7/10/2023 0 Comments Quickmap moon download![]() This is an extremely challenging 3D print, and requires that your printer and slicer be perfectly calibrated. This puzzle has much looser tolerances than the others on this page, and is a good place to start if you want to 3D print our lunar landscape jigsaw puzzles.ģD-printable 30-piece puzzle of Larmor Q crater. Topo-photo map of the Gruithuisen Domes with contour lines and annotations.Ĭolor-shaded relief of Gruithuisen Domes with contour lines and annotations.ģD-printable models of all six Apollo sites at the same scale, with a display card showing the traverse routes.ģD-printable model of Lichtenberg Crater.ģD-printable model of an unnamed crater on the rim of Lowell crater.ģD-printable model of an Irregular Mare Patch in Sosigenes graben.ģD-printable model of an unnamed tall mountain near the rim of South Pole-Aitken basin.ģD-printable model of a section of Vallis Schroteri.ģD-printable 4-piece puzzle of Shackleton crater. Topo-photo map of Mons Rümker with contour lines and annotations.Ĭolor-shaded relief of Mons Rümker with contour lines and annotations. Updated from the 1972 2nd edition Lunar Chart with corrected feature locations and an LROC WAC global morphologic mosaic basemap. Updated from the 1972 2nd edition Lunar Chart with corrected feature locations and a color shaded relief map of the Moon based on the GLD100 global terrain model from the LROC WAC and polar terrain models from the Lunar Orbiter Laser Altimeter (LOLA).Īnnotated map of the Moon. Illumination maps for the lunar north and south poles derived from LROC WAC images.Īnnotated map of the Moon. Topo-photo map of the Taurus LIttrow Valley and Apollo 17 landing site with relief lines and annotations. Topo-photo map of the Apollo 14 landing site with contour lines and annotations.Ĭolor shaded relief map of the Taurus Littrow Valley and Apollo 17 landing site with relief lines and annotations. Topo-photo map of the Apollo 12 landing site with contour lines and annotations.Ĭolor-shaded relief of the Apollo 14 landing site with contour lines and annotations. Topo-photo map of the Apollo 11 landing site with contour lines and annotations.Ĭolor-shaded relief of the Apollo 12 landing site with contour lines and annotations. This map is a color composite of three WAC bands mapped to the RGB channels (689 nm to red, 415 nm to green, and 321 nm to blue).Ī collection of LROC imaged lunar exploration sites and a color shaded relief map highlighting each sites location on the lunar nearside.Īn in-depth look at the amazing ~82 km diameter Tycho crater and its impact on our understanding of lunar geology.Ĭolor-shaded relief of the Apollo 11 landing site with contour lines and annotations. The LROC WAC images the entire Moon each month in seven wavelengths (321 nm to 689 nm). This educational series of posters walk through a history of human interest in the Moon and the amazing lunar discoveries from LROC and the LRO mission since 2009. LROC has been exploring the Moon for well over a decade now. Mosaic of eight LROC NAC images provides this spectacular nadir view of the interior of Giordano Bruno crater (21 km diameter). ![]() The Atlantic and Pacific coasts of South America are visible to the left. The large tan area in the upper right is the Sahara desert, and just beyond is Saudia Arabia. The Earth straddling the limb of the Moon, as seen from above Compton crater. Nearside WAC 643 nm mosaic of images acquired between December 2010 and December 2011. Global WAC 643 nm mosaic of images between November 2009 and February 2011.įarside WAC 643 nm mosaic of images acquired between July 2010 and July 2012. WAC GLD100 with LOLA 30m DTM poleward of 75˚ latitude. The images were not registered to one another. NAC images were map projected onto the GLD100 DEM using the LOLA crossover corrected ephemeris. LROC WAC 643nm normalized (incidence=30˚, emission=0˚, phase=30˚) reflectance global mosaic using an empirically derived photometric function similar to that of Boyd et al., 2012 2795.pdf ![]() LROC WAC normalized (incidence=30˚, emision=0˚, phase=30˚) reflectance global color mosaic using an emperically derived photometric function similar to that of Boyd et al., 2012 2795.pdf (2014), Resolved Hapke parameter maps of the Moon, J. LROC WAC normalized (incidence=60˚, emission=0˚, phase=60˚) reflectance global color mosaic (Version 1.0) using Hapke photometric function as seen in Sato et al.
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