largest number of international migrants worldwide.
http://wn.com/Germany -
United States
The United States of America (also referred to as the United States, the U.S., the USA, or America) is a federal constitutional republic comprising fifty states and a federal district. The country is situated mostly in central North America, where its forty-eight contiguous states and Washington, D.C., the capital district, lie between the Pacific and Atlantic Oceans, bordered by Canada to the north and Mexico to the south. The state of Alaska is in the northwest of the continent, with Canada to the east and Russia to the west across the Bering Strait. The state of Hawaii is an archipelago in the mid-Pacific. The country also possesses several territories in the Caribbean and Pacific.
http://wn.com/United_States
- Air Enthusiast
- airlift
- airliner
- Alexander Lippisch
- Alsomitra
- Atlantic Ocean
- B-2 Spirit
- B-52 Stratofortress
- Baynes Bat
- BICh-26
- BICh-3
- Blended Wing Body
- Boeing
- bomber
- C-130 Hercules
- Charles Fauvel
- Cheston L. Eshelman
- Convair B-36
- de Havilland
- Delta wing
- Dihedral (aircraft)
- Drag (physics)
- fixed-wing aircraft
- Flight dynamics
- fly-by-wire
- Freel Flying Wing
- fuselage
- Germany
- Horten brothers
- Horten Ho 229
- Hugo Junkers
- Jack Northrop
- jet engine
- JG1
- Junkers G-38
- lifting body
- McDonnell Douglas
- monoplane
- Northrop Corporation
- Northrop N-1M
- Northrop N-9M
- Northrop X216H
- Northrop YB-35
- Northrop YB-49
- Oblique flying wing
- radar
- Spoileron
- Stealth aircraft
- Stealth technology
- strategic bomber
- tailless aircraft
- United States
- vertical stabilizer
- Vincent Burnelli
- Yaw, pitch, and roll
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Restored Vintage Northrop N9MB Flying Wing---Rare Sight !
This is a video that I took of the Planes of Fame Museum's (Chino, California) Northrop N9MB Flying Wing while performing a display at the Palm Springs Air Museum in 2006. This aircraft was painstakingly restored over a 13-year period. As part of the November 1941 contract that Northrop was awarded for the proposed XB-35 Flying Wing included the construction of four, 1/3-scale aircraft, designated N9M, that were to act as flying test beds for various flight systems and also to familiarize Air Force pilots with flying-wing operations. The Planes of Fame Flying Wing in this video is one of those aircraft, and the only one remaining. Aviation greats such as Jack Northrop himself, Chuck Yeager and Bob Hoover actually flew this exact aircraft. I understand that this aircraft has a lot of idiosyncrasies that every pilot that ever flew her fell prey to, with interesting results! Unfortunately, this aircraft experienced an in-flight engine fire just a short time after this video was taken in its left, 300 hp., 8-cylinder Franklin 0-540-7 engine. Pilot Ron Hackworth skillfully landed the aircraft safely. The Flying Wing has since been pretty much restored, but the restoration of the rare Franklin 0-540-7 engine is another matter. There were only about 27 of these engines ever built and it is believed that only three of them exist today. The needed parts may be newly manufactured as necessary, but the factory drawings are needed. They have not yet been located to my knowledge, as <b>...</b>
http://wn.com/Restored_Vintage_Northrop_N9MB_Flying_Wing---Rare_Sight_!
Flying Wing Suits
I hope I'm not pissing anyone off by showing this video . I'm trying to promote these dudes by showing their awesome adrenalin/craziness to anyone that may not have seen this video otherwise. In other words I'm asking for permission to keep it on my page to show my friends. I'm in no way claiming ownership of it (copyright or any other type of legalese) I just thought they were cool dudes...! I want to do this too .......... !!!
http://wn.com/Flying_Wing_Suits
The Flying Wing
Great footage of the experimental American jet bomber of the early 1950's
http://wn.com/The_Flying_Wing
Monster Northrop Flying Wing (1946)
Courtesy: Universal Newsreels (1) "Inglewood CA: A new chapter in aviation development is written as the twenty-five-ton Northrup flying wing takes to the air. The tailless craft has a wing span of 172 feet and will weigh fifty tons fully loaded." (2) Personalities in the News - "John W. Snyder takes office as Secretary of the Treasury. He is sworn in by Fred M. Vinson, chief justice of the Supreme court. Benjamin Fairless, president of United States Steel, is awarded the Medal of Merit by Secretary of War Patterson, for his work as advisor to the Ordnanace Department during the war. John R. Steelman, the president's labor advisor, is sworn in as Director of War Mobilization and Reconversion." (partial newsreel)
http://wn.com/Monster_Northrop_Flying_Wing_1946
Restored 1940s Northrop Flying Wing
This is a video of the Planes of Fame Museum's (Chino, California) Northrop N9MB Flying Wing during a recent (March 2009) engine run-up of its remaining serviceable engine. This aircraft was originally built as part of the November 1941 contract that Northrop was awarded for four, 1/3-scale aircraft, designated N9M, that were to act as flying test beds for various flight systems for the full-size XB-35 flying wing program and also to familiarize Air Force pilots with flying wing operations This aircraft experienced an in-flight engine fire in 2006 in its left, 300 hp., 8-cylinder Franklin 0-540-7 engine. The Flying Wing has since been totally restored, but the restoration of the rare Franklin 0-540-7 engine is another matter. There were only about 27 of these engines ever built and it is believed that only three of them exist today. The needed parts will need to be newly manufactured as necessary, but the museum has committed to getting this aircraft back in the air. Common parts from a 12-cylinder Franklin engine are already being scavenged to help in the restoration. The flying scenes in this video were taken just before the engine fire. Progress towards flying staus is well on its way and this aircraft will definitely once again fly, no doubt! Best, - Octane130 -
http://wn.com/Restored_1940s_Northrop_Flying_Wing
flying wing & Svalbard-flying
high-performance flying wing and about the Svalbard Flying Man - Alfred Tiefenthal, having built a lot of planes
http://wn.com/flying_wing_Svalbard-flying
Northrop N-9M Flying Wing at the Wings over Camarillo air show 2010
- Order: Reorder
- Duration: 3:26
- Published: 23 Aug 2010
- Uploaded: 05 Feb 2012
- Author: socalspeedzone
Northrop N-9M Flying Wing at the Wings over Camarillo air show 2010. More information about the plane can be found here en.wikipedia.org
http://wn.com/Northrop_N-9M_Flying_Wing_at_the_Wings_over_Camarillo_air_show_2010
Horten Ho-2 Flying Wing Test Flight 1935
Reimar Horten notes: To keep the frontal dimension to a minimum, we decided to put the pilot in a reclining position in our next project, so that he would remain within the wing contour. Transparent panels would be installed around the leading edge to provide visibility. The elevator system would be redesigned to avoid the reversal problems of the Ho I. Few additional changes from the Ho I philosophy were planned, except to make it self-launching. We planned a tandem undercarriage with retractable front wheel, and steerable tail wheel. The Ho II was also built in our home with some help from local glider club members, and a local motorcycle shop. It was ready after nine months, and taken to the Bonn-Hangelar airport in May 1935. The first flight was made by towing it across the field at low altitude with a winch. We started with the c/g at the forward limit, and gradually moved it aft with trim weights. The aircraft remained docile, and fully controllable. Although the problems with the "middle-effect" was not solved, the bell shaped lift distribution pattern used on the Ho II, had enabled us to make a large step forward with the stability and controllability of the flying wing. The landing gear was not entirely successful. The ground roll was unstable with the steerable tail wheel, and there was no shock absorber in the nose strut. The whole undercarriage was modified later. The unfamiliar reclining position, so popular in modern sailplanes, was not a good solution. It <b>...</b>
http://wn.com/Horten_Ho-2_Flying_Wing_Test_Flight_1935
Jeb Corliss wing-suit demo
- Order: Reorder
- Duration: 4:21
- Published: 02 Oct 2010
- Uploaded: 11 Feb 2012
- Author: jebcorliss
Fallow my latest news on twitter @ jebcorliss :My favorite wing-suit flights up to this point... Like me on Facebook : www.jeb.corliss.com Web Page www.jebcorliss.net Music The Prodigy - Invaders must die cameras by www.gopro.com base gear by http wing-suits by www.tonywingsuits.com clothing by http helmets by www.cookiecomposites.com you can fallow my latest news at www.jeb.corliss.com
http://wn.com/Jeb_Corliss_wing-suit_demo
X5 Flying wing is that really maiden flight
- Order: Reorder
- Duration: 5:20
- Published: 24 Jul 2011
- Uploaded: 07 Oct 2011
- Author: alishanmao
This is not really the maiden flight. Maiden flights ended with 2 crashes in tall bushes and one final crash directly into that big drink we have. But this is one sturdy bird that took all 3 Crashes with no damage at all. I rescued it from river, LOL check out the footage in this video where I bravely walk into river to get my X5 wing. And fixed the plane, fixed the motor thrust angle that was causing crashes. Now this bird flies just awesome. Few more tests and we are going to do FPV on this one hopefully. Else Skywalker is waiting with smiles. Comments and feedback welcome at alishanmao@gmail.com or ali@redcatracing.com Don't forget to visit www.redcatracing.com and Subscribe to http
http://wn.com/X5_Flying_wing_is_that_really_maiden_flight
Forgotten aircraft - Armstrong-Whitworth AW-52 flying wing
Through being involved in laminar-flow wing development Armstrong Whitworth was keen to put its experience to practical application and proposed a jet-powered four-engined 120ft span laminar flow flying wing bomber. The design was to be evaluated through the use of a 1/3 scale glider. The end of the war brought an end to the project but not before work had started on the AW-52G glider. It first flew on 2 March 1945. Armstrong Whitworth, after cancellation of the bomber project, maintained its interest in a large flying wing and was eventually given a contract to produce two prototypes. To give some point to the project beyond research the type was designed to carry 4000lbs of mail. The first Nene-powered aircraft flew on 13 November 1947 and eventually achieved speeds of around 500mph. It crashed on 30 May 1949 through control problems and the pilot, John Lancaster, made the first emergency ejection in Britain. The 2nd AW52 was powered by the Derwent and it flew on 1 September 1948, later on trials with the RAE until May 1954 when it was scrapped.
http://wn.com/Forgotten_aircraft__Armstrong-Whitworth_AW-52_flying_wing
Modified Flying Wing
I modified the wings from an Electrifly Slinger and added wheels. The power system is a 2900kV inrunner motor, 35 amp ESC, and a 1600 maH 25C Lipo. I got the idea for the control surfaces from Scott Lott of RC Powers.com. Thanks Scott for all your help.
http://wn.com/Modified_Flying_Wing
Flying Wing - RC Jet Turbine Power - Wicked Jet
UAV Flying Wing Experiment. Kind of uses the same aerodynamic profile of a B2 Spirit, but the landing gear is unique unto its own, like something out of star wars or skunk works. This plane is very fast and very stable, yet alone appears to be very stealthy as well. thanks much and please subscribe www.cozmiktoys.com
http://wn.com/Flying_Wing__RC_Jet_Turbine_Power__Wicked_Jet
K&B; twin cyl gas Flying wing demo plus Starting tips for glow.
- Order: Reorder
- Duration: 9:58
- Published: 26 Mar 2011
- Uploaded: 10 Jan 2012
- Author: NightFlyyer
Think your ready for gas engine airplanes? Well Bill Evans makes some pretty neat flying wings and I've had many of them. Using my Evans antique Zippity Doo Dah flying wing, I will show some engine running tips, how sliding servo trays work, and a cold cool flight. Enjoy the sights and sounds. Best regards. Thanks for watching, and subscribing. Dave Herbert AMA 8221 Certified Contest Director Leader Member Scientific Division. Here are some handy links. Bill Evan's airplanes www.EurekaAircraft.com Academy of Model Aeronautics (AMA) http NitroPlanes PT-19 www.jdoqocy.com www.dpbolvw.net Disney Toy Store www.dpbolvw.net WillyGoat Toy store www.tkqlhce.com Click here to see more of my R/C videos. RC-Television www.rc-television.org
http://wn.com/K&B;_twin_cyl_gas_Flying_wing_demo_plus_Starting_tips_for_glow
Horten IX (KFm4) Flying Wing
- Order: Reorder
- Duration: 3:37
- Published: 14 Nov 2010
- Uploaded: 01 Feb 2012
- Author: wjsflywing
NO VERTICAL SURFACES A few more video clips from the Horten IX flying wing. These clips were left out from the earlier videos. Built entirely from 3/16" Readi-Board Foam Board and Basswood. No carbon fiber used in the construction. I put this video over on Vimeo. It looks a lot better there!!!
http://wn.com/Horten_IX_KFm4_Flying_Wing
Episode 2. Gas, Jets, Flying Wings, Crashes, and GAS Planes of the 4th Annual Sibley Fly-in.
- Order: Reorder
- Duration: 8:58
- Published: 11 Jun 2011
- Uploaded: 16 Dec 2011
- Author: NightFlyyer
*** PLEASE READ before Commenting*** The 2011 Sibley Fly-In had very few crashes, but still we had a few. Gas, electric jets, planes, and more were flown today. Everywhere I ever flew over the past 55 years of modeling, there were crashes. Most happened from brain fade or inexperience. Back then, many of them happened because of radio interference or equipment failure. But they do happen and everybody involved with modeling knows they and the spectators must pay attention at all times when someone is flying. What could go wrong? We don't put too many planes in the air at the same time and usually let the heli guys have their turn too. Many do not, but me being committed to AMA safety rules, I try to fly safely and allow everybody their turn. And if your going to make a high speed pass down the runway, call it first to alert folks and other pilots. If unsafe, do not do it. And join the AMA to have the camaraderie and the insurance....just in case. Joehandsome99, WildBobsRC, Winston51249, Chris, and I are forthcoming. We flew almost nonstop day and night. Joehandsome99, WildBobsRC, Winston51249, Chris, and I flew almost nonstop day and night. . Click the link to see Lipo Destroyed in Meteor Crash www.youtube.com Click this link to see Episode I Planes, Trains, and automobiles, Night Flying, and more. www.youtube.com Click this link to see Episode II, Gas PT-19 Jets Simitar flying wing, and more. www.youtube.com Click this link to see Episode III Hawkeye point, Boating <b>...</b>
http://wn.com/Episode_2_Gas,_Jets,_Flying_Wings,_Crashes,_and_GAS_Planes_of_the_4th_Annual_Sibley_Fly-in
DARPA Oblique Flying Wing
- Order: Reorder
- Duration: 0:26
- Published: 22 Aug 2007
- Uploaded: 06 Feb 2012
- Author: mtargettuk
DARPA Oblique Flying Wing
http://wn.com/DARPA_Oblique_Flying_Wing
X8 Flying Wing Launch
Launch of the new X8 flying wing from bevrc.com
http://wn.com/X8_Flying_Wing_Launch
Wii Nunchuck RC flying Wing LRS UHF - walkie talkie used to control aircraft
wii Nunchuck controlling RC flying wing, most ergonomic remote controller !
http://wn.com/Wii_Nunchuck_RC_flying_Wing_LRS_UHF__walkie_talkie_used_to_control_aircraft
Flying Wing Northrop N1M & N1M-2
The Northrop N1M and N1M-2 Flying wings. Extremely rare color video of the first flight and following flights of the Northrop flying wing prototypes. This film was shot in 1940. These aircraft were the pioneers of flying wing design in America and were the foundation for the N9M series of flying wings and eventually evolved into the modern day B-2 Spirit bomber. The ultimate flying wing. This genius design is thanks to Jack Northrop, who designed and built the YB-35 and YB-49 flying wing bombers of the 1940's. The YB-35 was developed from the XB-35 and was designed to eliminate drag and weight to maximize ordinance load and range. The YB-35 was powered by 4 Pratt-Whitney R-4360 Radial engines powering a contra-rotating Prop system in the pusher configeration. The YB-49 was derived from the YB-35 airframes modified for jet engines. When the government cancelled the flying wings, all remaining flying wings were scrapped. My father help build and later destroy (scrap) the the YB-35 and YB-49 flying wing bombers. He was always sad when he talked about destroying those beautiful aircraft. The only airframes to escape this fate were the original prototype aircraft, the N1M and the later N9M. The N1M is on display at the Air Force museum and the N9M was stored in Marina Del Rey until it was obtained by Ed Maloney, a pioneer of American Aviation museums and was painfully restored over a 10 year period. Dad also spent many years on the restoration project for the N9M as one of the <b>...</b>
http://wn.com/Flying_Wing_Northrop_N1M_N1M-2
Horten Nurflügel (Flying Wing) Panek Ultralight 10
- Order: Reorder
- Duration: 7:50
- Published: 05 Mar 2009
- Uploaded: 31 Jan 2012
- Author: horten21st
Horten Nurflügel Panek Ultralight 10 in flight. Designed by Dr. Reimar Horten in 1991. Built by Siegfried Panek in 1992. 2 versions: one with fixed and one with retractable landing gear.
http://wn.com/Horten_Nurflügel_Flying_Wing_Panek_Ultralight_10
DOD / Public Domain
Creative Commons / John McCullagh![An AS332 helicopter from the Hong Kong Government Flying Service conducts a water bomb demonstration. A rotorcraft or rotary wing aircraft[1] is a heavier-than-air flying machine that uses lift generated by wings, called rotor blades, that revolve around a mast.](http://web.archive.org./web/20120312095249im_/http://cdn4.wn.com/pd/fb/18/f51d11b1f197e1f65b2bdcc6a005_small.jpg "An AS332 helicopter from the Hong Kong Government Flying Service conducts a water bomb demonstration. A rotorcraft or rotary wing aircraft[1] is a heavier-than-air flying machine that uses lift generated by wings, called rotor blades, that revolve around a mast.")
Creative Commons / Wikifreund
US Navy / Mass Communication Specialist Seaman Molly Treece
USAF / Samuel Morse
Creative Commons / Charles Hatton,
US Navy / Mass Communication Specialist Seaman Nicolas C. Lopez
NASA / Cobatfor
Creative Commons / Cobatfor
Creative Commons / Cobatfor
Public Domain / U.S. Navy photo by Mass Communication Specialist 3rd Class Lex T. Wenberg
Creative Commons / Brad Fallin,
Creative Commons / Bruce Marlin
Creative Commons / Mike Cline
US Coastguard / Fairn Whatley, USCGAUX.
WN / david buzan
US Navy / Mass Communication Specialist 3rd Class Kristopher Regan
Public Domain / Maksim
Public Domain / Lieutenant Colonel Scott Voskovitch
Creative Commons / NASA
USAF / Staff Sgt. Kamaile O. Long
USAF / Staff Sgt. Kamaile O. Long
Creative Commons / Carl von Canstein
US Navy / Mass Communication Specialist 3rd Class Bradley Evans
US Navy / Mass Communication Specialist 3rd Class Bradley Evans
US Navy / Mass Communication Specialist 2nd Class John J. Mike
US Navy / Mass Communication Specialist 3rd Class Brent Thacker
US Navy / Lt. Brett Dawson
US Navy / Mass Communication Specialist 3rd Class Lex T. Wenberg
US Navy / Mass Communication Specialist Seaman Benjamin C. Jernigan
![An AS332 helicopter from the Hong Kong Government Flying Service conducts a water bomb demonstration. A rotorcraft or rotary wing aircraft[1] is a heavier-than-air flying machine that uses lift generated by wings, called rotor blades, that revolve around a mast.](http://web.archive.org./web/20120312095249/http://cdn8.wn.com/pd/fb/18/f51d11b1f197e1f65b2bdcc6a005_medium.jpg "An AS332 helicopter from the Hong Kong Government Flying Service conducts a water bomb demonstration. A rotorcraft or rotary wing aircraft[1] is a heavier-than-air flying machine that uses lift generated by wings, called rotor blades, that revolve around a mast.")
photo: Public Domain / J Dykstra
28 Feb 2012
Share Terrence Aym beforeitsnews Ten years before an alien craft crashed onto rancher Mack Brazel’s property near Roswell, New Mexico, a flying saucer lost control and crashed onto the...
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- aerodynamics
- Air Enthusiast
- airlift
- airliner
- Alexander Lippisch
- Alsomitra
- Atlantic Ocean
- B-2 Spirit
- B-52 Stratofortress
- Baynes Bat
- BICh-26
- BICh-3
- Blended Wing Body
- Boeing
- bomber
- C-130 Hercules
- Charles Fauvel
- Cheston L. Eshelman
- Convair B-36
- de Havilland
- Delta wing
- Dihedral (aircraft)
- Drag (physics)
- fixed-wing aircraft
- Flight dynamics
- fly-by-wire
- Freel Flying Wing
- fuselage
- Germany
- Horten brothers
- Horten Ho 229
- Hugo Junkers
- Jack Northrop
- jet engine
- JG1
- Junkers G-38
- lifting body
- McDonnell Douglas
- monoplane
- Northrop Corporation
- Northrop N-1M
- Northrop N-9M
- Northrop X216H
- Northrop YB-35
- Northrop YB-49
- Oblique flying wing
- radar
- Spoileron
- Stealth aircraft
- Stealth technology
- strategic bomber
- tailless aircraft
- United States
- vertical stabilizer
- Vincent Burnelli
- Yaw, pitch, and roll
‘Fly for free’ ad gets its wings clipped
12 Mar 2012
Independent online (SA)
It’s a promise so bold, it’s bound to attract attention – and custom. “We’ll beat any airline quote or you fly for free!” That’s been Flight Centre South Africa’s claim, in various forms, for some time, and it’s seen them being called to answer...(size: 7.3Kb)
Jakarta Post
Lion Air feeder company Wings Air will open a new route between Surabaya and Banyuwangi in March....(size: 0.7Kb)
The Los Angeles Times
A flying car in New York City? Sounds like a good kids book premise to us, but this isn't fiction. Terrafugia's Transition -- the world's first kinda practical flying car -- is coming to the New York International Auto Show April 6-15 at the Jacob Javitz Center. Before you imagine Dumbo-like...(size: 31.3Kb)
It’s the real-life birdman! Parachutist flies over the Alps in a wing-suit in ‘world first’
01 Mar 2012
The Daily Mail
Hurtling over peaks at 500 km an hour (310 miles an hour), a Swiss man flew over the Alps in a wing-suit yesterday. His team said it was the first time the mountain range had been crossed in such a free fall. Parachutist Remo Laeng, 36, jumped from a plane 7,500 metres (24,600ft) up, near the...(size: 5.9Kb)
More High-Flying Terror In 'Night Wings'
23 Feb 2012
WINGS FLY TO RECORD
20 Feb 2012
Sporting Life
The Detroit Red Wings set a new NHL record by winning a 23rd straight home game as they saw off the San Jose Sharks 3-2. Having broken the single-season record on Tuesday and equalled Boston's...(size: 1.3Kb)
The Australian
THE jobs of 1460 Qantas maintenance workers will be put under review today as the airline announces hundreds of cuts in other areas of its business. In a blow to Victoria's crisis-ridden manufacturing sector, the future of 400 workers at its heavy-maintenance base at Tullamarine and 660 workers at...(size: 2.5Kb)
Detroit Free Press
The Red Wings have accomplished something that has been done by only two other teams in NHL history. The Wings won their 20th consecutive game at home with a 4-3 win over the Philadelphia Flyers on Sunday night at Joe Louis Arena. Johan Franzen scored his league-leading 10th game-winner of the...(size: 2.8Kb)
Sacramento Bee
DETROIT - The Detroit Red Wings have accomplished something that has been done by only two other teams in NHL history. The Wings won their 20th consecutive game at home with a 4-3 win over the Philadelphia Flyers on Sunday night at Joe Louis Arena. Johan Franzen...(size: 1.7Kb)
| {{infobox aviation |name | Flying wing |image File:RQ-170_Wiki_contributor_3Dartist.png |caption Graphic rendering }} |
|---|
A flying wing is a tailless fixed-wing aircraft which has no definite fuselage, with most of the crew, payload and equipment being housed inside the main wing structure.
A flying wing may have various small protuberances such as pods, nacelles, blisters, booms, vertical stabilizers (tail fins), or undercarriage. Some aircraft have no fuselage but do have a separate horizontal stabilizer surface mounted on one or more booms; these are also commonly referred to as flying wings, although this is not strictly correct. An example of such a design is the Northrop X216H.
History
Tailless aircraft have been experimented with since the earliest attempts to fly. But it was not until the deep-chord monoplane wing became practicable after World War I that the opportunity to discard any form of fuselage arose and the true flying wing could be realised.
Hugo Junkers patented a wing-only air transport concept in 1910. He saw it as a natural solution to the problem of building an airliner large enough to carry a reasonable passenger load and enough fuel to cross the Atlantic in regular service. He believed that the flying wing's potentially large internal volume and low drag made it an obvious design for this role. In 1919 he started work on his "Giant" JG1 design, intended to seat passengers within thick wings, but two years later the Allied Aeronautical Commission of Control ordered the incomplete JG1 destroyed for exceeding post-war size limits on German aircraft. Junkers conceived futuristic flying wings for up to 1,000 passengers; the nearest this came to realisation was in the 1931 Junkers G-38 34-seater ''Grossflugzeug'' airliner which featured a large thick-chord wing providing space for fuel, engines and two passenger cabins. However, it still required a short fuselage to house the crew and additional passengers.
The flying wing configuration was studied extensively in the 1930s and 1940s, notably by Jack Northrop and Cheston L. Eshelman in the United States, and Alexander Lippisch and the Horten brothers in Germany.
Soviet designers such as Boris Ivanovich Cheranovsky started research independently and in secret under Stalin after the 1920s. With significant breakthrough in materials and construction methods, aircraft such as the BICh-3, BICh-14, BICh-7A and so on became possible. Men like Chizhevskij and Antonov also came into the spotlight of the communist party by designing aircraft such as the tail-less BOK-5 (Chizhevskij) and OKA-33 (the first ever built by Antonov) which were designated as "motorized gliders" due to their similarity to popular gliders of the time. The BICh-11 by Cheranovsky in 1932 was competing with the Horten brothers H1 (and Adolf Galland) at the Ninth Glider Competitions in 1933, but did not demonstrate in the 1936 summer Olympics in Berlin. The BICh-26 was one of the first attempts at a supersonic jet flying-wing aircraft, ahead of its time in 1948 the airplane was not accepted by the military and the design died with Cheranovsky.
Early examples of true flying wings include:
Several late-war German military designs were based on the flying wing concept (or variations of it) as a proposed solution to extend the range of the otherwise very short-range jet engined aircraft. Most famous of these would be the Horten Ho 229 fighter. This aircraft, first flown in 1944, combined a flying wing, or ''Nurflügel'', design with twin jet engines. The surviving prototype remains in storage at the Smithsonian Institution in an unrestored state.
After the war, a number of experimental designs were based on the flying wing concept, but the known difficulties remained intractable. Some general interest continued until the early 1950s, when the concept was proposed as a design solution for long range bombers. Such trends culminated in the Northrop YB-35 and YB-49, which did not enter production. Those designs did not necessarily offer a great advantage in range and presented a number of technical problems, leading to the adoption of "conventional" solutions like the Convair B-36 and the B-52 Stratofortress.
Interest in flying wings was renewed in the 1980s due to their potentially low radar reflection cross-sections. Stealth technology relies on shapes which only reflect radar waves in certain directions, thus making the aircraft hard to detect unless the radar receiver is at a specific position relative to the aircraft - a position that changes continuously as the aircraft moves. This approach eventually led to the Northrop B-2 Spirit stealth bomber. In this case the aerodynamic advantages of the flying wing are not the primary needs. However, modern computer-controlled fly-by-wire systems allowed for many of the aerodynamic drawbacks of the flying wing to be minimised, making for an efficient and stable long-range bomber.
Due to the practical need for a deep wing, the flying wing concept is most practical for designs in the slow-to-medium speed range, and there has been continual interest in using it as a tactical airlifter design. Boeing continues to work on paper projects for a Blended Wing Body Lockheed C-130 Hercules-sized transport with better range and about 1/3 more load, while maintaining the same size characteristics. A number of companies, including Boeing, McDonnell Douglas and de Havilland, did considerable design work on flying-wing airliners, but to date none have entered production.
Design issues
A clean flying wing is theoretically the most aerodynamically efficient (lowest drag) design configuration for a fixed wing aircraft. It also offers high structural efficiency for a given wing depth, leading to light weight and high fuel efficiency.
Because it lacks conventional stabilizing surfaces or the associated control surfaces, in its purest form the flying wing suffers from the inherent disadvantages of being unstable and difficult to control. These compromises are difficult to reconcile, and efforts to do so can reduce or even negate the expected advantages of the flying wing design, such as reductions in weight and drag. Moreover, solutions may produce a final design that is still too unsafe for certain uses, such as commercial aviation.
Further difficulties arise from the problem of fitting the pilot, engines, flight equipment and payload all within the depth of the wing section. A wing that is made deep enough to contain all these elements will have an increased frontal area, when compared to a conventional wing and fuselage, which in turn results in higher drag and thus slower speed than a conventional design. Typically the solution adopted in this case is to keep the wing reasonably thin, and the aircraft is then fitted with an assortment of blisters, pods, nacelles, fins and so forth to accommodate all the needs of a practical aircraft.
Other known problems with the flying wing design relate to pitch and yaw. Pitch issues are discussed in the article on tailless aircraft. The problems of yaw are discussed below.
Directional stability
For any aircraft to fly without constant correction it must have directional stability in yaw.Flying wings lack the long fuselage which provides a convenient attachment point for an efficient vertical stabilizer or fin. The fin must attach directly on to the rear part of the wing, giving a small moment arm from the aerodynamic center, which in turn means that to be effective the fin area must be large. This large fin has weight and drag penalties, and can negate the advantages of the flying wing. The problem can be minimized by increasing the leading edge sweepback, as for example in a low-aspect-ratio delta wing, but most flying wings have gentler sweepback and consequently have, at best, marginal stability. In the so called ruptured duck configuration, the wing tip sections are angled sharply downwards (anhedral), increasing the area at the rear of the aircraft when viewed from the side.
Yaw control
In most flying wing designs, the stabilizing fins are so far forward that any control rudders mounted on them have little effect, thus alternative means for yaw control must be provided. The only practical solution is differential drag: the drag near one wing tip is artificially increased, causing the aircraft to yaw in the direction of that wing. Typical methods include:A consequence of the differential drag method is that if the aircraft manoeuvers frequently then it will frequently create drag. So flying wings are at their best when cruising in still air: in turbulent air or when changing course, the aircraft may be less efficient than a conventional design.
Borderline cases
Some aircraft have no fuselage but do have a horizontal stabilizer mounted on one or more booms. Strictly, these are not flying wings although they are usually referred to as such. An example is the Northrop X-216H, which has a tail stabilizer mounted on two tail booms but is regarded as Northrop's first flying wing type.Many hang gliders and microlight aircraft are tailless. Although often referred to as flying wings, these types carry the pilot (and engine where fitted) below the wing structure rather than inside it, and so are not true flying wings.
An aircraft of sharply-swept delta planform and deep center section represents a borderline case between flying wing, blended wing body and/or lifting body configurations.
See also
References
External links
Category:Wing configurations Category:Wing design
ca:Ala volant cs:Samokřídlo de:Nurflügel es:Ala volante fr:Aile volante id:Sayap terbang it:Ala volante nl:Vliegende vleugel ja:全翼機 pl:Latające skrzydło pt:Asa voadora ru:Летающее крыло sl:Leteče krilo zh:飞翼This text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
Jeb Corliss (born March 25, 1976) is a professional BASE jumper, skydiver, and wingsuit flyer. He has jumped from sites including Paris' Eiffel Tower, Seattle's Space Needle, and the Petronas Twin Towers in Kuala Lumpur, Malaysia.
Corliss is featured in the last chapter of Birdmen, Batmen, and Skyflyers: Wingsuits and the Pioneers Who Flew in Them, Fell in Them, and Perfected Them, by Michael Abrams. ISBN 1-4000-5491-5.
Parachuteless Parachuting
Flying Humans, Hoping to Land With No Chute - New York Times.
Jeb Corliss wing-suit demo flights video
Weekend America - Interview with Jeb Corliss
A Year in the Life - 2003 jumps around the world
Outlawing Creative Subversions
MySpace
Daredevils: The Human Bird - Channel 4 (UK) television documentary, 2009
Jeb Corliss is co-founder of 3 Triple 7, a clothing label.
He was also the original host of the Discovery Channel series Stunt Junkies, appearing in 13 episodes, but was fired by Discovery as a result of his arrest (below).
Jeb is currently working on a plan to jump out of a helicopter with his wing suit and land without a parachute.
Arrest
In April 2006, Jeb Corliss attempted to BASE jump off the observation deck of the Empire State Building, while wearing a camera, but was restrained by building security and arrested by the NYPD. As a result, Corliss received 3 years probation and 100 hours community service, which was at one point overturned by a Manhattan state judge on the basis that Corliss "was experienced and careful enough to jump off a building without endangering his own life or anyone else’s". This sentence was affirmed in January 2009. Corliss was later permanently banned from setting foot in the Empire State Building.
References
External links
Category:1976 births Category:Living people Category:Parachuting
de:Jeb Corliss
This text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
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