North American X-15

"X-15" redirects here. For other uses, see X-15 (disambiguation).

X-15

Role	Experimental high-speed rocket-powered research aircraft
Manufacturer	North American Aviation
First flight	8 June 1959
Introduction	17 September 1959
Retired	December 1968
Primary users	United States Air Force NASA
Number built	3

The North American X-15 was a hypersonic rocket-powered aircraft operated by the United States Air Force and the National Aeronautics and Space Administration as part of the X-plane series of experimental aircraft. The X-15 set speed and altitude records in the 1960s, reaching the edge of outer space and returning with valuable data used in aircraft and spacecraft design. The X-15's official world record for the highest speed ever recorded by a manned, powered aircraft, set in October 1967 when William J. "Pete" Knight flew at 4,520 miles per hour (7,274 km/h), or Mach 6.72, and has remained unchallenged as of 2016.^[1]^[2]

During the X-15 program, 13 flights by eight pilots met the Air Force spaceflight criterion by exceeding the altitude of 50 miles (80 km), thus qualifying these pilots as being astronauts. The Air Force pilots qualified for astronaut wings immediately, while the civilian pilots were eventually awarded NASA astronaut wings in 2005, 35 years after the last X-15 flight. The only Navy pilot in the X-15 program never took the aircraft above the requisite 50 mile altitude and so as a result, never earned himself astronaut wings.^[3]^[4]

Of the 199 X-15 missions, two flights (both by Joseph A. Walker) qualified as true space flights per the international (Fédération Aéronautique Internationale) definition of a spaceflight by exceeding 100 kilometers (62.1 mi) in altitude.

Design and development

X-15 after igniting rocket engine

X-15A2, with sealed ablative coating, external fuel tanks, and ramjet dummy test

The X-15 was based on a concept study from Walter Dornberger for the National Advisory Committee for Aeronautics (NACA) for a hypersonic research aircraft.^[5] The requests for proposal were published on 30 December 1954 for the airframe and on 4 February 1955 for the rocket engine. The X-15 was built by two manufacturers: North American Aviation was contracted for the airframe in November 1955, and Reaction Motors was contracted for building the engines in 1956.

Like many X-series aircraft, the X-15 was designed to be carried aloft and drop launched from under the wing of a NASA B-52 mother ship. Air Force NB-52A, "The High and Mighty One" (serial 52-0003, AKA Balls Three), and NB-52B, "The Challenger" (serial 52-0008, AKA Balls 8) served as carrier planes for all X-15 flights. Release took place at an altitude of about 8.5 miles (13.7 km) and a speed of about 500 miles per hour (805 km/h).^[6] The X-15 fuselage was long and cylindrical, with rear fairings that flattened its appearance, and thick, dorsal and ventral wedge-fin stabilizers. Parts of the fuselage were heat-resistant nickel alloy (Inconel-X 750).^[5] The retractable landing gear comprised a nose-wheel carriage and two rear skids. The skids did not extend beyond the ventral fin, which required the pilot to jettison the lower fin (fitted with a parachute) just before landing.

Cockpit and pilot systems

Cockpit of an X-15

The X-15 was a research program and changes were made to various systems over the course of the program and between the different models. The X-15 was operated under several different scenarios including attachment to a launch aircraft, drop, main engine start and acceleration, a ballistic flight into thin air/space, re-entry into thicker air, and an unpowered glide to landing. Alternatively, if the main engine was not started the pilot went directly to a landing. The main rocket engine operated only for a relatively short part of the flight, but was capable of boosting the X-15 to its high speeds and altitudes. Without main engine thrust, the X-15's instruments and control surfaces remained functional, but the aircraft could not maintain altitude.

Because the X-15 also had to be controlled in an environment where there was too little air for aerodynamic flight control surfaces, it had a reaction control system (RCS) that used rocket thrusters.^[7] There were two different X-15 pilot control setups: one used three joysticks; the other, one joystick.^[8]

The X-15 type with multiple control sticks for the pilot included a traditional rudder and stick, and another joystick on the left which sent commands to the reaction control system.^[9] A third joystick on the right side was used during high-G maneuvers to augment the center stick.^[9] In addition to pilot input, the X-15 "Stability Augmentation System" (SAS) sent inputs to the aerodynamic controls to help the pilot maintain attitude control.^[9] The reaction control system could be operated in two modes, manual and automatic.^[8] The automatic mode used a feature called "Reaction Augmentation System" (RAS) that helped stabilize the vehicle at high altitude.^[8] The RAS was typically used for approximately three minutes of an X-15 flight before automatic power off.^[8]

The second setup used the MH-96 flight control system which allowed one joystick in place of three and simplified pilot input.^[10] The MH-96 could automatically blend aerodynamic and rocket controls depending on how effective each system was at controlling the aircraft.^[10]

Among the many controls were the rocket engine throttle and a control for jettisoning the ventral tail fin.^[9] Other features of the cockpit were heated windows to prevent icing, and a forward headrest for periods of high deceleration.^[9]

The X-15 had an ejection seat that allowed ejection at speeds up to Mach 4 (2,784 mph; 4,480 km/h) and/or 120,000 feet (37 km) altitude, although it was not used during the program.^[9] In the event of ejection, the seat had deployable fins which were used until it reached a safer speed/altitude, where it could deploy its main parachute.^[9] Pilots wore a pressure suit, which could be pressurized with nitrogen gas.^[9] Above 35,000 feet (11 km) altitude, the cockpit was pressurized to 3.5 psi (0.24 atm) with nitrogen gas, and oxygen for breathing was fed separately to the pilot.^[9]

Propulsion

X-15 tail with XLR-99

The initial 24 powered flights used two Reaction Motors XLR11 liquid-propellant rocket engines, enhanced to provide a total of 16,000 pounds-force (71 kN) of thrust as compared to the 6,000 pounds-force (27 kN) that a single XLR11 provided in 1947 to make the Bell X-1 the first aircraft to fly faster than the speed of sound. The XLR11 used ethyl alcohol and liquid oxygen.

By November 1960, Reaction Motors was able to deliver the XLR99 rocket engine, generating 57,000 pounds-force (250 kN) of thrust. The remaining 175 flights of the X-15 used XLR99 engines, in a single engine configuration. The XLR99 used anhydrous ammonia and liquid oxygen as propellant, and hydrogen peroxide to drive the high-speed turbopump that delivered propellants to the engine.^[7] It could burn 15,000 pounds (6,804 kg) of propellant in 80 seconds.^[7] The XLR99s could be throttled, and were the first such controllable engines that were man-rated.

The X-15 reaction control system (RCS), for maneuvering in low-pressure/density environment, used high-test peroxide (HTP), which decomposes into water and oxygen in the presence of a catalyst and could provide a specific impulse of 140 seconds.^[8]^[11] The HTP also fueled a turbopump for the main engines and auxiliary power units (APUs).^[7] Additional tanks for helium and liquid nitrogen performed other functions, for example the fuselage interior was purged with helium gas, and the liquid nitrogen was used as coolant for various systems.^[7]

Wedge tail and hypersonic stability

X-15 attached to its B-52 mother ship with a T-38 flying nearby

The X-15 had a thick wedge tail to enable it to fly in a steady manner at hypersonic speeds.^[12] This produced a significant amount of drag at lower speeds;^[12] the blunt end at the rear of the X-15 could produce as much drag as an entire F-104 Starfighter.^[12]

A wedge shape was used because it is more effective than the conventional tail as a stabilizing surface at hypersonic speeds. A vertical-tail area equal to 60 percent of the wing area was required to give the X-15 adequate directional stability.
— Wendell H. Stillwell, X-15 Research Results (SP-60)

Stability at hypersonic speeds was aided by side panels which could be extended out from the tail to increase the overall surface area, and these panels doubled as air-brakes.^[12]

Operational history

Neil Armstrong with X-15 number 1

X-15 pilots as of December 1965, left to right: Engle, Rushworth, McKay, Knight, Thompson, and Dana.

Altitudes attained by X-15 aircraft do not match those of Alan Shepard's and Gus Grissom's Project Mercury space capsules in 1961, nor of any other manned spacecraft. However, the X-15 ranks supreme among manned rocket-powered aircraft, becoming the world's first operational spaceplane in the early 1960s.

Before 1958, United States Air Force (USAF) and NACA officials discussed an orbital X-15 spaceplane, the X-15B that would launch into outer space from atop an SM-64 Navaho missile. This was canceled when the NACA became NASA and adopted Project Mercury instead.

By 1959, the Boeing X-20 Dyna-Soar space-glider program was to become the USAF's preferred means for launching military manned spacecraft into orbit. This program was canceled in the early 1960s before an operational vehicle could be built.^[3] Various configurations of the Navajo were considered, and another proposal involved a Titan I stage.^[13]

Three X-15s were built, flying 199 test flights, the last on 24 October 1968.

The first X-15 flight was a captive-carry unpowered test by Scott Crossfield, on 8 June 1959. Crossfield also piloted the first powered flight, on 17 September 1959, and his first flight with the XLR-99 rocket engine on 15 November 1960. Twelve test pilots flew the X-15. Among these were Neil Armstrong, later a NASA astronaut and first man to set foot on the Moon, and Joe Engle, later a commander of NASA Space Shuttle test flights.

In a 1962 proposal, NASA considered using the B-52/X-15 as a launch platform for a Blue Scout rocket to place satellites weighing up to 150 pounds (68 kg) into orbit.^[13]^[14]

In July and August 1963, pilot Joseph A. Walker exceeded 100 km in altitude, joining NASA astronauts and Soviet cosmonauts as the first human beings to cross that line on their way to outer space. The USAF awarded astronaut wings to anyone achieving an altitude of 50 miles (80 km), while the FAI set the limit of space at 100 kilometers (62.1 mi).

On 15 November 1967, U.S. Air Force test pilot Major Michael J. Adams was killed during X-15 Flight 191 when the X-15-3, AF Ser. No. 56-6672, entered a hypersonic spin while descending, then oscillated violently as aerodynamic forces increased after re-entry. As his aircraft's flight control system operated the control surfaces to their limits, acceleration built to 15 g₀ (150 m/s²) vertical and 8.0 g₀ (78 m/s²) lateral. The airframe broke apart at 60,000 feet (18 km) altitude, scattering the X-15's wreckage for 50 square miles (130 km²). On 8 May 2004, a monument was erected at the cockpit's locale, near Randsburg, California.^[15] Major Adams was posthumously awarded Air Force astronaut wings for his final flight in X-15-3, which had reached an altitude of 50.4 miles (81.1 km). In 1991, his name was added to the Astronaut Memorial.^[15]

The second X-15A was rebuilt after a landing accident. It was lengthened by 2.4 feet (73 cm), had a pair of auxiliary fuel tanks attached beneath its fuselage and wings, and a complete heat-resistant ablative coating was added. The plane was renamed the X-15A-2, and took flight for the first time on 28 June 1964. It reached its maximum speed of 4,520 miles per hour (7,274 km/h) in October 1967 with pilot William "Pete" Knight of the U.S. Air Force in control.

Five aircraft were used during the span of the X-15 program: three X-15s planes and two B-52 bombers:

X-15A – 56-6670, 82 powered flights
X-15A (later X-15A-2) – 56-6671, 31 powered flights as X-15A, 22 powered flights as X-15A-2, and 53 in total
X-15A – 56-6672, 64 powered flights
NB-52A – 52-003 (retired in October 1969)
NB-52B – 52-008 (retired in November 2004)

A 200th flight over Nevada was first scheduled for 21 November 1968, to be flown by William "Pete" Knight. Numerous technical problems and outbreaks of bad weather delayed this proposed flight six times, and it was permanently canceled on 20 December 1968. This X-15 was detached from the B-52 and then put into indefinite storage. The aircraft was later donated to the Air Force Museum at Wright-Patterson Air Force Base for display.

NB-52A (s/n 52-003), permanent test variant, carrying an X-15, with mission markings; horizontal X-15 silhouettes denote glide flights, diagonal silhouettes denote powered flights.
X-15 just after release.
X-15 touching down on its skids, with the lower ventral fin jettisoned.
X-15A2 (56-6671) with external fuel tanks

Current static displays

X-15 at the National Air and Space Museum in Washington, D.C.

X-15A-1 (AF Ser. No. 56-6670) is on display in the National Air and Space Museum "Milestones of Flight" gallery, Washington, D.C.
X-15A-2 (AF Ser. No. 56-6671) is at the National Museum of the United States Air Force, at Wright-Patterson Air Force Base, near Dayton, Ohio. It was retired to the museum in October 1969.^[16] The aircraft is displayed in the museum's Research and Development Gallery alongside other "X-planes", including the Bell X-1B and Douglas X-3 Stiletto.

Mockups

Dryden Flight Research Center, Edwards AFB, California, USA (painted with AF Ser. No. 56-6672)
Pima Air & Space Museum, adjacent to Davis-Monthan AFB, Tucson, Arizona (painted with AF Ser. No. 56-6671)
Evergreen Aviation & Space Museum, McMinnville, Oregon (painted with AF Ser. No. 56-6672). A full-scale wooden mockup of the X-15, it is displayed along with one of the rocket engines.

Stratofortress mother ships

NB-52B takes off with an X-15

NB-52A (AF Ser. No. 52-0003) is displayed at the Pima Air & Space Museum adjacent to Davis–Monthan AFB in Tucson, Arizona. It launched the X-15-1 30 times, the X-15-2, 11 times, and the X-15-3 31 times (as well as the M2-F2 four times, the HL-10 11 times and the X-24A twice).
NB-52B (AF Ser. No. 52-0008) is on permanent display outside the north gate of Edwards AFB, California. It launched the majority of X-15 flights.

Record flights

Highest flights

The FAI set the limit of space at 100 kilometers (62.1 mi). But in the 1960s, the U.S. Air Force considered an altitude of 50 miles (80 km) as the limit of space; U.S. Air Force and NASA pilots and crew exceeding that altitude at the time could be awarded the astronaut badge. Thirteen X-15 flights went higher than 50 miles, two of which exceeded 100 kilometers.

X-15 flights higher than 50 miles in chronological order
Flight	Date	Top speed	Altitude	Pilot
Flight 62	17 July 1962	3,831 mph (6,165 km/h)	59.6 mi (95.9 km)	Robert M. White
Flight 77	17 January 1963	3,677 mph (5,918 km/h)	51.4 mi (82.7 km)	Joseph A. Walker
Flight 87	27 June 1963	3,425 mph (5,512 km/h)	53.9 mi (86.7 km)	Robert A. Rushworth
Flight 90	19 July 1963	3,710 mph (5,970 km/h)	65.8 mi (105.9 km)	Joseph A. Walker
Flight 91	22 August 1963	3,794 mph (6,106 km/h)	67.0 mi (107.8 km)	Joseph A. Walker
Flight 138	29 June 1965	3,431 mph (5,522 km/h)	53.1 mi (85.5 km)	Joseph H. Engle
Flight 143	10 August 1965	3,549 mph (5,712 km/h)	51.3 mi (82.6 km)	Joseph H. Engle
Flight 150	28 September 1965	3,731 mph (6,004 km/h)	55.9 mi (90.0 km)	John B. McKay
Flight 153	14 October 1965	3,554 mph (5,720 km/h)	50.4 mi (81.1 km)	Joseph H. Engle
Flight 174	1 November 1966	3,750 mph (6,040 km/h)	58.1 mi (93.5 km)	William H. "Bill" Dana
Flight 190	17 October 1967	3,856 mph (6,206 km/h)	53.1 mi (85.5 km)	William J. "Pete" Knight
Flight 191	15 November 1967	3,569 mph (5,744 km/h)	50.3 mi (81.0 km)	Michael J. Adams^†
Flight 197	21 August 1968	3,443 mph (5,541 km/h)	50.6 mi (81.4 km)	William H. Dana

^† fatal

Fastest recorded flights

Key speed and altitude benchmarks of the X-15.

X-15 ten fastest flights
Flight	Date	Top Speed	Altitude	Pilot
Flight 45	9 November 1961	4,092 mph (6,585 km/h)	19.2 mi (30.9 km)	Robert M. White
Flight 59	27 June 1962	4,104 mph (6,605 km/h)	23.4 mi (37.7 km)	Joseph A. Walker
Flight 64	26 July 1962	3,989 mph (6,420 km/h)	18.7 mi (30.1 km)	Neil A. Armstrong
Flight 86	25 June 1963	3,910 mph (6,290 km/h)	21.7 mi (34.9 km)	Joseph A. Walker
Flight 89	18 July 1963	3,925 mph (6,317 km/h)	19.8 mi (31.9 km)	Robert A. Rushworth
Flight 97	5 December 1963	4,017 mph (6,465 km/h)	19.1 mi (30.7 km)	Robert A. Rushworth
Flight 105	29 April 1964	3,905 mph (6,284 km/h)	19.2 mi (30.9 km)	Robert A. Rushworth
Flight 137	22 June 1965	3,938 mph (6,338 km/h)	29.5 mi (47.5 km)	John B. McKay
Flight 175	18 November 1966	4,250 mph (6,840 km/h)	18.7 mi (30.1 km)	William J. "Pete" Knight
Flight 188	3 October 1967	4,519 mph (7,273 km/h)	19.3 mi (31.1 km)	William J. "Pete" Knight

X-15 pilots

X-15 pilots and their achievements during the program
Pilot	Organization	Total Flights	USAF space flights	FAI space flights	Max Mach	Max speed (mph)	Max altitude (miles)
Michael J. Adams^†	U.S. Air Force	7	1	0	5.59	3,822	50.3
Neil A. Armstrong	NASA	7	0	0	5.74	3,989	39.2
Scott Crossfield	North American Aviation	14	0	0	2.97	1,959	15.3
William H. Dana	NASA	16	2	0	5.53	3,897	58.1
Joseph H. Engle	U.S. Air Force	16	3	0	5.71	3,887	53.1
William J. Knight	U.S. Air Force	16	1	0	6.70	4,519	53.1
John B. McKay	NASA	29	1	0	5.65	3,863	55.9
Forrest S. Petersen	U.S. Navy	5	0	0	5.3	3,600	19.2
Robert A. Rushworth	U.S. Air Force	34	1	0	6.06	4,017	53.9
Milton O. Thompson	NASA	14	0	0	5.48	3,723	40.5
Joseph A. Walker	NASA	25	3	2	5.92	4,104	67.0
Robert M. White^**	U.S. Air Force	16	1	0	6.04	4,092	59.6

^† Killed in the crash of an X-15
^** White replaced selected pilot Iven Kincheloe, who died before the first X-15 flight.

Specifications (X-15)

Other configurations include the Reaction Motors XLR11 equipped X-15, and the long version.

General characteristics

Crew: one
Length: 50 ft 9 in (15.45 m)
Wingspan: 22 ft 4 in (6.8 m)
Height: 13 ft 6 in (4.12 m)
Wing area: 200 ft² (18.6 m²)
Empty weight: 14,600 lb (6,620 kg)
Loaded weight: 34,000 lb (15,420 kg)
Max. takeoff weight: 34,000 lb (15,420 kg)
Powerplant: 1 × Reaction Motors XLR99-RM-2 liquid propellant rocket engine, 70,400 lb_f at 30 km (313 kN)

Performance

Maximum speed: 4,520 mph (7,274 km/h)
Range: 280 mi (450 km)
Service ceiling: 67 mi (108 km, 354,330 ft)
Rate of climb: 60,000 ft/min (18,288 m/min)
Wing loading: 170 lb/ft² (829 kg/m²)
Thrust/weight: 2.07

References

Notes

↑ "North American X-15 High-Speed Research Aircraft". Aerospaceweb.org. 2010. Retrieved 24 November 2008.
↑ Gibbs, Yvonne, ed. (28 February 2014). "NASA Armstrong Fact Sheet: X-15 Hypersonic Research Program". NASA. Retrieved 4 October 2015.
1 2 Jenkins 2001, p. 10.
↑ Thompson, Elvia H.; Johnsen, Frederick A. (23 August 2005). "NASA Honors High Flying Space Pioneers" (Press release). NASA. Release 05-233.
1 2 Käsmann 1999, p. 105.
↑ "X-15 launch from B-52 mothership". Armstrong Flight Research Center. 6 February 2002. Photo E-4942.
1 2 3 4 5 Raveling, Paul. "X-15 Pilot Report, Part 1: X-15 General Description & Walkaround". SierraFoot.org. Retrieved 30 September 2011.
1 2 3 4 5 Jarvis, Calvin R.; Lock, Wilton P. (1965). Operational Experience With the X-15 Reaction Control and Reaction Augmentation Systems (PDF). NASA. OCLC 703664750. TN D-2864.
1 2 3 4 5 6 7 8 9 Raveling, Paul. "X-15 Pilot Report, Part 2: X-15 Cockpit Check". SierraFoot.org. Retrieved 1 October 2011.
1 2 "Forty Years ago in the X-15 Flight Test Program, November 1961–March 1962". Goleta Air & Space Museum. Retrieved 3 October 2011.
↑ Davies 2003, p. 8.28.
1 2 3 4 Stillwell, Wendell H. (1965). X-15 Research Results: With a Selected Bibliography. NASA. OCLC 44275779. NASA SP-60.
1 2 Wade, Mark. "X-15/Blue Scout". Encyclopedia Astronautica. Retrieved 30 September 2011.
↑ "Historical note: Blue Scout / X-15". Citizensinspace.org. 21 March 2012.
1 2 Merlin, Peter W. (30 July 2004). "Michael Adams: Remembering a Fallen Hero". The X-Press. 46 (6).
↑ USAF Museum Guidebook 1975, p. 73.

Bibliography

Davies, Mark, ed. (2003). The Standard Handbook for Aeronautical and Astronautical Engineers. New York: McGraw-Hill. pp. 8–28. ISBN 978-0-07-136229-0.
Godwin, Robert, ed. (2001). X-15: The NASA Mission Reports. Burlington, Ontario: Apogee Books. ISBN 1-896522-65-3.
Hallion, Richard P. (March–June 1978). "Saga of the Rocket Ships". In Green, William; Swanborough, Gordon. Air Enthusiast Six. Bromley, Kent, UK: Pilot Press.
Jenkins, Dennis R. (2001). Space Shuttle: The History of the National Space Transportation System: The First 100 Missions (3rd ed.). Stillwater, Minnesota: Voyageur Press. ISBN 0-9633974-5-1.
Jenkins, Dennis R.; Landis, Tony; Miller, Jay (June 2003). American X-Vehicles: An Inventory—X-1 to X-50 (PDF). Monographs in Aerospace History No. 31. NASA. OCLC 68623213. SP-2003-4531.
Jenkins, Dennis R. (2007). X-15: Extending the Frontiers of Flight (PDF). NASA. ISBN 9780160792854.
Käsmann, Ferdinand C. W. (1999). Die schnellsten Jets der Welt: Weltrekord-Flugzeuge [The Fastest Jets in the World: World Record Aircraft] (in German). Kolpingring, Germany: Aviatic Verlag. ISBN 3-925505-26-1.
Price, A. B. (12 January 1968). Design Report - Thermal Protection System, X-15A-2. Denver, Colorado: Martin Marietta Corporation. NASA CR-82003.
Thompson, Milton O. (1992). At the Edge of Space: The X-15 Flight Program. Washington, D.C.: Smithsonian Institution Press. ISBN 1-56098-107-5.
Tregaskis, Richard (2000). X-15 Diary: The Story of America's First Space Ship. Lincoln, Nebraska: iUniverse. ISBN 0-595-00250-1.
United States Air Force Museum Guidebook. Wright-Patterson AFB, Ohio: Air Force Museum Foundation. 1975.
Watts, Joe D. (October 1968). Flight Experience With Shock Impingement and Interference Heating on the X-15-2 Research Airplane (PDF). NASA. NASA-TM-X-1669.

External links

Wikimedia Commons has media related to North American X-15.

NASA

Non-NASA

X-15A at Encyclopedia Astronautica
X-15: Advanced Research Airplane, design summary by North America Aviation
A film clip "X-15 Aloft: First Free Flight Of Manned Space Plane" (1959) is available at the Internet Archive
A film clip "X-15 Space Record: Plane Flown To 59-mile Mark" (1962) is available at the Internet Archive
A film clip "Space Triumph: Discoverer Capsule Recovered From Orbit" (1960) is available at the Internet Archive
A film clip "Nuclear Navy: First Polaris A-Sub Sails On Ocean Patrol" (1960) is available at the Internet Archive
The short film History of the Air Force, 1954-1964: From Missile Development to Space (1977) is available for free download at the Internet Archive
The documentary Research Project X-15 (1965) at YouTube.com

North American Aviation and North American Aviation division of Rockwell International aircraft

Manufacturer
"Charge Number"

NA-15
NA-16
NA-17
NA-18
NA-19
NA-20
NA-21
NA-22
NA-23
NA-24
NA-25
NA-26
NA-27
NA-28
NA-29
NA-30
NA-31
NA-32
NA-33
NA-34
NA-35
NA-36
NA-37
NA-38
NA-39
NA-40
NA-41
NA-42
NA-43
NA-44
NA-45
NA-46
NA-47
NA-48
NA-49
NA-50
NA-51
NA-52
NA-53
NA-54
NA-55
NA-56
NA-57
NA-58
NA-59
NA-60
NA-61
NA-62
NA-63
NA-64
NA-65
NA-66
NA-67
NA-68
NA-69
NA-70
NA-71
NA-72
NA-73
NA-74
NA-75
NA-76
NA-77
NA-78
NA-79
NA-80
NA-81
NA-82
NA-83
NA-84
NA-85
NA-86
NA-87
NA-88
NA-89
NA-90
NA-91
NA-92
NA-93
NA-94
NA-95
NA-96
NA-97
NA-98
NA-99
NA-100
NA-101
NA-102
NA-103
NA-104
NA-105
NA-106
NA-107
NA-108
NA-109
NA-110
NA-111
NA-112
NA-113
NA-114
NA-115
NA-116
NA-117
NA-118
NA-119
NA-120
NA-121
NA-122
NA-123
NA-124
NA-125
NA-126
NA-127
NA-128
NA-129
NA-130
NA-131
NA-132
NA-133
NA-134
NA-135
NA-136
NA-137
NA-138
NA-139
NA-140
NA-141
NA-142
NA-143
NA-144
NA-145
NA-146
NA-147
NA-148
NA-149
NA-150
NA-151
NA-152
NA-153
NA-154
NA-155
NA-156
NA-157
NA-158
NA-159
NA-160
NA-161
NA-162
NA-163
NA-164
NA-165
NA-166
NA-167
NA-168
NA-169
NA-170
NA-171
NA-172
NA-173
NA-174
NA-175
NA-176
NA-177
NA-178
NA-179
NA-180
NA-181
NA-182
NA-183
NA-184
NA-185
NA-186
NA-187
NA-188
NA-189
NA-190
NA-191
NA-192
NA-193
NA-194
NA-195
NA-196
NA-197
NA-198
NA-199
NA-200
NA-201
NA-202
NA-203
NA-204
NA-205
NA-206
NA-207
NA-208
NA-209
NA-210
NA-211
NA-212
NA-213
NA-214
NA-215
NA-216
NA-217
NA-218
NA-219
NA-220
NA-221
NA-222
NA-223
NA-224
NA-225
NA-226
NA-227
NA-228
NA-229
NA-230
NA-231
NA-232
NA-233
NA-234
NA-235
NA-236
NA-237
NA-238
NA-239
NA-240
NA-241
NA-242
NA-243
NA-244
NA-245
NA-246
NA-247
NA-248
NA-249
NA-250
NA-251
NA-252
NA-253
NA-254
NA-255
NA-256
NA-257
NA-258
NA-259
NA-260
NA-261
NA-262
NA-263
NA-264
NA-265
NA-266
NA-267
NA-268
NA-269
NA-270
NA-271
NA-272
NA-273
NA-274
NA-275
NA-276
NA-277
NA-278
NA-279
NA-280
NA-281
NA-282
NA-283
NA-284
NA-285
NA-286
NA-287
NA-288
NA-289
NA-290
NA-291
NA-292
NA-293
NA-294
NA-295
NA-296
NA-297
NA-298
NA-299
NA-300
NA-301
NA-302
NA-303
NA-304
NA-305
NA-306
NA-307
NA-308
NA-309
NA-310
NA-311
NA-312
NA-313
NA-314
NA-315
NA-316
NA-317
NA-318
NA-319
NA-320
NA-321
NA-322
NA-323
NA-324
NA-325
NA-326
NA-327
NA-328
NA-329
NA-330
NA-331
NA-332
NA-333
NA-334
NA-335
NA-336
NA-337
NA-338
NA-339
NA-340
NA-341
NA-342
NA-343
NA-344
NA-345
NA-346
NA-347
NA-348
NA-349
NA-350
NA-351
NA-352
NA-353
NA-354
NA-355
NA-356
NA-357
NA-358
NA-359
NA-360
NA-361
NA-362
NA-363
NA-364
NA-365
NA-366
NA-367
NA-368
NA-369
NA-370
NA-371
NA-372
NA-373
NA-374
NA-375
NA-376
NA-377
NA-378
NA-379
NA-380
NA-381
NA-382
NA-383
NA-384
NA-385
NA-386
NA-387
NA-388
NA-389
NA-390
NA-391
NA-392
NA-393
NA-394
NA-395
NA-396
NA-397
NA-398
NA-399
NA-400
NA-401
NA-402
NA-403
NA-404
NA-405
NA-406
NA-407
NA-420
NA-430
NA-431
D481
NA-704

By role

Fighters	P-51 P-64 F-82 F-86/F-86D YF-93 F-100 F-107 XF-108 FJ-1 FJ-2/3 FJ-4 F-1 XFV-12

Bombers	XB-21 B-25 XB-28 B-45 B-64 XB-70 B-1

Attack	A-27 A-36 AJ XA2J A3J A-2 A-5

Observation	O-47 L-17 OV-10

Trainers	NA-16 NA-35 BT-9 BT-10 BT-14 Yale BC-1 Harvard BC-2 AT-6 T-6 NJ-1 SNJ XSN2J T2J T3J T-28 T-39 T-2 Ranger 2000

Transports	NAC-60

Experimental	X-10 X-15 X-30 X-31 HiMAT

Missiles	SM-64 GAM-77 AGM-28 MQM-42 AGM-53

Spacecraft	Apollo CSM DC-3 Space Shuttle

By name

See also: Aero Commander

USAF / Joint Service experimental aircraft (X-plane) designations since 1941

1–25	X-1 X-2 X-3 X-4 X-5 X-6 X-7 X-8 X-9 X-10 X-11 X-12 X-13 X-14 X-15 X-16 X-17 X-18 X-19 X-20 X-21 X-22 X-23 X-24A / B / C X-25

26–50	X-26 X-27 X-28 X-29 X-30 X-31 X-32 X-33 X-34 X-35 X-36 X-37 X-38 X-39 X-40 X-41 X-42 X-43 X-44 X-45 X-46 X-47A / B / C X-48 X-49 X-50

50–	X-51 X-52¹ X-53 X-54 X-55 X-56 X-57

See also	D-558-1 D-558-2 M2-F1 M2-F2 M2-F3 HL-10 AD-1

¹ Not assigned.

United States human spaceflight programs

Active	ISS (joint) Orion (in development)

Previous	X-15 (suborbital) Mercury Gemini Apollo Skylab Apollo-Soyuz (with USSR) Space Shuttle Shuttle-Mir (with Russia)

Canceled	MISS Orion (nuclear) Dyna-Soar Manned Orbiting Laboratory National Aero-Space Plane Space Station Freedom (now ISS) Orbital Space Plane Project Constellation

Reusable launch systems

Partially reusable

Active	Falcon 9 Full Thrust

In development	Adeline engine pack for Ariane 6 Baikal booster for Angara Falcon Heavy core stages New Glenn first stage RLV Technology Demonstration Programme Vulcan SMART engine pack

Retired	Buran Space Shuttle

Cancelled	Ares I Ares V Falcon 1e Liquid Fly-back Booster MAKS Phoenix – Hopper Reusable Booster System Saturn-Shuttle

Completely reusable

Active	New Shepard SpaceShipTwo

In development	ITS launch vehicle Skylon SOAR Sura

Retired	SpaceShipOne X-15

Cancelled	Avatar Energia II (Uragan) Goodyear Meteor Junior HOTOL K-1 Lynx Roton SpaceShipThree VentureStar X-30 NASP X-33

Italics indicates suborbital launch systems
‡ - Reusability currently in development

NASA

Policy and history

History	NACA (1915) National Aeronautics and Space Act (1958) Space Task Group (1958) Paine (1986) Rogers (1986) Ride (1987) Space Exploration Initiative (1989) Augustine (1990) U.S. National Space Policy (1996) CFUSAI (2002) CAIB (2003) Vision for Space Exploration (2004) Aldridge (2004) Augustine (2009)

General	Space Race Administrator and Deputy Administrator Chief Scientist Astronaut Corps Budget Spin-off technologies NASA TV NASA Social Launch Services Program Kennedy Space Center Vehicle Assembly Building Launch Complex 39 Launch Control Center Johnson Space Center Mission Control Lunar Sample Laboratory

Robotic programs

Past	Hitchhiker Mariner Mariner Mark II MESUR Mars Surveyor '98 New Millennium Lunar Orbiter Pioneer Planetary Observer Ranger Surveyor Viking Project Prometheus Mars Scout

Current	Living With a Star Lunar Precursor Robotic Program Earth Observing System Great Observatories program Explorer Small explorer Voyager Discovery New Frontiers Mars Exploration Rover

Human spaceflight
programs

Past	X-15 (suborbital) Mercury Gemini Apollo Apollo–Soyuz Test Project (with USSR) Skylab Shuttle–Mir (with Russia) Space Shuttle program Constellation program

Current	International Space Station program Commercial Orbital Transportation Services (COTS) Commercial Crew Development (CCDev) Orion

Individual featured
missions
(human and robotic)

Past	COBE Apollo 11 Mercury 3 Mercury-Atlas 6 Magellan Pioneer 10/11 Galileo GALEX GRAIL WMAP Space Shuttle LADEE MESSENGER Aquarius

Currently operating	MRO Mars Odyssey Dawn New Horizons Kepler International Space Station Hubble Space Telescope Spitzer RHESSI SWIFT THEMIS Mars Exploration Rover Curiosity rover timeline Opportunity rover observed Cassini GOES 14 Lunar Reconnaissance Orbiter GOES 15 Van Allen Probes SDO Juno Mars Science Laboratory timeline NuSTAR Voyager 1/2 WISE MAVEN MMS

Future	JPSS James Webb Space Telescope WFIRST InSight OSIRIS-REx Asteroid Redirect Mission Mars 2020 NISAR Transiting Exoplanet Survey Satellite Europa Multiple-Flyby Mission

Communications
and Navigation

NASA lists

Category
Commons
Portal

This article is issued from Wikipedia - version of the 11/22/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.