Search results
Results From The WOW.Com Content Network
The Airbus A380 is a very large wide-body airliner, developed and produced by Airbus. It is the world's largest passenger airliner and the only full-length double-deck jet airliner. Airbus studies started in 1988, and the project was announced in 1990 to challenge the dominance of the Boeing 747 in the long-haul market. The then-designated A3XX ...
The A380-800 layout with 519 seats displayed (16 First, 92 Business and 411 Economy) The Airbus A380 features two full-length decks, each measuring 49.9 metres (164 ft). The upper deck has a slightly shorter usable length of 44.93 metres (147.4 ft) due to the front fuselage curvature and the staircase.
Type MTOW [kg] MLW [tonnes] TOR [m] LR [m] ICAO category FAA category; Antonov An-225: 640,000: 591.7: 3,500: Super: Super Scaled Composites Model 351 Stratolaunch
747-400 stretch, Airbus A3XX competitor Boeing Pelican: 2002: 2657.36 tons Ground effect and medium altitude transport Airbus A380-900: 2006: 580.68 tons Airbus A380-800 stretch, postponed in May 2010 [6] TsAGI HCA-LB: current: 984.21 tons Ground effect aircraft powered by LNG: WindRunner: current: Outsize cargo freight aircraft: 108 m long, 80 ...
Airbus A340-300 Enhanced: 0.2229 Max take-off weight, full power Airbus A380: 0.227 Max take-off weight, full power Boeing 747-8: 0.269 Max take-off weight, full power Boeing 777-200ER: 0.285 Max take-off weight, full power Boeing 737 MAX 8: 0.311 Max take-off weight, full power Airbus A320neo: 0.310 Max take-off weight, full power Boeing 757 ...
[32] [33] [34] Both the earlier and later takeoff weights establish the An-225 as the world's heaviest aircraft, exceeding the weight of the double-deck Airbus A380 airliner. Airbus claims to have improved upon the An-225's maximum landing weight by landing an A380 at 591.7 t (652.2 short tons) during testing. [35] [a]
The size of RMS Titanic compared with a human, car, bus, and an Airbus A380. The following is a list of the largest passenger vehicles with consumer availability in history. Overall
Wing loading is a useful measure of the stalling speed of an aircraft. Wings generate lift owing to the motion of air around the wing. Larger wings move more air, so an aircraft with a large wing area relative to its mass (i.e., low wing loading) will have a lower stalling speed.