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Romanian civilians and members of the flight crew unload medical supplies from a 37th Tactical Airlift Squadron C-130 Herucles aircraft at the Bucharest airport. Provided by the 7th Medical Command from stocks at the U.S. Army Medical Materiel Center in Pirmasens, West Germany, the supplies are part of a relief effort for citizens of the revolt-torn country. The U.S. Air Force personnel are in civilian clothes for diplomatic reasons

PACIFIC OCEAN– U.S. Marine Cpl. Bradley Gordon, a combat

PHILIPPINE SEA (June 13, 2020) – U.S. Sailors move

U.S. Army Pvt. Acosta Reyes of 3-141, HHC moves a pallet

A pallet of corn for the World Food Program, after being offloaded from a C-130 Hercules aircraft during the AHUAS TARA II (BIG PINE) operation. The US Agency for International Development is sponsoring the program

Tech. Sgt. Justin Leonard, left, and Senior Airman

Unloading cargo from a United States Army Air Transport Command cargo plane

Unloading cargo from a United States Army Air Transport Command cargo plane

US Air Force (USAF) MASTER Sergeant (MSGT) Johnny MacMahan, a Radio Operator from the 76th Airlift Squadron (AS), 86th Airlift Wing (AW), Ramstein Air Base (AB), Germany, loads boxes of school supplies, food and clothing donated by Kaiserslautern Military Families, destined for the country of Moldova

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The Mars Odyssey spacecraft is removed from the Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. Mars Odyssey will be moved on a transport trailer from KSC’s Shuttle Landing Facility to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. In the SAEF it will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0033

The 2001 Mars Odyssey spacecraft arrives at the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. The spacecraft arrived at KSC's Shuttle Landing Facility aboard an Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. In the SAEF, Odyssey will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0037

The crated 2001 Mars Odyssey spacecraft rests safely inside the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. The spacecraft arrived at KSC’s Shuttle Landing Facility aboard an Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. In the SAEF, Odyssey will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0039

The 2001 Mars Odyssey spacecraft sits on the bed of the trailer that will take it from KSC’s Shuttle Landing Facility to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. The spacecraft arrived at the SLF aboard an Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. In the SAEF Odyssey will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0035

The 2001 Mars Odyssey spacecraft leaves the KSC Shuttle Landing Facility on the bed of a transport trailer. The spacecraft is being moved to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. The spacecraft arrived at the SLF aboard an Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. In the SAEF, Odyssey will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0036

Workers push the crated 2001 Mars Odyssey spacecraft toward the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. The spacecraft arrived at KSC’s Shuttle Landing Facility aboard an Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. In the SAEF, Odyssey will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0038

A forklift carries the crated Mars Odyssey spacecraft from the Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. The crate will placed on a transport trailer to take it from KSC’s Shuttle Landing Facility to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. In the SAEF it will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0034

The Mars Climate Orbiter spacecraft is moved onto a flatbed for transport to the Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2). It arrived at KSC's Shuttle Landing Facility aboard an Air Force C-17 cargo plane early this morning following its flight from the Lockheed Martin Astronautics plant in Denver, Colo. When it arrives at the red planet, the Mars Climate Orbiter will primarily support its companion Mars Polar Lander spacecraft, planned for launch on Jan. 3, 1999. After that, the Mars Climate Orbiter's instruments will monitor the Martian atmosphere and image the planet's surface on a daily basis for one Martian year (1.8 Earth years). It will observe the appearance and movement of atmospheric dust and water vapor, as well as characterize seasonal changes on the surface. The detailed images of the surface features will provide important clues to the planet's early climate history and give scientists more information about possible liquid water reserves beneath the surface. The scheduled launch date for the Mars Climate Orbiter is Dec. 10, 1998, on a Delta II 7425 rocket KSC-98pc1047

In the Spacecraft Assembly and Encapsulation Facility 2, workers place a protective barrier around the 2001 Mars Odyssey spacecraft. Odyssey will undergo final assembly and checkout in the SAEf-2, which includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. Odyssey, which arrived from Denver, Colo., Jan. 4, will be launched aboard a Boeing Delta II vehicle from Pad A, Complex 17, CCAFS. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet’s surface and measuring its environment KSC-01pp0070

The Mars Odyssey spacecraft is maneuvered for removal from the Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. Mars Odyssey will be moved on a transport trailer from KSC's Shuttle Landing Facility to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. In the SAEF it will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0032

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The Mars Odyssey spacecraft is maneuvered for removal from the Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. Mars Odyssey will be moved on a transport trailer from KSC's Shuttle Landing Facility to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. In the SAEF it will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment

The Space Shuttle program was the United States government's manned launch vehicle program from 1981 to 2011, administered by NASA and officially beginning in 1972. The Space Shuttle system—composed of an orbiter launched with two reusable solid rocket boosters and a disposable external fuel tank— carried up to eight astronauts and up to 50,000 lb (23,000 kg) of payload into low Earth orbit (LEO). When its mission was complete, the orbiter would re-enter the Earth's atmosphere and lands as a glider. Although the concept had been explored since the late 1960s, the program formally commenced in 1972 and was the focus of NASA's manned operations after the final Apollo and Skylab flights in the mid-1970s. It started with the launch of the first shuttle Columbia on April 12, 1981, on STS-1. and finished with its last mission, STS-135 flown by Atlantis, in July 2011.

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kennedy space center mars odyssey spacecraft mars odyssey spacecraft air force c cargo airplane cargo airplane denver martin plant martin plant mars odyssey transport trailer transport trailer encapsulation encapsulation facility saef industrial ksc industrial area checkout installation science instruments three science instruments integration array test stage booster stage booster activities launch pad first day trajectory delta delta ii vehicle station cape canaveral air force station insertion orbit altitude sun synchronous two years planet surface environment environment ksc air force cape canaveral space shuttle maps public domain aircraft photos lockheed martin aircrafts boeing aircrafts nasa
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label_outline Explore Cargo Airplane, Transport Trailer, Environment Ksc

KENNEDY SPACE CENTER, FLA. - A Shuttle Training Aircraft (STA) taxis into the parking area of KSC's Shuttle Landing Facility. In the specially configured aircraft, STS-115 Commander Brent Jett and Pilot Christopher Ferguson practiced landing the shuttle this morning. STA practice is part of launch preparations. The STA is a Grumman American Aviation-built Gulf Stream II jet that was modified to simulate an orbiter’s cockpit, motion and visual cues, and handling qualities. In flight, the STA duplicates the orbiter’s atmospheric descent trajectory from approximately 35,000 feet altitude to landing on a runway. Because the orbiter is unpowered during re-entry and landing, its high-speed glide must be perfectly executed the first time. Mission STS-115 is scheduled to lift off about 12:29 p.m. Sept. 6. Mission managers cancelled Atlantis' first launch campaign due to a lightning strike at the pad and the passage of Tropical Storm Ernesto along Florida's east coast. The mission will deliver and install the 17-and-a-half-ton P3/P4 truss segment to the port side of the integrated truss system on the orbital outpost. The truss includes a new set of photovoltaic solar arrays. When unfurled to their full length of 240 feet, the arrays will provide additional power for the station in preparation for the delivery of international science modules over the next two years. STS-115 is expected to last 11 days and includes three scheduled spacewalks. Photo credit: NASA/Kim Shiflett KSC-06pd2033

KENNEDY SPACE CENTER, FLA. -- The last of the workers dressed in their SCAPE suits file into the vehicle that will take them to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) to fuel the Comet Nucleus Tour (CONTOUR) spacecraft. SCAPE refers to Self-Contained Atmospheric Protective Ensemble. CONTOUR will provide the first detailed look into the heart of a comet -- the nucleus. Flying as close as 60 miles (100 kilometers) to at least two comets, the spacecraft will take the sharpest pictures yet of a nucleus while analyzing the gas and dust that surround them. CONTOUR is scheduled for launch aboard a Boeing Delta II rocket July 1, 2002, from Launch Complex 17-A, Cape Canaveral Air Force Station KSC-02pd0962

CAPE CANAVERAL, Fla. -- One of the shuttle training aircraft, or STA, flies over NASA Kennedy Space Center's Shuttle Landing Facility during landing practice. The commander and pilot of the STS-124 mission, Mark Kelly and Ken Ham, are making the practice landings. The STA is a Grumman American Aviation-built Gulf Stream II jet that was modified to simulate an orbiter's cockpit, motion and visual cues, and handling qualities. In flight, the aircraft duplicates the orbiter's atmospheric descent trajectory from approximately 35,000 feet altitude to landing on a runway. Space shuttle Discovery is scheduled to lift off on the STS-124 mission at 5:02 p.m. May 31. Photo credit: NASA/Kim Shiflett KSC-08pd1473

KODIAK ISLAND, Alaska. -- With light still on the horizon, a Lockheed Martin Athena I launch vehicle lifts off the launch pad at Kodiak Launch Complex (KSC) with the Kodiak Star spacecraft on board. Liftoff occurred at 10:40 p.m. EDT, Sept. 29. The Kodiak Star payload consists of four satellites: PICOSat, PCSat, Sapphire and Starshine 3. Starshine is sponsored by NASA. The 200-pound sphere will be used by students to study orbital decay. The other three satellites, also on educational missions, are sponsored by the department of defense. PICOSat is a technology demonstration satellite with four experiments on board. PCSat was designed by midshipmen at the U.S. Naval Academy, and will become part of the amateur radio community's automatic position reporting system. Sapphire is a micro-satellite built by students at Stanford University and Washington University - St. Louis to test infrared sensors for space use. KLC is the newest commercial launch complex in the United States, ideal for launch payloads requiring low-Earth polar or sun-synchronous orbits KSC01padig281

KENNEDY SPACE CENTER, FLA. -- Seated in the cockpit of the shuttle training aircraft, or STA, STS-120 Commander Pamela Melroy is eager to begin landing practice on NASA's Shuttle Landing Facility runway. A modified Grumman American Aviation-built Gulf Stream II jet, the STA simulates an orbiter's cockpit, motion and visual cues and handling qualities. In flight, the STA duplicates the orbiter's atmospheric descent trajectory from approximately 35,000 feet altitude to landing on a runway. Melroy and other crew members are at Kennedy Space Center to take part in the terminal countdown demonstration test, which also includes a simulated launch countdown. Mission STS-120 is targeted for Oct. 23. Photo credit: NASA/Kim Shiflett KSC-07pd2691

Workers prepare to move the shipping container with the Cassini orbiter inside the Payload Hazardous Servicing Facility (PHSF) for prelaunch processing, testing and integration. The /1997/66-97.htm">orbiter arrived</a> at KSC’s Shuttle Landing Facility in a U.S. Air Force C-17 air cargo plane from Edwards Air Force Base, California. The orbiter and the Huygens probe already being processed at KSC are the two primary components of the Cassini spacecraft, which will be launched on a Titan IVB/Centaur expendable launch vehicle from Cape Canaveral Air Station. Cassini will explore Saturn, its rings and moons for four years. The Huygens probe, designed and developed for the European Space Agency (ESA), will be deployed from the orbiter to study the clouds, atmosphere and surface of Saturn’s largest moon, Titan. The orbiter was designed and assembled at NASA’s Jet Propulsion Laboratory in California. Following postflight inspections, integration of the 12 science instruments not already installed on the orbiter will be completed. Then, the parabolic high-gain antenna and the propulsion module will be mated to the orbiter, followed by the Huygens probe, which will complete spacecraft integration. The Cassini mission is targeted for an Oct. 6 launch to begin its 6.7-year journey to the Saturnian system. Arrival at the planet is expected to occur around July 1, 2004 KSC-97pc682

US Marine Corps (USMC) Sergeant (SGT) McKinney, 3rd Transport Support Battalion (TSB), prepares to offload a transport trailer containing compressed gas, inside the cargo compartment of the Military Sealift Command (MSC) chartered Theater Support Vessel (TSV) WESTPAC EXPRESS at the port in Chuk Su Met, Thailand, during Operation COBRA GOLD. The exercise is an annual multi-national training exercise designed to ensure regional peace and strengthen the ability of the Royal Thai Armed Forces

SENIOR AIRMAN David Brigham (in tractor), of the 43rd Transportation Squadron, 43rd Airlift Wing, Pope Air Force Base, North Carolina, carefully backs a "lowboy" transport trailer under the remains of a crashed MH-53J Pave Low IIIE helicopter. The bed of the trailer is covered with mattreses and shipping pads to prevent further damage to the helicopter. The helicopter crashed near Camp Mackall Army Air Field, North Carolina on the night of June 2, 1999. Air Force Special Operations Command requested that the aircraft be recovered and returned to Hurlburt Field, Florida

A "lowboy" transport trailer with the remains of a crashed MH-53J Pave Low IIIE helicopter is placed on the deck of a "lowboy" transport trailer. The bed of the trailer is covered with mattresses and shipping pads to prevent further damage to the helicopter. The helicopter crashed near Camp Mackall Army Air Field, North Carolina on the night of June 2, 1999. Air Force Special Operations Command requested that the aircraft be recovered and returned to Hurlburt Field, Florida

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, a tractor-trailer carrying the Alpha Magnetic Spectrometer, or AMS, passes the Vehicle Assembly Building en route to the Space Station Processing Facility. The state-of-the-art particle physics detector arrived on Kennedy's Shuttle Landing Facility aboard an Air Force C-5M aircraft from Europe. It will operate as an external module on the International Space Station to study the universe and its origin by searching for dark matter. AMS will fly to the station aboard space shuttle Endeavour's STS-134 mission targeted to launch Feb. 26, 2011. Photo credit: NASA/Frankie Martin KSC-2010-4495

Smoke clouds pour across the ground as the Boeing Delta II rocket carrying the 2001 Mars Odyssey spacecraft leaps into the clear blue sky. Liftoff occurred at 11:02 a.m. EDT. The launch sends the Mars Odyssey on an approximate 7-month journey to orbit the planet Mars. The spacecraft, built by Lockheed Martin Space Systems for the Jet Propulsion Laboratory, will map the Martian surface looking for geological features that could indicate the presence of water, now or in the past. Science gathered by three science instruments on board will be key to future missions to Mars, including orbital reconnaissance, lander and human missions KSC-01pp0744

KENNEDY SPACE CENTER, FLA. - Dressed in their SCAPE suits, workers are ready for the fueling of the Comet Nucleus Tour (CONTOUR) spacecraft in the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2). SCAPE refers to Self-Contained Atmospheric Protective Ensemble. CONTOUR will provide the first detailed look into the heart of a comet -- the nucleus. Flying as close as 60 miles (100 kilometers) to at least two comets, the spacecraft will take the sharpest pictures yet of a nucleus while analyzing the gas and dust that surround them. CONTOUR is scheduled for launch aboard a Boeing Delta II rocket July 1, 2002, from Launch Complex 17-A, Cape Canaveral Air Force Station KSC-02pd0959

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kennedy space center mars odyssey spacecraft mars odyssey spacecraft air force c cargo airplane cargo airplane denver martin plant martin plant mars odyssey transport trailer transport trailer encapsulation encapsulation facility saef industrial ksc industrial area checkout installation science instruments three science instruments integration array test stage booster stage booster activities launch pad first day trajectory delta delta ii vehicle station cape canaveral air force station insertion orbit altitude sun synchronous two years planet surface environment environment ksc air force cape canaveral space shuttle maps public domain aircraft photos lockheed martin aircrafts boeing aircrafts nasa