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Apollo 17 and Moon of Marshall Space Flight Center (MSFC)
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Lunar Roving Vehicle (LRV) Q
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| Title |
Lunar Roving Vehicle (LRV) Qualification Unit |
| Full Description |
The lunar roving vehicle (LRV) qualification unit, built for the NASA-Marshall Space Flight Center by Boeing, is inspected after assembly at Boeings Kent Space Center near Seattle, WA. Built exactly like the three flight LRVs that transported astronauts during Apollo lunar missions 15, 16 and 17, the unit underwent extensive qualification tests to prove that the LRV would meet NASAs exhaustive specifications. The unit was to be used as a trouble-shooting tool for any possible problems encountered by astronauts while on the moon. |
| Date |
01/29/1971 |
| NASA Center |
Marshall Space Flight Center |
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Lunar Roving Vehicle
| Name of Image |
Lunar Roving Vehicle |
| Date of Image |
1971-01-01 |
| Full Description |
The Lunar Roving Vehicle (LRV) was designed to transport astronauts and materials on the Moon. An LRV was used on each of the last three Apollo missions, Apollo 15, Apollo 16, and Apollo 17, in 1971 and 1972 to permit the crew to travel several miles from the lunar landing site. This photograph was taken during the Apollo 15 mission. |
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Lunar Roving Vehicle (LRV)
| Name of Image |
Lunar Roving Vehicle (LRV) |
| Date of Image |
1972-04-21 |
| Full Description |
The Lunar Roving Vehicle (LRV) was designed by Marshall Space Flight Center to transport astronauts and materials on the Moon. An LRV was used on each of the last three Apollo missions, Apollo 15, Apollo 16, and Apollo 17, in 1971 and 1972, to permit the crew to travel several miles from the lunar landing site. This photograph was taken during the Apollo 16 mission in 1972. |
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Apollo 17 Astronaut Cernan A
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| Name of Image |
Apollo 17 Astronaut Cernan Adjusts U.S. Flag on Lunar Surface |
| Date of Image |
1972-12-12 |
| Full Description |
In this Apollo 17 onboard photo, Mission Commander Eugene A. Cernan adjusts the U.S. flag deployed upon the Moon. The seventh and last manned lunar landing and return to Earth mission, the Apollo 17, carrying a crew of three astronauts: Cernan, Lunar Module pilot Harrison H. Schmitt, and Command Module pilot Ronald E. Evans, lifted off on December 7, 1972 from the Kennedy Space Flight Center (KSC). Scientific objectives of the Apollo 17 mission included geological surveying and sampling of materials and surface features in a preselected area of the Taurus-Littrow region, deploying and activating surface experiments, and conducting in-flight experiments and photographic tasks during lunar orbit and transearth coast (TEC). These objectives included: Deployed experiments such as the Apollo lunar surface experiment package (ALSEP) with a Heat Flow experiment, Lunar seismic profiling (LSP), Lunar surface gravimeter (LSG), Lunar atmospheric composition experiment (LACE) and Lunar ejecta and meteorites (LEAM). The mission also included Lunar Sampling and Lunar orbital experiments. Biomedical experiments included the Biostack II Experiment and the BIOCORE experiment. The mission marked the longest Apollo mission, 504 hours, and the longest lunar surface stay time, 75 hours, which allowed the astronauts to conduct an extensive geological investigation. They collected 257 pounds (117 kilograms) of lunar samples with the use of the Marshall Space Flight Center developed LRV. The mission ended on December 19, 1972 |
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Lunar Roving Vehicle on the
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| Name of Image |
Lunar Roving Vehicle on the Lunar Surface |
| Date of Image |
1972-12-01 |
| Full Description |
This photograph taken during the Apollo 17 mission (the last mission of the Apollo Program), depicts stiff plasticized maps being taped together and fastened by clamps to patch a broken fender of the Lunar Roving Vehicle (LRV). Powered by battery, the lightweight electric car greatly increased the range of mobility and productivity on the scientific traverses for astronauts. It weighed 462 pounds (77 pounds on the Moon) and could carry two suited astronauts, their gear and cameras, and several hundred pounds of bagged samples. The LRV's mobility was quite high. It could climb and descend slopes of about 25 degrees. The LRV was designed and developed by the Marshall Space Flight Center and built by the Boeing Company. |
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Montage of Apollo Crew Patch
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| Name of Image |
Montage of Apollo Crew Patches |
| Date of Image |
1979-05-01 |
| Full Description |
This montage depicts the flight crew patches for the manned Apollo 7 thru Apollo 17 missions. The Apollo 7 through 10 missions were basically manned test flights that paved the way for lunar landing missions. Primary objectives met included the demonstration of the Command Service Module (CSM) crew performance, crew/space vehicle/mission support facilities performance and testing during a manned CSM mission, CSM rendezvous capability, translunar injection demonstration, the first manned Apollo docking, the first Apollo Extra Vehicular Activity (EVA), performance of the first manned flight of the lunar module (LM), the CSM-LM docking in translunar trajectory, LM undocking in lunar orbit, LM staging in lunar orbit, and manned LM-CSM docking in lunar orbit. Apollo 11 through 17 were lunar landing missions with the exception of Apollo 13 which was forced to circle the moon without landing due to an onboard explosion. The craft was,however, able to return to Earth safely. Apollo 11 was the first manned lunar landing mission and performed the first lunar surface EVA. Landing site was the Sea of Tranquility. A message for mankind was delivered, the U.S. flag was planted, experiments were set up and 47 pounds of lunar surface material was collected for analysis back on Earth. Apollo 12, the 2nd manned lunar landing mission landed in the Ocean of Storms and retrieved parts of the unmanned Surveyor 3, which had landed on the Moon in April 1967. The Apollo Lunar Surface Experiments Package (ALSEP) was deployed, and 75 pounds of lunar material was gathered. Apollo 14, the 3rd lunar landing mission landed in Fra Mauro. ALSEP and other instruments were deployed, and 94 pounds of lunar materials were gathered, using a hand cart for first time to transport rocks. Apollo 15, the 4th lunar landing mission landed in the Hadley-Apennine region. With the first use of the Lunar Roving Vehicle (LRV), the crew was bale to gather 169 pounds of lunar material. Apollo 16, the 5th lunar landing mission, landed in the Descartes Highlands for the first study of highlands area. Selected surface experiments were deployed, the ultraviolet camera/spectrograph was used for first time on the Moon, and the LRV was used for second time for a collection of 213 pounds of lunar material. The Apollo program came to a close with Apollo 17, the 6th and final manned lunar landing mission that landed in the Taurus-Littrow highlands and valley area. This mission hosted the first scientist-astronaut, Schmitt, to land on the Moon. The 6th automated research station was set up, and 243 ponds of lunar material was gathered using the LRV. |
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Lunar Roving Vehicle Initial
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| Name of Image |
Lunar Roving Vehicle Initial Deployment Sequence |
| Date of Image |
1971-01-01 |
| Full Description |
This artist's concept illustrates the deployment sequence of the Lunar Roving Vehicle (LRV) on the Moon. The LRV was designed to transport astronauts and materials on the Moon. It was a collapsible open-space vehicle about 10 feet long with large mesh wheels, anterna, appendages, tool caddies, and cameras. Powered by two 36-volt batteries, it has four 1/4-hp drive motors, one for each wheel. The vehicle was designed to travel in forward or reverse, negotiate obstacles about 1 foot high, cross crevasses about 2 feet wide, and climb or descend moderate slopes. Its speed limit was about 9 miles (14 kilometers) per hour. An LRV was used on each of the last three Apollo missions (Apollo 15, Apollo 16, and Apollo 17) and permitted the crew to travel several miles from the Lunar Module. The LRV was designed, developed, and tested by the Marshall Space Flight Center, and built by the Boeing Plant in Kent, Washington. |
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Lunar Roving Vehicle (LRV) F
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| Name of Image |
Lunar Roving Vehicle (LRV) Flight Unit No. 1 |
| Date of Image |
1971-01-01 |
| Full Description |
The Lunar Roving Vehicle (LRV) was designed to transport astronauts and materials on the Moon. It was a collapsible open-space vehicle about 10 feet long with large mesh wheels, anterna, appendages, tool caddies, and cameras. Powered by two 36-volt batteries, it has four 1/4-hp drive motors, one for each wheel. The vehicle was designed to travel in forward or reverse, negotiate obstacles about 1 foot high, cross crevasses about 2 feet wide, and climb or descend moderate slopes. Its speed limit was about 9 miles (14 kilometers) per hour. An LRV was used on each of the last three Apollo missions (Apollo 15, Apollo 16, and Apollo 17) and permitted the crews to travel several miles from the Lunar Module. The LRV was designed, developed, and tested by the Marshall Space Flight Center, and built by the Boeing Plant in Kent, Washington. |
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Lunar Roving Vehicle (LRV) F
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| Name of Image |
Lunar Roving Vehicle (LRV) Flight Unit No. 2 |
| Date of Image |
1971-01-01 |
| Full Description |
The Lunar Roving Vehicle (LRV) was designed to transport astronauts and materials on the Moon. It was a collapsible open-space vehicle about 10 feet long with large mesh wheels, anterna, appendages, tool caddies, and cameras. Powered by two 36-volt batteries, it has four 1/4-hp drive motors, one for each wheel. The vehicle was designed to travel in forward or reverse, negotiate obstacles about 1 foot high, cross crevasses about 2 feet wide, and climb or descend moderate slopes. Its speed limit was about 9 miles (14 kilometers) per hour. An LRV was used on each of the last three Apollo missions (Apollo 15, Apollo 16, and Apollo 17) and permitted the crew to travel several miles from the Lunar Module. The LRV was designed, developed, and tested by the Marshall Space Flight Center, and built by the Boeing Plant in Kent, Washington. |
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Lunar Roving Vehicle Initial
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| Name of Image |
Lunar Roving Vehicle Initial Deployment Sequence |
| Date of Image |
1971-01-01 |
| Full Description |
This artist's concept illustrates the deployment sequence of the Lunar Roving Vehicle (LRV) on the Moon. The LRV was designed to transport astronauts and materials on the Moon. It was a collapsible open-space vehicle about 10 feet long with large mesh wheels, anterna, appendages, tool caddies, and cameras. Powered by two 36-volt batteries, it has four 1/4-hp drive motors, one for each wheel. The vehicle was designed to travel in forward or reverse, negotiate obstacles about 1 foot high, cross crevasses about 2 feet wide, and climb or descend moderate slopes. Its speed limit was about 9 miles (14 kilometers) per hour. An LRV was used on each of the last three Apollo missions (Apollo 15, Apollo 16, and Apollo 17) and permitted the crew to travel several miles from the Lunar Module. The LRV was designed, developed, and tested by the Marshall Space Flight Center, and built by the Boeing Plant in Kent, Washington. |
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Lunar Roving Vehicle
| Name of Image |
Lunar Roving Vehicle |
| Date of Image |
1972-04-01 |
| Full Description |
The Lunar Roving Vehicle (LRV) was designed to transport astronauts and materials on the Moon. An LRV was used on each of the last three Apollo missions, Apollo 15, Apollo 16, and Apollo 17, in 1971 and 1972, to permit the crew to travel several miles from the lunar landing site. This photograph was taken during the Apollo 16 mission. |
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Onboard Photo of Lunar Rovin
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| Name of Image |
Onboard Photo of Lunar Roving Vehicle (LRV) |
| Date of Image |
1972-12-07 |
| Full Description |
This is an Apollo 17 onboard photo of an astronaut beside the Lunar Roving Vehicle (LRV) on the lunar surface. Designed and developed by the Marshall Space Flight Center and built by the Boeing Company, the LRV was first used on the Apollo 15 mission and increased the range of astronauts' mobility and productivity on the lunar surface. This lightweight electric car had battery power sufficient for about 55 miles. It weighed 462 pounds (77 pounds on the Moon) and could carry two suited astronauts, their gear, cameras, and several hundred pounds of bagged samples. The LRV's mobility was quite high. It could climb and descend slopes of about 25 degrees. |
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The Last Moon Shot
| Title |
The Last Moon Shot |
| Explanation |
In 1865 Jules Verne [ http://www.interlog.com/~anash/najvs.html ] predicted the invention of a space capsule that could carry people. In his science fiction story "From the Earth to the Moon" [ http://JV.Gilead.org.il/pg/moon/ ], he outlined his vision of a cannon in Florida so powerful that it could shoot a "Projectile-Vehicle" [ http://www.nasm.edu/galleries/gal109/NEWHTF/ITM6201.HTM ] carrying three adventurers to the Moon [ http://www.hq.nasa.gov/office/pao/History/ ap11ann/eagle.html ]. Over 100 years later, NASA [ http://www.hq.nasa.gov/pao/History/history.html ], guided by Wernher Von Braun [ http://history.msfc.nasa.gov/vonbraun/index.html ]'s vision, produced the Saturn V rocket [ http://www.apollosaturn.com/ ]. From a spaceport in Florida [ http://www.ksc.nasa.gov/ksc.html ], this rocket turned Verne's fiction into fact, launching 9 Apollo Lunar missions and allowing 12 astronauts to walk on the Moon [ http://www.hq.nasa.gov/office/pao/History/alsj/ ]. Pictured [ http://images.jsc.nasa.gov/images/pao/AS17/10075937.htm ] is the last moon shot, Apollo 17 [ http://nssdc.gsfc.nasa.gov/planetary/lunar/apollo17info.html ], awaiting a night launch in December of 1972. Spotlights play on the rocket and launch pad while the full Moon looms [ http://cass.jsc.nasa.gov/moon.html ] in the background. Humans have not walked on [ http://www.hq.nasa.gov/office/pao/History/alsj/ apollo.epilog.html ] on the lunar surface since. [ http://ilewg.jsc.nasa.gov/ ] |
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The Last Moon Shot
| Title |
The Last Moon Shot |
| Explanation |
In 1865 Jules Verne predicted the invention of a space capsule that could carry people. In his science fiction story "From the Earth to the Moon" [ ftp://ftp.cdrom.com/.22/gutenberg/etext93/moon10.txt ], he outlined his vision of constructing a cannon in Florida so powerful that it could shoot a "Projectile-Vehicle" carrying three adventurers to the Moon. Over 100 years later, NASA, guided by Wernher Von Braun [ http://www.hq.nasa.gov/office/pao/History/Biographies/biosa-d.html ]'s vision, produced the Saturn V rocket [ http://pscinfo.pscni.nasa.gov/online/msfc/spacelink2.html ]. This rocket [ http://antwrp.gsfc.nasa.gov/apod/ap950829.html ] turned Verne's fiction into fact, launching 9 Apollo Lunar missions and allowing 12 astronauts to walk on the Moon. Pictured above is the last moon shot, Apollo 17 [ http://nssdc.gsfc.nasa.gov/planetary/lunar/apollo17info.html ], awaiting a night launch in December of 1972. Spot lights play on the rocket and launch pad while the full Moon [ http://antwrp.gsfc.nasa.gov/apod/ap950903.html ] looms in the background. Humans have not walked on the lunar surface since. [ http://ees5-www.lanl.gov/Apollo/apollo.epilog.html ] Should we return to the Moon? [ http://www.ari.net/back2moon.html ] Tomorrow's picture: White Dwarfs Cool |
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The Last Moon Shot
| Title |
The Last Moon Shot |
| Explanation |
In 1865 Jules Verne [ http://antwrp.gsfc.nasa.gov/apod/ap030215.html ] predicted the invention of a space capsule that could carry people. In his science fiction story "From the Earth to the Moon" [ http://JV.Gilead.org.il/pg/moon/ ], he outlined his vision of a cannon in Florida so powerful that it could shoot a "Projectile-Vehicle" [ http://www.nasm.edu/galleries/gal109/NEWHTF/ ITM6201.HTM ] carrying three adventurers to the Moon [ http://www.hq.nasa.gov/office/pao/History/ ap11ann/eagle.html ]. Over 100 years later, NASA [ http://www.hq.nasa.gov/pao/History/history.html ], guided by Wernher Von Braun [ http://history.msfc.nasa.gov/vonbraun/index.html ]'s vision, produced the Saturn V rocket [ http://www.apollosaturn.com/ ]. From a spaceport in Florida [ http://www.ksc.nasa.gov/ksc.html ], this rocket turned Verne's fiction into fact [ http://www.lpi.usra.edu/expmoon/lunar_missions.html ], launching 9 Apollo Lunar missions and allowing 12 astronauts to walk on the Moon [ http://www.hq.nasa.gov/office/pao/History/alsj/ ]. Pictured is [ http://www.apolloarchive.com/apollo_gallery.html ] the last moon shot, Apollo 17 [ http://nssdc.gsfc.nasa.gov/planetary/lunar/ apollo17info.html ], awaiting its December 1972 night launch. Spotlights play on the rocket and launch pad at dusk. Humans have not walked on [ http://www.hq.nasa.gov/office/pao/History/alsj/ apollo.epilog.html ] on the lunar surface since. |
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The Last Moon Shot
| Title |
The Last Moon Shot |
| Explanation |
In 1865 Jules Verne [ http://antwrp.gsfc.nasa.gov/apod/ap030215.html ] predicted the invention of a space capsule that could carry people. His science fiction story "From the Earth to the Moon" [ http://JV.Gilead.org.il/pg/moon/ ] outlined his vision of a cannon in Florida so powerful that it could shoot a Projectile-Vehicle [ http://www.nasm.edu/galleries/gal109/NEWHTF/ ITM6201.HTM ] carrying three adventurers to the Moon [ http://www.hq.nasa.gov/office/pao/History/ ap11ann/eagle.html ]. Over 100 years later NASA [ http://www.hq.nasa.gov/pao/History/history.html ], guided by Wernher Von Braun [ http://history.msfc.nasa.gov/vonbraun/index.html ]'s vision, produced the Saturn V rocket [ http://www.apollosaturn.com/ ]. From a spaceport [ http://www.nasa.gov/centers/kennedy/home/index.html ] in Florida, this rocket turned Verne's fiction into fact [ http://www.lpi.usra.edu/expmoon/lunar_missions.html ], launching 9 Apollo Lunar missions and allowing 12 astronauts to walk on the Moon [ http://www.hq.nasa.gov/office/pao/History/alsj/ ]. As spotlights play on the rocket and launch pad at dusk, the last moon shot, Apollo 17 [ http://nssdc.gsfc.nasa.gov/planetary/lunar/ apollo17info.html ], is pictured here [ http://www.apolloarchive.com/apollo_gallery.html ] awaiting its December 1972 night launch. |
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