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Images of Kennedy Space Center (KSC) and Florida and California
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Journey's Last Leg
With the large Vehicle Assem
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12/16/08
| Description |
With the large Vehicle Assembly Building in the distance, space shuttle Endeavour nears the Orbiter Processing Facility at NASA's Kennedy Space Center in Florida. Visible on Endeavour is the tail cone that covers and protected the main engines during the ferry flight from California. Image credit: NASA/Jack Pfaller Dec. 13, 2008 |
| Date |
12/16/08 |
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Endeavour's Home
Space shuttle Endeavour is t
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12/16/08
| Description |
Space shuttle Endeavour is towed into the Orbiter Processing Facility at NASA's Kennedy Space Center in Florida. After landing in California to end the STS-126 mission, Endeavour returned to Kennedy on a piggyback flight atop a shuttle carrier aircraft. In the processing facility, Endeavour will begin preparations for its next mission, STS-127, targeted for May 2009. Image credit: NASA/Jack Pfaller Dec. 13, 2008 |
| Date |
12/16/08 |
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Special Delivery
The NOAA-N Prime spacecraft
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1/6/09
| Description |
The NOAA-N Prime spacecraft is offloaded from a C-5 aircraft after arriving at Vandenberg Air Force Base Airfield in California. NOAA-N Prime was built by Lockheed Martin Space Systems Company for its Advanced Television Infrared Observational Satellites -N series. The satellite will be launched from the Western Range at Vandenberg AFB by a United Launch Alliance two-stage Delta II rocket managed by NASA's Launch Service Program at Kennedy Space Center in Florida. Image credit: NASA/Jerry Nagy, VAFB Nov. 4, 2008 |
| Date |
1/6/09 |
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Discovery Comes Home
The Boeing 747 Shuttle Carri
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9/22/09
| Description |
The Boeing 747 Shuttle Carrier Aircraft, with space shuttle Discovery on top, is towed from the Shuttle Landing Facility's runway 33 at NASA's Kennedy Space Center in Florida after touching down on Sept. 21 at 12:05 p.m. EDT. The two-day return flight from Edwards Air Force Base in California began at 9:20 a.m. EDT Sept. 20. After three fueling stops that included an overnight stay in Louisiana, the piggybacked shuttle had to navigate through a line of showers across Louisiana and around Kennedy. Discovery had landed at Edwards Sept. 11 after the 13-day STS-128 mission to the International Space Station. Landings at Kennedy were waved off on two days due to inclement weather, leading to the landing at Edwards. Image credit: NASA/Kim Shiflett Sept. 21, 2009 |
| Date |
9/22/09 |
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On the Ground -- Again
Space shuttle Atlantis is on
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6/5/09
| Description |
Space shuttle Atlantis is on the ground at the Shuttle Landing Facility at NASA's Kennedy Space Center in Florida. Workers prepare to remove the hoist from Atlantis that was used to separate it from the Shuttle Carrier Aircraft, or SCA, which returned it to Kennedy from California. Photo credit: NASA/Jack Pfaller June 3, 2009 |
| Date |
6/5/09 |
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Desert Layover
Space shuttle Discovery is p
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9/22/09
| Description |
Space shuttle Discovery is parked within the Mate-Demate Device gantry at NASA's Dryden Flight Research Cener prior to beginning turnaround processing for its ferry flight back to the Kennedy Space Center in Florida. Discoloration on Discovery's reinforced carbon-carbon nose cap gives evidence of the extreme heating it encountered during re-entry into the Earth' atmosphere prior to landing on Sept. 11, 2009, at Edwards Air Force Base in California. Image Credit: NASA/Tony Landis |
| Date |
9/22/09 |
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Homecoming
Space shuttle Discovery sits
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9/21/09
| Description |
Space shuttle Discovery sits atop the Boeing 747 Shuttle Carrier Aircraft as it touched down at NASA's Kennedy Space Center in Florida at 12:05 p.m. EDT. The two-day return flight from Edwards Air Force Base in California began at 9:20 a.m. EDT Sept. 20. After three fueling stops that included an overnight stay in Louisiana, the piggybacked shuttle had to navigate through a line of showers across Louisiana and around Kennedy. Image Credit: NASA/Kim Shiflett |
| Date |
9/21/09 |
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Sally Ride, First U.S. Woman
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| Title |
Sally Ride, First U.S. Woman in Space |
| Full Description |
Sally Ride was the first American woman in space. Born on May 26, 1951 in Los Angeles, California, she received a Bachelor in Physics and English in 1973 from Stanford University and, later, a Master in Physics in 1975 and a Doctorate in Physics in 1978, also from Stanford. NASA selected Dr. Ride as an astronaut candidate in January 1978. She completed her training in August 1979, and began her astronaut career as a mission specialist on STS-7, which launched from Kennedy Space Center, Florida on June 18, 1983. The mission spent 147 hours in space before landing on a lakebed runway at Edwards Air Force Base, California on June 24, 1983. Dr. Ride also served as a mission specialist on STS-41-G, which launched from Kennedy Space Center, Florida on October 5, 1984 and landed 197 hours later at Kennedy Space Center, Florida on October 13, 1984. In June 1985, NASA assigned Dr. Ride to serve as mission specialist on STS-61-M. She discontinued mission training in January 1986 to serve as a member of the Presidential Commission on the Space Shuttle Challenger accident, also known as the Rogers Commission. Upon completing the investigation she returned to NASA Headquarters as Special Assistant to the Administrator for Long Range and Strategic Planning, where she lead a team that wrote NASA Leadership and America's Future in Space:A Report to the Administrator in August 1987. Dr. Ride has also written a children's book, To Space and Back, describing her experiences in space, has received the Jefferson Award for Public Service, and has twice been awarded the National Spaceflight Medal. Her latest books include Voyager: An Adventure to the Edge of the Solar System and The Third Planet: Exploring the Earth from Space. She was also a member of the Columbia Accident Investigation Board (CAIB), which investigated the February 1, 2003 loss of Space Shuttle Columbia. Dr. Ride is currently a physics professor and Director of the California Space Institute at the University of California, San Diego. |
| Date |
06/1984 |
| NASA Center |
Johnson Space Center |
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Endeavour is Delivered to th
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| Title |
Endeavour is Delivered to the Kennedy Space Center |
| Full Description |
NASA's 747 Shuttle Carrier Aircraft No. 911, with the space shuttle orbiter Endeavour securely mounted atop its fuselage, taxies to the runway to begin the ferry flight from Rockwell's Plant 42 at Palmdale, California, where the orbiter was built, to the Kennedy Space Center, Florida. At Kennedy, the space vehicle was processed and launched on orbital mission STS-49, which landed at NASA's Ames-Dryden Flight Research Facility (later redesignated Dryden Flight Research Center), Edwards, California, May 16 1992. NASA 911, the second modified 747 that went into service in November 1990, has special support struts atop the fuselage and internal strengthening to accommodate the added weight of the orbiters. |
| Date |
01/01/1961 |
| NASA Center |
Dryden Flight Research Center |
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Endeavour on Runway with Col
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| Title |
Endeavour on Runway with Columbia on SCA Overhead |
| Full Description |
The Space Shuttle Endeavour receives a high-flying salute from its sister Shuttle Columbia, atop NASA's Shuttle Carrier Aircraft, shortly after its landing Oct. 12, 1994 at Edwards, California, to complete mission STS-68. Columbia was being ferried from the Kennedy Space Center, Florida to Air Force Plant 42, Palmdale, California, where it will undergo six months of inspections, modifications, and systems upgrades. The STS-68 11-day mission was devoted to radar imaging of Earth's geological features with the Space Radar Laboratory. The orbiter is surrounded by equipment and personnel that make up the ground support convoy that services the space vehicles as soon as they land. |
| Date |
10/11/1994 |
| NASA Center |
Dryden Flight Research Center |
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Endeavour with Columbia Ferr
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| Title |
Endeavour with Columbia Ferry Flyby |
| Full Description |
The Space Shuttle Endeavour receives a high-flying salute from its sister shuttle, Columbia, atop NASA's Shuttle Carrier Aircraft, shortly after Endeavor's landing October 12 1994, at Edwards, California, to complete mission STS-68. Columbia was being ferried from the Kennedy Space Center, Florida, to Air Force Plant 42, Palmdale, California, where it will undergo six months of inspections, modifications, and systems upgrades. The STS-68 11-day mission was devoted to radar imaging of Earth's geological features with the Space Radar Laboratory. The orbiter is surrounded by equipment and personnel that make up the ground support convoy that services the space vehicles as soon as they land. |
| Date |
10/12/1994 |
| NASA Center |
Dryden Flight Research Center |
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First Class of Female Astron
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| Title |
First Class of Female Astronauts |
| Full Description |
From left to right are Shannon W. Lucid, Margaret Rhea Seddon, Kathryn D. Sullivan, Judith A. Resnik, Anna L. Fisher, and Sally K. Ride. NASA selected all six women as their first female astronaut candidates in January 1978, allowing them to enroll in a training program that they completed in August 1979. Shannon W. Lucid was born on January 14, 1943 in Shanghai, China but considers Bethany, Oklahoma to be her hometown. She spent many years at the University of Oklahoma, receiving a Bachelor in chemistry in 1963, a Master in biochemistry in 1970, and a Doctorate in biochemistry in 1973. Dr. Lucid flew on the STS-51G Discovery, STS-34 Atlantis, STS-43 Atlantis, and STS-58 Columbia shuttle missions, setting the record for female astronauts by logging 838 hours and 54 minutes in space. She also currently holds the United States single mission space flight endurance record for her 188 days on the Russian Space Station Mir. From February 2002 to September 2003, she served as chief scientist at NASA Headquarters before returning to JSC to help with the Return to Flight program after the STS-107 accident. Born November 8, 1947, in Murfreesboro, Tennessee, Margaret Rhea Seddon received a Doctorate of Medicine in 1973 from the University of Tennessee. She flew on space missions STS-51 Discovery, STS-40 Columbia, and STS-58 Columbia for a total of over 722 hours in space. Dr. Seddon retired from NASA in November 1997, taking on a position as the Assistant Chief Medical Officer of the Vanderbilt Medical Group in Nashville, Tennessee. Kathryn Sullivan was born October 3, 1951 in Patterson, New Jersey but considers Woodland Hills, California to be her hometown. She received a Bachelor in Earth Sciences from the University of California, Santa Cruz in 1973 and a Doctorate in Geology from Dalhousie University in Halifax, Nova Scotia in 1978. She flew on space missions STS-41G, STS-31, and STS-45 and logged a total of 532 hours in space. Dr. Sullivan left NASA in August 1992 to assume the position of Chief Scientist of the National Oceanic and Atmospheric Administration (NOAA). She later went on to serve as President and CEO of the Center of Science and Industry in Columbus, Ohio. Dr. Judith Resnik was born April 5, 1949 in Akron, Ohio. She received a Bachelor of Science degree in Electrical Engineering from Carnegie-Mellon University in 1970, and a Doctorate in Electrical Engineering from University of Maryland in 1977. Dr. Resnik left a job as a senior systems engineer in product development with Xerox Corporation at El Segundo, California to work for NASA in 1978. She died on January 28, 1986 on her second mission, during the launch of Challenger STS-51-L. Anna Fisher was born August 24, 1949 in New York City, New York hometown. She received a Doctorate in Medicine in 1976 and a Master of Science in Chemistry in 1987, both from the University of California, Los Angeles. Dr. Fisher flew on STS-51A, the Space Shuttle Discovery's November 8, 1984, mission, and logged 192 hours in space, her second schedule mission was cancelled after the Space Shuttle Challenger STS-51L accident. She remains with NASA, where she has filled many positions over decades of service. Dr. Sally Ride was the first American woman in space. Born on May 26, 1951 in Los Angeles, California, she went on to receive a Bachelor in Physics and English in 1973 from Stanford University and, later, a Master in Physics in 1975 and a Doctorate in Physics in 1978, also from Stanford. She began her astronaut career as a mission specialist on STS-7, which launched from Kennedy Space Center, Florida on June 18, 1983, and later went on to fly on STS-41G. She withdrew from training for her third scheduled mission in order to serve on the investigative committee for the Space Shuttle Challenger accident and never returned to training, although she went on to work for headquarters and later to serve on the Columbia Accident Investigation Board before returning to the private sector as a physics professor. |
| Date |
02/28/1979 |
| NASA Center |
Johnson Space Center |
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STS-66 Atlantis Landing and
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| Title |
STS-66 Atlantis Landing and Chute Deployment at Edwards |
| Full Description |
The Space Shuttle Atlantis lands with its drag chute deployed on runway 22 at Edwards, California, to complete the STS-66 mission dedicated to the third flight of the Atmospheric Laboratory for Applications and Science-3 (ATLAS-3), part of NASA's Mission to Planet Earth program. The astronauts also deployed and retrieved a free-flying satellite designed to study the middle and lower thermospheres and perform a series of experiments covering life sciences research and microgravity processing. The landing was at 7:34 a.m. (PST) November 14, 1994, after being waved off from the Kennedy Space Center, Florida, due to adverse weather. |
| Date |
11/14/1994 |
| NASA Center |
Dryden Flight Research Center |
|
STS-66 Atlantis Landing Appr
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| Title |
STS-66 Atlantis Landing Approach at Edwards |
| Full Description |
The Space Shuttle Atlantis approaches runway 22 at Edwards, California, to complete the STS-66 mission dedicated to the third flight of the Atmospheric Laboratory for Applications and Science-3 (ATLAS-3), part of NASA's Mission to Planet Earth program. The astronauts also deployed and retrieved a free-flying satellite designed to study the middle and lower thermospheres and perform a series of experiments covering life sciences research and microgravity processing. The landing was at 7:34 a.m. (PST) November 14, 1994, after being waved off from the Kennedy Space Center, Florida, due to adverse weather. |
| Date |
11/14/1994 |
| NASA Center |
Dryden Flight Research Center |
|
Shuttle Endeavour Mated to 7
…
| Photo Description |
NASA's 747 Shuttle Carrier Aircraft No. 911, with the space shuttle orbiter Endeavour securely mounted atop its fuselage, taxies to the runway to begin the ferry flight from Rockwell's Plant 42 at Palmdale, California, where the orbiter was built, to the Kennedy Space Center, Florida. At Kennedy, the space vehicle was processed and launched on orbital mission STS-49, which landed at NASA's Ames-Dryden Flight Research Facility (later redesignated Dryden Flight Research Center), Edwards, California, 16 May 1992. NASA 911, the second modified 747 that went into service in November 1990, has special support struts atop the fuselage and internal strengthening to accommodate the added weight of the orbiters. |
| Project Description |
470,000 pounds. The engines burn a mixture of liquid oxygen and liquid hydrogen. In orbit, the Space Shuttles circle the earth at a speed of 17,500 miles per hour with each orbit taking about 90 minutes. A Space Shuttle crew sees a sunrise or sunset every 45 minutes. When Space Shuttle flights began in April 1981, Dryden Flight Research Center, Edwards, California, was the primary landing site for the Shuttles. Now Kennedy Space Center, Florida, is the primary landing site with Dryden remaining as the principal alternate landing site., Space Shuttles are the main element of America?s Space Transportation System and are used for space research and other space applications. The shuttles are the first vehicles capable of being launched into space and returning to Earth on a routine basis. Space Shuttles are used as orbiting laboratories in which scientists and mission specialists conduct a wide variety of scientific experiments. Crews aboard shuttles place satellites in orbit, rendezvous with satellites to carry out repair missions and return them to space, and retrieve satellites and return them to Earth for refurbishment and reuse. Space Shuttles are true aerospace vehicles. They leave Earth and its atmosphere under rocket power provided by three liquid-propellant main engines with two solid-propellant boosters attached plus an external liquid-fuel tank. After their orbital missions, they streak back through the atmosphere and land like airplanes. The returning shuttles, however, land like gliders, without power and on runways. Other rockets can place heavy payloads into orbit, but, they can only be used once. Space Shuttles are designed to be continually reused. When Space Shuttles are used to transport complete scientific laboratories into space, the laboratories remain inside the payload bay throughout the mission. They are then removed after the Space Shuttle returns to Earth and can be reused on future flights. Some of these orbital laboratories, like the Spacelab, provide facilities for several specialists to conduct experiments in such fields as medicine, astronomy, and materials manufacturing. Some types of satellites deployed by Space Shuttles include those involved in environmental and resources protection, astronomy, weather forecasting, navigation, oceanographic studies, and other scientific fields. The Space Shuttles can also launch spacecraft into orbits higher than the Shuttle?s altitude limit through the use of Inertial Upper Stage (IUS) propulsion units. After release from the Space Shuttle payload bay, the IUS is ignited to carry the spacecraft into deep space. The Space Shuttles are also being used to carry elements of the International Space Station into space where they are assembled in orbit. The Space Shuttles were built by Rockwell International?s Space Transportation Systems Division, Downey, California. Rockwell?s Rocketdyne Division (now part of Boeing) builds the three main engines, and Thiokol, Brigham City, Utah, makes the solid rocket booster motors. Martin Marietta Corporation (now Lockheed Martin), New Orleans, Louisiana, makes the external tanks. Each orbiter (Space Shuttle) is 121 feet long, has a wingspan of 78 feet, and a height of 57 feet. The Space Shuttle is approximately the size of a DC-9 commercial airliner and can carry a payload of 65,000 pounds into orbit. The payload bay is 60 feet long and 15 feet in diameter. Each main engine is capable of producing a sea level thrust of 375,000 pounds and a vacuum (orbital) thrust of |
| Photo Date |
1991 |
|
Shuttle Discovery Landing at
…
| Photo Description |
NASA Dryden Flight Research Center pilot Tom McMurtry lands NASA's Shuttle Carrier Aircraft with Space Shuttle Discovery attached at Rockwell Aerospace's Palmdale, California, facility about 1:00 p.m. Pacific Daylight Time (PDT). There for nine months of scheduled maintenance, Discovery and the 747 were completing a two-day flight from Kennedy Space Center, Florida, that began at 7:04 a.m. Eastern Standard Time on 27 September and included an overnight stop at Salt Lake City International Airport, Utah. At the conclusion of this mission, Discovery had flown 21 shuttle missions, totaling more than 142 days in orbit. |
| Project Description |
470,000 pounds. The engines burn a mixture of liquid oxygen and liquid hydrogen. In orbit, the Space Shuttles circle the earth at a speed of 17,500 miles per hour with each orbit taking about 90 minutes. A Space Shuttle crew sees a sunrise or sunset every 45 minutes. When Space Shuttle flights began in April 1981, Dryden Flight Research Center, Edwards, California, was the primary landing site for the Shuttles. Now Kennedy Space Center, Florida, is the primary landing site with Dryden remaining as the principal alternate landing site., Space Shuttles are the main element of America?s Space Transportation System and are used for space research and other space applications. The shuttles are the first vehicles capable of being launched into space and returning to Earth on a routine basis. Space Shuttles are used as orbiting laboratories in which scientists and mission specialists conduct a wide variety of scientific experiments. Crews aboard shuttles place satellites in orbit, rendezvous with satellites to carry out repair missions and return them to space, and retrieve satellites and return them to Earth for refurbishment and reuse. Space Shuttles are true aerospace vehicles. They leave Earth and its atmosphere under rocket power provided by three liquid-propellant main engines with two solid-propellant boosters attached plus an external liquid-fuel tank. After their orbital missions, they streak back through the atmosphere and land like airplanes. The returning shuttles, however, land like gliders, without power and on runways. Other rockets can place heavy payloads into orbit, but, they can only be used once. Space Shuttles are designed to be continually reused. When Space Shuttles are used to transport complete scientific laboratories into space, the laboratories remain inside the payload bay throughout the mission. They are then removed after the Space Shuttle returns to Earth and can be reused on future flights. Some of these orbital laboratories, like the Spacelab, provide facilities for several specialists to conduct experiments in such fields as medicine, astronomy, and materials manufacturing. Some types of satellites deployed by Space Shuttles include those involved in environmental and resources protection, astronomy, weather forecasting, navigation, oceanographic studies, and other scientific fields. The Space Shuttles can also launch spacecraft into orbits higher than the Shuttle?s altitude limit through the use of Inertial Upper Stage (IUS) propulsion units. After release from the Space Shuttle payload bay, the IUS is ignited to carry the spacecraft into deep space. The Space Shuttles are also being used to carry elements of the International Space Station into space where they are assembled in orbit. The Space Shuttles were built by Rockwell International?s Space Transportation Systems Division, Downey, California. Rockwell?s Rocketdyne Division (now part of Boeing) builds the three main engines, and Thiokol, Brigham City, Utah, makes the solid rocket booster motors. Martin Marietta Corporation (now Lockheed Martin), New Orleans, Louisiana, makes the external tanks. Each orbiter (Space Shuttle) is 121 feet long, has a wingspan of 78 feet, and a height of 57 feet. The Space Shuttle is approximately the size of a DC-9 commercial airliner and can carry a payload of 65,000 pounds into orbit. The payload bay is 60 feet long and 15 feet in diameter. Each main engine is capable of producing a sea level thrust of 375,000 pounds and a vacuum (orbital) thrust of |
| Photo Date |
28 September 1995 |
|
Shuttle Endeavour Mated to 7
…
| Photo Description |
NASA's 747 Shuttle Carrier Aircraft No. 911, with the space shuttle orbiter Endeavour securely mounted atop its fuselage, begins the ferry flight from Rockwell's Plant 42 at Palmdale, California, where the orbiter was built, to the Kennedy Space Center, Florida. At Kennedy, the space vehicle was processed and launched on orbital mission STS-49, which landed at NASA's Ames-Dryden Flight Research Facility (later redesignated Dryden Flight Research Center), Edwards, California, 16 May 1992. NASA 911, the second modified 747 that went into service in November 1990, has special support struts atop the fuselage and internal strengthening to accommodate the added weight of the orbiters. |
| Project Description |
470,000 pounds. The engines burn a mixture of liquid oxygen and liquid hydrogen. In orbit, the Space Shuttles circle the earth at a speed of 17,500 miles per hour with each orbit taking about 90 minutes. A Space Shuttle crew sees a sunrise or sunset every 45 minutes. When Space Shuttle flights began in April 1981, Dryden Flight Research Center, Edwards, California, was the primary landing site for the Shuttles. Now Kennedy Space Center, Florida, is the primary landing site with Dryden remaining as the principal alternate landing site., Space Shuttles are the main element of America?s Space Transportation System and are used for space research and other space applications. The shuttles are the first vehicles capable of being launched into space and returning to Earth on a routine basis. Space Shuttles are used as orbiting laboratories in which scientists and mission specialists conduct a wide variety of scientific experiments. Crews aboard shuttles place satellites in orbit, rendezvous with satellites to carry out repair missions and return them to space, and retrieve satellites and return them to Earth for refurbishment and reuse. Space Shuttles are true aerospace vehicles. They leave Earth and its atmosphere under rocket power provided by three liquid-propellant main engines with two solid-propellant boosters attached plus an external liquid-fuel tank. After their orbital missions, they streak back through the atmosphere and land like airplanes. The returning shuttles, however, land like gliders, without power and on runways. Other rockets can place heavy payloads into orbit, but, they can only be used once. Space Shuttles are designed to be continually reused. When Space Shuttles are used to transport complete scientific laboratories into space, the laboratories remain inside the payload bay throughout the mission. They are then removed after the Space Shuttle returns to Earth and can be reused on future flights. Some of these orbital laboratories, like the Spacelab, provide facilities for several specialists to conduct experiments in such fields as medicine, astronomy, and materials manufacturing. Some types of satellites deployed by Space Shuttles include those involved in environmental and resources protection, astronomy, weather forecasting, navigation, oceanographic studies, and other scientific fields. The Space Shuttles can also launch spacecraft into orbits higher than the Shuttle?s altitude limit through the use of Inertial Upper Stage (IUS) propulsion units. After release from the Space Shuttle payload bay, the IUS is ignited to carry the spacecraft into deep space. The Space Shuttles are also being used to carry elements of the International Space Station into space where they are assembled in orbit. The Space Shuttles were built by Rockwell International?s Space Transportation Systems Division, Downey, California. Rockwell?s Rocketdyne Division (now part of Boeing) builds the three main engines, and Thiokol, Brigham City, Utah, makes the solid rocket booster motors. Martin Marietta Corporation (now Lockheed Martin), New Orleans, Louisiana, makes the external tanks. Each orbiter (Space Shuttle) is 121 feet long, has a wingspan of 78 feet, and a height of 57 feet. The Space Shuttle is approximately the size of a DC-9 commercial airliner and can carry a payload of 65,000 pounds into orbit. The payload bay is 60 feet long and 15 feet in diameter. Each main engine is capable of producing a sea level thrust of 375,000 pounds and a vacuum (orbital) thrust of |
| Photo Date |
1991 |
|
NASA space shuttle Columbia
…
NASA space shuttle Columbia
…
NASA space shuttle Columbia
…
| Photo Description |
The Space Shuttle Discovery receives post-flight servicing in the Mate-Demate Device (MDD), following its landing at NASA's Dryden Flight Research Center, Edwards, California, August 9, 2005. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT this morning, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Project Description |
unknown |
| Photo Date |
August 11, 2005 |
|
| Photo Description |
The Space Shuttle Discovery receives post-flight servicing in the Mate-Demate Device (MDD), following its landing at NASA's Dryden Flight Research Center, Edwards, California, August 9, 2005. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Project Description |
unknown |
| Photo Date |
August 11, 2005 |
|
| Photo Description |
Lightning strikes in the distance as the Space Shuttle Discovery receives post-flight processing in the Mate-Demate Device (MDD), following its landing at NASA's Dryden Flight Research Center in California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 14, 2005 |
|
| Photo Description |
A technician leaves the 'white room', the access point for entering the Space Shuttle Discovery during post-flight processing in the Mate-Demate Device (MDD) at NASA's Dryden Flight Research Center in California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 14, 2005 |
|
| Photo Description |
Todd Viddle, APU advanced systems technician, Robert 'Skip' Garrett, main propulsion advanced systems technician, and Dan McGrath, main propulsion systems engineer technician, remove a servicing unit from the Space Shuttle Discovery as part of it's post-flight processing at NASA's Dryden Flight Research Center. The Space Shuttles receive post-flight servicing in the Mate-Demate Device (MDD) following landings at NASA's Dryden Flight Research Center, Edwards, California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 12, 2005 |
|
| Photo Description |
The sun sets on the Space Shuttle Discovery during post-flight processing in the Mate-Demate Device (MDD), following its landing at NASA's Dryden Flight Research Center in California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 14, 2005 |
|
| Photo Description |
Flight Crew Systems Technicians Ray Smith and Raphael Rodriguez remove one of the Extravehicular Mobility Units, or EMUs, from the Space Shuttle Discovery after it's successful landing at NASA's Dryden Flight Research Center. The Space Shuttles receive post-flight servicing in the Mate-Demate Device (MDD) following landings at NASA's Dryden Flight Research Center, Edwards, California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 12, 2005 |
|
| Photo Description |
Robert 'Skip' Garrett, main propulsion advanced systems technician, and Chris Jacobs, main propulsion systems engineering technician, inspect external tank attachment fittings on the Space Shuttle Discovery as part of it's post-flight processing at NASA's Dryden Flight Research Center. The Space Shuttles receive post-flight servicing in the Mate-Demate Device (MDD) following landings at NASA's Dryden Flight Research Center, Edwards, California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 12, 2005 |
|
| Photo Description |
The sun sets on the Space Shuttle Discovery during post-flight processing in the Mate-Demate Device (MDD), following its landing at NASA's Dryden Flight Research Center in California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 14, 2005 |
|
| Photo Description |
The sun sets on the Space Shuttle Discovery during post-flight processing in the Mate-Demate Device (MDD), following its landing at NASA's Dryden Flight Research Center in California. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASA?s modified Boeing 747 Shuttle Carrier Aircraft. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 14, 2005 |
|
| Photo Description |
Technicians attach the tail cone, which helps reduce aerodynamic drag and turbulence during its ferry flight, to the Space Shuttle Discovery in preparation for its return to NASA's Kennedy Space Center in Florida. After the tail-cone is installed, Discovery will be mounted on NASA?s modified Boeing 747 Shuttle Carrier Aircraft, or SCA, for the return flight. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 16, 2005 |
|
| Photo Description |
Workers position the tail cone on the Space Shuttle Discovery in preparation for its return to NASA's Kennedy Space Center in Florida. After the tail-cone is installed, Discovery will be mounted on NASA?s modified Boeing 747 Shuttle Carrier Aircraft, or SCA, for the return flight. The tail cone is a fitting that helps reduce aerodynamic drag and turbulence during its ferry flight. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 15, 2005 |
|
| Photo Description |
Closing the landing gear doors is one of the final servicing steps before lifting of the Space Shuttle Discovery and mating it to NASA's 747 can begin. After being raised in the gantry-like Mate-Demate Device (MDD), Discovery will be mounted on NASA?s modified Boeing 747 Shuttle Carrier Aircraft, or SCA, for the return flight to the Kennedy Space Center in Florida. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 17, 2005 |
|
| Photo Description |
NASA's specially modified 747 Shuttle Carrier Aircraft, or SCA, is positioned under the Space Shuttle Discovery to be attached for their ferry flight to the Kennedy Space Center in Florida. After its post-flight servicing and preparation at NASA Dryden in California, Discovery's return flight to Kennedy aboard the 747 will take approximately 2 days, with stops at several intermediate points for refueling. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 18, 2005 |
|
| Photo Description |
NASA's specially modified 747 Shuttle Carrier Aircraft, or SCA, is positioned under the Space Shuttle Discovery to be attached for their ferry flight to the Kennedy Space Center in Florida. After its post-flight servicing and preparation at NASA Dryden in California, Discovery's return flight to Kennedy aboard the 747 will take approximately 2 days, with stops at several intermediate points for refueling. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 18, 2005 |
|
| Photo Description |
The Space Shuttle Discovery hitched a ride on NASA's modified Boeing 747 Shuttle Carrier Aircraft for the flight from the Dryden Flight Research Center in California, to Kennedy Space Center, Florida, on August 19, 2005. The cross-country ferry flight to return Discovery to Florida after it's landing in California will take two days, with stops at several intermediate points for refueling. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Project Description |
STS-114 |
| Photo Date |
August 19, 2005 |
|
| Photo Description |
NASA's modified Boeing 747 Shuttle Carrier Aircraft with the Space Shuttle Discovery on top lifts off from Edwards Air Force Base to begin its ferry flight back to the Kennedy Space Center in Florida. The cross-country journey will take two days, with stops at several intermediate points for refueling. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Project Description |
STS-114 |
| Photo Date |
August 19, 2005 |
|
| Photo Description |
NASA's modified Boeing 747 Shuttle Carrier Aircraft with the Space Shuttle Discovery on top lifts off from Edwards Air Force Base to begin its ferry flight back to the Kennedy Space Center in Florida. The cross-country journey will take two days, with stops at several intermediate points for refueling. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Project Description |
STS-114 |
| Photo Date |
August 19, 2005 |
|
| Photo Description |
NASA's modified Boeing 747 Shuttle Carrier Aircraft with the Space Shuttle Discovery on top lifts off from Edwards Air Force Base to begin its ferry flight back to the Kennedy Space Center in Florida. The cross-country journey will take two days, with stops at several intermediate points for refueling. Space Shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Project Description |
STS-114 |
| Photo Date |
August 19, 2005 |
|
| Photo Description |
The space shuttle Discovery atop NASA's modified 747 is captured over the Mojave Desert while being ferried from NASA Dryden to the Kennedy Space Center. NASA's modified Boeing 747 Shuttle Carrier Aircraft with the Space Shuttle Discovery on top lifts off from Edwards Air Force Base to begin its ferry flight back to the Kennedy Space Center in Florida. The cross-country journey will take two days, with stops at several intermediate points for refueling. Space shuttle Discovery landed safely at NASA's Dryden Flight Research Center at Edwards Air Force Base in California at 5:11:22 a.m. PDT, August 9, 2005, following the very successful 14-day STS-114 return to flight mission. During their two weeks in space, Commander Eileen Collins and her six crewmates tested out new safety procedures and delivered supplies and equipment the International Space Station. Discovery spent two weeks in space, where the crew demonstrated new methods to inspect and repair the Shuttle in orbit. The crew also delivered supplies, outfitted and performed maintenance on the International Space Station. A number of these tasks were conducted during three spacewalks. In an unprecedented event, spacewalkers were called upon to remove protruding gap fillers from the heat shield on Discovery's underbelly. In other spacewalk activities, astronauts installed an external platform onto the Station's Quest Airlock and replaced one of the orbital outpost's Control Moment Gyroscopes. Inside the Station, the STS-114 crew conducted joint operations with the Expedition 11 crew. They unloaded fresh supplies from the Shuttle and the Raffaello Multi-Purpose Logistics Module. Before Discovery undocked, the crews filled Raffeallo with unneeded items and returned to Shuttle payload bay. Discovery launched on July 26 and spent almost 14 days on orbit. |
| Photo Date |
August 19, 2005 |
|
| Photo Description |
The Space Shuttle Columbia received post-flight servicing in the Mate-Demate Device (MDD), after its first landing at NASA's Dryden Flight Research Center, Edwards, California, April 14, 1981. The gantry-like MDD structure is used for servicing the shuttle orbiters in preparation for their ferry flight back to the Kennedy Space Center in Florida, including mounting the shuttle atop NASAs modified Boeing 747 Shuttle Carrier Aircraft. |
| Photo Date |
April, 1981 |
|
NASA's 747 with Columbia ato
…
| Photo Description |
NASA's specially modified 747 with the Space Shuttle Columbia atop takes off to ferry the Shuttle back to Kennedy Space Center in Florida. Columbia had recently completed its first orbital mission with a landing at Edwards Air Force Base in California. |
| Photo Date |
April 28, 1981 |
|
| Photo Description |
Following initial captive flight tests last year at NASA's Dryden Flight Research Center, Edwards Air Force Base, California, the X-34 technology demonstrator began a new series of tests last week in which it is being towed behind a semi-truck and released to coast on the Edwards dry lakebed. On July 20, 2000, it was towed and released twice at speeds of five and 10 miles per hour. On July 24, 2000, it was towed and released twice at 10 and 30 miles per hour. Twelve tests are planned during which the X-34 will be towed for distances up to 10,000 feet and released at speeds up to 80 miles per hour. The test series is expected to last at least six weeks. |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
July 20, 2000 |
|
| Photo Description |
Following initial captive flight tests last year at NASA's Dryden Flight Research Center, Edwards Air Force Base, California, the X-34 technology demonstrator began a new series of tests last week in which it is being towed behind a semi-truck and released to coast on the Edwards dry lakebed. On July 20, 2000, it was towed and released twice at speeds of five and 10 miles per hour. On July 24, 2000, it was towed and released twice at 10 and 30 miles per hour. Twelve tests are planned during which the X-34 will be towed for distances up to 10,000 feet and released at speeds up to 80 miles per hour. The test series is expected to last at least six weeks. |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
July 20, 2000 |
|
| Photo Description |
Following initial captive flight tests last year at NASA's Dryden Flight Research Center, Edwards Air Force Base, California, the X-34 technology demonstrator began a new series of tests last week in which it is being towed behind a semi-truck and released to coast on the Edwards dry lakebed. On July 20, 2000, it was towed and released twice at speeds of five and 10 miles per hour. On July 24, 2000, it was towed and released twice at 10 and 30 miles per hour. Twelve tests are planned during which the X-34 will be towed for distances up to 10,000 feet and released at speeds up to 80 miles per hour. The test series is expected to last at least six weeks. |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
July 20, 2000 |
|
| Photo Description |
Following initial captive flight tests last year at NASA's Dryden Flight Research Center, Edwards Air Force Base, California, the X-34 technology demonstrator began a new series of tests last week in which it is being towed behind a semi-truck and released to coast on the Edwards dry lakebed. On July 20, 2000, it was towed and released twice at speeds of five and 10 miles per hour. On July 24, 2000, it was towed and released twice at 10 and 30 miles per hour. Twelve tests are planned during which the X-34 will be towed for distances up to 10,000 feet and released at speeds up to 80 miles per hour. The test series is expected to last at least six weeks. |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
July 20, 2000 |
|
| Photo Description |
unknown |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
30 Apr 1999 |
|
| Photo Description |
unknown |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
30 Apr 1999 |
|
| Photo Description |
This is the X-34 Technology Testbed Demonstrator being delivered to NASA Dryden FRC. The X-34 will demonstrate key vehicle and operational technologies applicable to future low-cost resuable launch vehicles. |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
16 Apr 1999 |
|
| Photo Description |
This is the X-34 Technology Testbed Demonstrator being mated with the L-1011 mothership. The X-34 will demonstrate key vehicle and operational technologies applicable to future low-cost resuable launch vehicles. |
| Project Description |
The unpiloted X-34 is a technology testbed demonstrator that is designed to demonstrate key vehicle and operational technologies applicable to future low-cost reusable launch vehicles. The vehicle structure is all-composite with a one-piece delta wing design. The vehicle is 58.3 feet long and has a 27.7-foot wingspan. The suborbital vehicle was designed and built by Orbital Sciences Corporation, Dulles, Virginia, and is powered by an oxygen and kerosene Fastrac engine that was designed and built by NASA?s Marshall Space Flight Center (MSFC), Huntsville, Alabama. Fastrac is only the second American-made engine of the 29 engines developed in the last 25 years. The vehicle is designed to reach speeds of up to Mach 8 and altitudes of up to approximately 250,000 feet. Specific technologies built into the vehicle include composite structures, composite reusable propellant fuel tanks, an advanced thermal protection system, low-cost avionics, leading-edge tiles, and autonomous flight operation systems. The project?s goal is to reduce the cost of launching payloads into orbit from $10,000 per pound today to one of $1,000 per pound, thereby improving U.S. economic competitiveness. NASA and Orbital, using a small workforce, plan to demonstrate the ability to fly the X-34 every two weeks. The X-34 was expected in early 2000 to undergo testing in New Mexico, California, and Florida. The first of three X-34 vehicles, a structural test vehicle designated A-1, began captive-carry flights at Edwards Air Force Base, California, in June 1999. Technicians from Dryden Flight Research Center, Edwards, California, have assisted in upgrading the A-1 vehicle with structural modifications and integrating avionics, hydraulics, landing gear, and other hardware needed to turn it into a flight vehicle--now known as A-1A--for unpowered glide tests in New Mexico. Following a series of tow tests on the ground at Dryden, the X-34 A-1A will be used to conduct unpowered test flights at the U.S. Army?s White Sands Missile Range, New Mexico, according to plans current in early 2000. This test series was expected to use Orbital?s L-1011 carrier aircraft to air-launch the X-34. Powered flights, using the second and third vehicle (designated A-2 and A-3 respectively), are scheduled to be conducted at the Dryden Flight Research Center, California, and the Kennedy Space Center, Florida. The X-34 vehicle A-3 was expected in early 2000 to be brought to Dryden for envelope expansion to the maximum capability of an approximate speed of Mach 8 and altitude of 250,000 feet. Plans called for A-3 to explore additional reusable launch vehicle technologies as carry-on experiments. Dryden?s project manger was Seunghee Lee as of early 2000. |
| Photo Date |
March 11, 1999 |
|
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