Apollo 17 Lunar Module Challenger descent stage comes into focus from the new lower 50-km mapping orbit, full image width is 102 meters [NASA/GSFC/Arizona State University].
Exploring the Apollo 17 Site
Mark Robinson
LROC News System
LRO maneuvered into its 50-km mapping orbit on September 15. The next pass over the Apollo 17 landing site resulted in images with more than two times better resolution than previously acquired. At the time of this recent overflight the Sun was high in the sky (28° incidence angle) helping to bring out subtle differences in surface brightness. The descent stage of the lunar module Challenger is now clearly visible, at 50-cm per pixel (angular resolution) the descent stage deck is eight pixels across (four meters), and the legs are also now distinguishable. The descent stage served as the launch pad for the ascent stage as it blasted off for a rendezvous with the command module America on 14 December 1972.
Mark Robinson
LROC News System
LRO maneuvered into its 50-km mapping orbit on September 15. The next pass over the Apollo 17 landing site resulted in images with more than two times better resolution than previously acquired. At the time of this recent overflight the Sun was high in the sky (28° incidence angle) helping to bring out subtle differences in surface brightness. The descent stage of the lunar module Challenger is now clearly visible, at 50-cm per pixel (angular resolution) the descent stage deck is eight pixels across (four meters), and the legs are also now distinguishable. The descent stage served as the launch pad for the ascent stage as it blasted off for a rendezvous with the command module America on 14 December 1972.
Apollo 17 descent stage as seen from the live television camera that broadcast the crew's departure from Taurus Littrow, shortly after lift off. View is towards the northwest [NASA].
LRO maneuvered into its 50-km mapping orbit on September 15. The next pass over the Apollo 17 landing site resulted in images with more than two times better resolution than previously acquired. At the time of this recent overflight the Sun was high in the sky (28° incidence angle) helping to bring out subtle differences in surface brightness. The descent stage of the lunar module Challenger is now clearly visible, at 50-cm per pixel (angular resolution) the descent stage deck is eight pixels across (four meters), and the legs are also now distinguishable. The descent stage served as the launch pad for the ascent stage as it blasted off for a rendezvous with the command module America on 14 December 1972.
Tracks are clearly visible and can be followed to the east, where astronauts Jack Schmitt and Gene Cernan set up the Surface Electrical Properties (SEP) experiment. Cernan drove the Lunar Roving Vehicle (LRV) in an intersecting north-south and east-west course to mark positions for laying out the SEP thirty-five meter antennas (circle labeled "SEP" marks the area of the SEP transmitter). The dark area just below the SEP experiment is where the astronauts left the rover, in a prime spot for monitoring the liftoff.
The SEP allowed scientists to characterize the electrical properties of the regolith, which are important for interpreting remote sensing measurements of the Moon such as radar and microwave sounders. One interesting direct result of the experiment was the discovery that the soil is extremely dry, with no water hiding below the surface.
Region of Taurus-Littrow valley around the Apollo 17 landing site (Full Release Image) [NASA/GSFC/Arizona State University].
LRO maneuvered into its 50-km mapping orbit on September 15. The next pass over the Apollo 17 landing site resulted in images with more than two times better resolution than previously acquired. At the time of this recent overflight the Sun was high in the sky (28° incidence angle) helping to bring out subtle differences in surface brightness. The descent stage of the lunar module Challenger is now clearly visible, at 50-cm per pixel (angular resolution) the descent stage deck is eight pixels across (four meters), and the legs are also now distinguishable. The descent stage served as the launch pad for the ascent stage as it blasted off for a rendezvous with the command module America on 14 December 1972.
Tracks are clearly visible and can be followed to the east, where astronauts Jack Schmitt and Gene Cernan set up the Surface Electrical Properties (SEP) experiment. Cernan drove the Lunar Roving Vehicle (LRV) in an intersecting north-south and east-west course to mark positions for laying out the SEP thirty-five meter antennas (circle labeled "SEP" marks the area of the SEP transmitter). The dark area just below the SEP experiment is where the astronauts left the rover, in a prime spot for monitoring the liftoff.
The SEP allowed scientists to characterize the electrical properties of the regolith, which are important for interpreting remote sensing measurements of the Moon such as radar and microwave sounders. One interesting direct result of the experiment was the discovery that the soil is extremely dry, with no water hiding below the surface.
Region of Taurus-Littrow valley around the Apollo 17 landing site (Full Release Image) [NASA/GSFC/Arizona State University].
The two explorers were quite busy, as they also deployed a set of sophisticated surface science experiments that radioed data back to the Earth for more than four years after the mission was completed. The Apollo Lunar Surface Experiments (ALSEP) package was a little different for each Apollo mission. The Apollo 17 ALSEP included: 1) Lunar Seismic Profiling Experiment (geophones), 2) Lunar Atmospheric Composition Experiment (LACE) to measure the composition of the Moon's extremely tenuous surface bound exosphere, 3) Lunar Ejecta and Meteorites (LEAM) experiment, 4) central station, 5) Heat Flow Experiment, 6) all powered by a Radioisotope Thermoelectric Generator (RTG). More details on the ALSEP and their results can be found in the Apollo Lunar Surface Journal and the Apollo 17 Preliminary Science Report.
View of the ALSEP looking south-southeast with geophone rock in the background: three other large rocks are keyed to the LROC image (R1, R2, R3). [Apollo 17/NASA]
Image Thursday, 1 October 2009, 10:32:01 UTC
LRO Orbit 1202, Center Coordinates 20.17°N, 30.80°E
(Res. 0.53 m/pix); Mode Native (M109032389LE)
"Apollo 17 Lunar Module Challenger descent stage comes into focus
from the new lower 50 km mapping orbit."
[NASA/GSFC/Arizona State University]
The background in both surface pictures gives a feel for the rugged terrain that surrounded the astronauts as they explored the valley. The mountains rise 1.5-2 kilometers above the valley floor, which is more relief than you would find at the Grand Canyon in Arizona (USA).
The Challenger descent stage was extensively documented prior to launch and samples of the materials used to make the stage have been preserved at JSC. When human explorers return to Taurus-Littrow, the Challenger will provide vital information about the long-term survival of materials in the lunar environment.
Image Thursday, 1 October 2009, 10:32:01 UTC
LRO Orbit 1202, Center Coordinates 20.17°N, 30.80°E
(Res. 0.53 m/pix); Mode Native (M109032389LE)
"Apollo 17 Lunar Module Challenger descent stage comes into focus
from the new lower 50 km mapping orbit."
[NASA/GSFC/Arizona State University]
No comments:
Post a Comment
Welcome, Lunatics!