Illustration of Ares I Launch Vehicle With Call Outs
Date of Image
2006-12-05
Full Description
Named for the Greek god associated with Mars, the NASA developed Ares launch vehicles will return humans to the moon and later take them to Mars and other destinations. This is an illustration of the Ares I with call outs. Ares I is an inline, two-stage rocket configuration topped by the Orion crew vehicle and its launch abort system. In addition to the primary mission of carrying crews of four to six astronauts to Earth orbit, Ares I may also use its 25-ton payload capacity to deliver resources and supplies to the International Space Station, or to "park" payloads in orbit for retrieval by other spacecraft bound for the moon or other destinations. Ares I employs a single five-segment solid rocket booster, a derivative of the space shuttle solid rocket booster, for the first stage. A liquid oxygen/liquid hydrogen J-2X engine derived from the J-2 engine used on the Apollo second stage will power the Ares I second stage. The Ares I can lift more than 55,000 pounds to low Earth orbit. Ares I is subject to configuration changes before it is actually launched. This illustration reflects the latest configuration as of January 2007.
Model of the Ares V Launch S
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Name of Image
Model of the Ares V Launch System
Date of Image
2006-09-08
Full Description
This is a studio photograph of a model of the Ares V rocket. Named for the Greek god associated with Mars, Ares vehicles will return humans to the moon and later take them to Mars and other destinations. The Ares V is a heavy lift launch vehicle that will use five RS-68 liquid oxygen/liquid hydrogen engines mounted below a larger version of the space shuttle external tank, and two five-segment solid propellant rocket boosters for the first stage. The upper stage will use the same J-2X engine as the Ares I. The Ares V can lift more than 286,000 pounds to low Earth orbit and stands approximately 360 feet tall. This versatile system will be used to carry cargo and the components into orbit needed to go to the moon and later to Mars, while the Crew will be carried by the Ares I. Ares V is subject to configuration changes before it is actually launched. This illustration reflects the latest configuration as of September 2006.
Illustration of Ares I Durin
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Name of Image
Illustration of Ares I During Launch
Date of Image
2006-12-05
Full Description
The NASA developed Ares rockets, named for the Greek god associated with Mars, will return humans to the moon and later take them to Mars and other destinations. In this early illustration, the Ares I is illustrated during lift off. Ares I is an inline, two-stage rocket configuration topped by the Orion crew vehicle and its launch abort system. With a primary mission of carrying four to six member crews to Earth orbit, Ares I may also use its 25-ton payload capacity to deliver resources and supplies to the International Space Station (ISS), or to "park" payloads in orbit for retrieval by other spacecraft bound for the moon or other destinations. Ares I uses a single five-segment solid rocket booster, a derivative of the space shuttle solid rocket booster, for the first stage. A liquid oxygen/liquid hydrogen J-2X engine, derived from the J-2 engine used on the second stage of the Apollo vehicle, will power the Ares I second stage. Ares I can lift more than 55,000 pounds to low Earth orbit. The Ares I is subject to configuration changes before it is actually launched. This illustration reflects the latest configuration as of September 2006.
Illustration of Ares I and A
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Name of Image
Illustration of Ares I and Ares V Launch Vehicles
Date of Image
2006-09-09
Full Description
Named for the Greek god associated with Mars, the NASA developed Ares launch vehicles will return humans to the moon and later take them to Mars and other destinations. In this early illustration, the vehicle depicted on the left is the Ares I. Ares I is an inline, two-stage rocket configuration topped by the Orion crew vehicle and its launch abort system. In addition to its primary mission of carrying four to six member crews to Earth orbit, Ares I may also use its 25-ton payload capacity to deliver resources and supplies to the International Space Station (ISS), or to "park" payloads in orbit for retrieval by other spacecraft bound for the moon or other destinations. The Ares I employs a single five-segment solid rocket booster, a derivative of the space shuttle solid rocket booster, for the first stage. A liquid oxygen/liquid hydrogen J-2X engine derived from the J-2 engine used on the second stage of the Apollo vehicle will power the Ares V second stage. The Ares I can lift more than 55,000 pounds to low Earth orbit. The vehicle illustrated on the right is the Ares V, a heavy lift launch vehicle that will use five RS-68 liquid oxygen/liquid hydrogen engines mounted below a larger version of the space shuttle external tank, and two five-segment solid propellant rocket boosters for the first stage. The upper stage will use the same J-2X engine as the Ares I. The Ares V can lift more than 286,000 pounds to low Earth orbit and stands approximately 360 feet tall. This versatile system will be used to carry cargo and the components into orbit needed to go to the moon and later to Mars. Both vehicles are subject to configuration changes before they are actually launched. This illustration reflects the latest configuration as of September 2006.
Illustration of Ares V Launc
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Name of Image
Illustration of Ares V Launch Vehicle With Call Outs
Date of Image
2006-12-05
Full Description
The NASA developed Ares rockets, named for the Greek god associated with Mars, will return humans to the moon and later take them to Mars and other destinations. This is an illustration of the Ares V with call outs. The Ares V is a heavy lift launch vehicle that will use five RS-68 liquid oxygen/liquid hydrogen engines mounted below a larger version of the space shuttle external tank, and two five-segment solid propellant rocket boosters for the first stage. The upper stage will use the same J-2X engine as the Ares I and past Apollo vehicles. The Ares V can lift more than 286,000 pounds to low Earth orbit and stands approximately 360 feet tall. This versatile system will be used to carry cargo and the components into orbit needed to go to the moon and later to Mars. Ares V is subject to configuration changes before it is actually launched. This illustration reflects the latest configuration as of January 2007.
Apollo 11 Artist Concept- La
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Name of Image
Apollo 11 Artist Concept- Launch and Translunar Injection
Date of Image
1969-07-06
Full Description
The Apollo 11 mission launched from the Kennedy Space Center (KSC) in Florida via the Marshall Space Flight Center (MSFC) developed Saturn V launch vehicle on July 16, 1969 and safely returned to Earth on July 24, 1969. Aboard the space craft were astronauts Neil A. Armstrong, commander, Michael Collins, Command Module (CM) pilot, and Edwin E. (Buzz) Aldrin Jr., Lunar Module (LM) pilot. With the success of Apollo 11, the national objective to land men on the Moon and return them safely to Earth had been accomplished. These sketches illustrate four of the early steps in the first manned lunar landing mission. The series begins with insertion of astronauts Neil Armstrong, Edwin Aldrin, and Michael Collins in the Apollo Command Module (CM). They checked out spacecraft systems and prepared for the launch. After two revolutions in Earth orbit, the Saturn V third stage reignited to place them into the translunar trajectory.
Apollo 11 Artist Concept- Tr
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Name of Image
Apollo 11 Artist Concept- Translunar Flight
Date of Image
1969-07-06
Full Description
The Apollo 11 mission launched from the Kennedy Space Center (KSC) in Florida via the Marshall Space Flight Center (MSFC) developed Saturn V launch vehicle on July 16, 1969 and safely returned to Earth on July 24, 1969. Aboard the space craft were astronauts Neil A. Armstrong, commander, Michael Collins, Command Module (CM) pilot, and Edwin E. (Buzz) Aldrin Jr., Lunar Module (LM) pilot. With the success of Apollo 11, the national objective to land men on the Moon and return them safely to Earth had been accomplished. These sketches illustrate four events of the Apollo 11 spacecraft and crew enroute to the Moon. Panels housing the LM were jettisoned and the CM turned 180 degrees in the transposition maneuver. The CM docked with the LM and extracted it from the third stage instrument unit of the Saturn V launch vehicle. Astronauts performed navigation checks enroute to the moon. The service propulsion system was fired to slow the spacecraft and permitted it to enter lunar orbit.
Apollo 11 Artist Concept- Tr
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Name of Image
Apollo 11 Artist Concept- Transearth Injection and Recovery
Date of Image
1969-07-06
Full Description
The Apollo 11 mission launched from the Kennedy Space Center (KSC) in Florida via the Marshall Space Flight Center (MSFC) developed Saturn V launch vehicle on July 16, 1969 and safely returned to Earth on July 24, 1969. Aboard the space craft were astronauts Neil A. Armstrong, commander, Michael Collins, Command Module (CM) pilot, and Edwin E. (Buzz) Aldrin Jr., Lunar Module (LM) pilot. With the success of Apollo 11, the national objective to land men on the Moon and return them safely to Earth had been accomplished. These sketches illustrate the steps taken by the astronauts to return to Earth. The service propulsion system engine was fired to increase space craft speed enough to escape Lunar orbit on a trajectory for Earth. Any necessary midcourse corrections were made enroute. Near the point of reentry into Earth?s atmosphere, the CM separated from the service module and turned 180 degrees so the heat shield faced forward on the line of flight. Friction of the atmosphere heated the shield to a white hot temperature, as a meteor, which slowed the craft as it reached lower altitudes. At about three miles altitude, drogue parachutes opened to stabilize the craft. Moments later the main parachutes opened to lower the CM to the waters of the Pacific Ocean. Helicopters and recovery crews from the U.S. S. Hornet aircraft carrier were standing by to pick up the astronauts.
Apollo 11 Launch
Title
Apollo 11 Launch
Full Description
At 9:32 a.m. EDT, the swing arms move away and a plume of flame signals the liftoff of the Apollo 11 Saturn V space vehicle and astronauts Neil A. Armstrong, Michael Collins and Edwin E. Aldrin, Jr. from Kennedy Space Center Launch Complex 39A.
Date
7/16/1969
NASA Center
Kennedy Space Center
Apollo 11 Launch
Title
Apollo 11 Launch
Full Description
The Apollo 11 Saturn V space vehicle lifts off with astronauts Neil A. Armstrong, Michael Collins and Edwin E. Aldrin, Jr., at 9:32 a.m. EDT July 16, 1969, from Kennedy Space Center's Launch Complex 39A.
Date
7/16/1969
NASA Center
Kennedy Space Center
Liftoff of the Apollo 11 lun
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Title
Liftoff of the Apollo 11 lunar landing mission
Description
Closeup view as the 363 ft tall Apollo 11 space vehicle is launched from Pad A, Launch Complex 39, Kennedy Space Center, at 9:37 a.m., July 16, 1969. Apollo 11 is the United Sates first lunar landing mission (39959), Fish-eye lens view of the smoke and fire in the wake of the launch of the Apollo 11 spacecraft. This photograph of the liftoff was taken by a camera mounted on the mobile launch tower (39960), Fisheye lens view of the Apollo 11 spacecraft atop its Saturn V launch vehicle as it launch from Pad A, Launch Complex 39 (39961), Aerial view of the launch of the Apollo 11 spacecraft. This view of the liftoff was taken by a camera mounted on the mobile launch tower (39962), Fish-eye lens view of the launch of the Apollo 11 spacecraft. This photograph was taken by a camera mounted on the mobile launch tower (39963).
Date Taken
1969-07-16
Apollo 11 Launch
Title
Apollo 11 Launch
Full Description
The Apollo 11 Saturn V space vehicle climbs toward orbit after liftoff from Pad 39A at 9:32 a.m. EDT. In 2 1/2 minutes of powered flight, the S-IC booster lifts the vehicle to an altitude of about 39 miles some 55 miles downrange. This photo was taken with a 70mm telescopic camera mounted in an Air Force EC-135N plane. Onboard are astronauts Neil A. Armstrong, Michael Collins and Edwin E. Aldrin, Jr.
Date
7/16/1969
NASA Center
Kennedy Space Center
Apollo 11 spacecraft Command
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Title
Apollo 11 spacecraft Command Module hoisted aboard U.S.S. Hornet
Description
The Apollo 11 spacecraft Command Module is photographed being hoisted aboard the U.S.S. Hornet, prime recovery ship for the historic lunar landing mission. Note the flotation ring attached by Navy divers is still attached to the capsule.
Date Taken
1969-07-24
Artists concept of Apollo 11
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Title
Artists concept of Apollo 11 Lunar Module descending to surface of moon
Description
TRW Inc. artist's concept depicting the Apollo 11 Lunar Module descending to the surface of the moon.
Date Taken
1969-07-11
Space Station -- July 2007
Astronaut Clay Anderson, Exp
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10/2/08
Description
Astronaut Clay Anderson, Expedition 15 flight engineer, waves to the camera while participating in a session of extravehicular activity as construction continues on the International Space Station. During the 7 hour, 41 minute spacewalk, Anderson and cosmonaut Fyodor N. Yurchikhin, commander representing Russia's Federal Space Agency, installed a television camera stanchion, reconfigured a power supply for an antenna assembly and performed several get-ahead tasks. While riding on the end of the Canadarm2, Anderson also jettisoned the Early Ammonia Servicer by shoving it opposite to the station's direction of travel.
Date
10/2/08
General Description
STS-117 Shuttle Mission Imagery
General Description
STS-117 Shuttle Mission Imagery
General Description
International Space Station Imagery
General Description
International Space Station Imagery
General Description
International Space Station Imagery
General Description
International Space Station Imagery
General Description
International Space Station Imagery
General Description
International Space Station Imagery
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