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Dr. Noah Petro hosts and narrates. 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The camera then flies very close to the surface to show an LRO image of the impact site. || sivb.0540_print.jpg (1024x576) [70.3 KB] || sivb.0540_searchweb.png (320x180) [60.6 KB] || sivb.0540_thm.png (80x40) [3.4 KB] || sivb_1080p30.mp4 (1920x1080) [12.8 MB] || sivb_720p30.mp4 (1280x720) [6.3 MB] || with_text (1920x1080) [0 Item(s)] || sivb_720p30.webm (1280x720) [3.2 MB] || sivb_360p30.mp4 (640x360) [2.1 MB] || sivb_1080p30.mp4.hwshow [178 bytes] || ", "hits": 1503 }, { "id": 13575, "url": "https://svs.gsfc.nasa.gov/13575/", "result_type": "Produced Video", "release_date": "2020-04-03T17:00:00-04:00", "title": "Biggest and Brightest Moon of 2020 Live Shots", "description": "Click here for canned interview with Dr. Noah PetroClick here for canned interview in Spanish with Dr. Geronimo VillanuevaClick here for B-ROLL for these interviews.You can learn more about Apollo 13 as we near the 50th anniversary here: NASA Commemorates 50th Anniversary of Apollo 13, ‘A Successful Failure’ || Supermoon.png (1600x300) [849.4 KB] || Supermoon_print.jpg (1024x192) [22.6 KB] || Supermoon_searchweb.png (320x180) [82.8 KB] || Supermoon_thm.png (80x40) [5.5 KB] || ", "hits": 102 }, { "id": 4768, "url": "https://svs.gsfc.nasa.gov/4768/", "result_type": "Visualization", "release_date": "2019-12-12T12:00:00-05:00", "title": "Moon Phase and Libration, 2020", "description": "Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || || ", "hits": 808 }, { "id": 4769, "url": "https://svs.gsfc.nasa.gov/4769/", "result_type": "Visualization", "release_date": "2019-12-12T12:00:00-05:00", "title": "Moon Phase and Libration, 2020 South Up", "description": "Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || || ", "hits": 158 }, { "id": 4767, "url": "https://svs.gsfc.nasa.gov/4767/", "result_type": "Visualization", "release_date": "2019-11-19T10:00:00-05:00", "title": "The Apollo 12 Landing Site", "description": "The Apollo 12 landing site visualized in three dimensions using photography and a stereo digital elevation model from the Lunar Reconnaissance Orbiter Camera. The locations of the flag shadow, experiment package, astronaut paths, and the Surveyor 3 spacecraft are marked. 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They are created from data assembled by the Lunar Reconnaissance Orbiter camera and laser altimeter instrument teams.", "hits": 42827 }, { "id": 4714, "url": "https://svs.gsfc.nasa.gov/4714/", "result_type": "Visualization", "release_date": "2019-05-13T11:00:00-04:00", "title": "Lee Lincoln Scarp at the Apollo 17 Landing Site", "description": "An animated view of Lee Lincoln scarp from above and from near ground level. This visualization is created from Lunar Reconnaissance Orbiter photographs and elevation mapping. The scarp is at the western end of the Taurus-Littrow valley, landing site of Apollo 17, and was explored by the astronauts on their second moonwalk. || scarp.0510_print.jpg (1024x576) [101.8 KB] || scarp.0510_searchweb.png (320x180) [63.7 KB] || scarp.0510_thm.png (80x40) [5.3 KB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || scarp_1080p30.mp4 (1920x1080) [15.7 MB] || scarp_720p30.mp4 (1280x720) [8.7 MB] || scarp_720p30.webm (1280x720) [3.5 MB] || scarp_1080p30_prores.mov (1920x1080) [657.9 MB] || scarp_360p30.mp4 (640x360) [3.3 MB] || scarp_1080p30.mp4.hwshow || ", "hits": 340 }, { "id": 4733, "url": "https://svs.gsfc.nasa.gov/4733/", "result_type": "Visualization", "release_date": "2019-04-04T00:00:00-04:00", "title": "Hyperwall: Scouting the Apollo 11 Landing Site", "description": "This sequence of images from Apollo 10 looks west across southern Mare Tranquillitatis. The Apollo 11 landing site is circled in green. The bright crater at about 7 o'clock within the circle is West crater. Black and white, 70mm magazine R, AS10-31-4607 to 11. || apollo10_as10-31-4607_print.jpg (1024x345) [81.6 KB] || apollo10_as10-31-4607_searchweb.png (320x180) [47.4 KB] || apollo10_as10-31-4607_thm.png (80x40) [3.9 KB] || apollo10_as10-31-4607.tif (9600x3240) [13.8 MB] || apollo-10-photo-sequence-of-apollo-11-site.hwshow [237 bytes] || ", "hits": 564 }, { "id": 4593, "url": "https://svs.gsfc.nasa.gov/4593/", "result_type": "Visualization", "release_date": "2018-12-21T09:00:00-05:00", "title": "Earthrise in 4K", "description": "On December 24, 1968, Apollo 8 astronauts Frank Borman, Jim Lovell, and Bill Anders became the first humans to witness the Earth rising above the moon's barren surface. Now we can relive the astronauts' experience, thanks to data from NASA's Lunar Reconnaissance Orbiter. Complete transcript available.Watch this video on the NASA Goddard YouTube channel. || YOUTUBE_1080_G2018_Earthrise_Master_VX-300368_youtube_1080.mp4 (1920x1080) [882.1 MB] || earthrise_print.jpg (3840x2160) [515.7 KB] || earthrise_print_searchweb.png (180x320) [52.8 KB] || earthrise_print_thm.png (80x40) [4.6 KB] || TWITTER_720_G2018_Earthrise_Master_VX-300368_twitter_720.mp4 (1280x720) [114.9 MB] || FACEBOOK_720_G2018_Earthrise_Master_VX-300368_facebook_720.mp4 (1280x720) [641.1 MB] || YOUTUBE_720_G2018_Earthrise_Master_VX-300368_youtube_720.mp4 (1280x720) [832.1 MB] || G2018_Earthrise_Master_Output.en_US.srt [6.8 KB] || G2018_Earthrise_Master_Output.en_US.vtt [6.7 KB] || G2018_Earthrise_Master.webm (3840x2160) [107.0 MB] || G2018_Earthrise_Master.mp4 (3840x2160) [500.2 MB] || G2018_Earthrise_Master.mov (3840x2160) [19.6 GB] || G2018_Earthrise_Master.mp4.hwshow [82 bytes] || ", "hits": 2992 }, { "id": 4442, "url": "https://svs.gsfc.nasa.gov/4442/", "result_type": "Visualization", "release_date": "2018-12-15T00:01:00-05:00", "title": "Moon Phase and Libration, 2019", "description": " || Click on the image to download a high-resolution version with labels for craters near the terminator.The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [41.9 KB] || comp.0001.tif (3840x2160) [5.6 MB] || ", "hits": 284 }, { "id": 4459, "url": "https://svs.gsfc.nasa.gov/4459/", "result_type": "Visualization", "release_date": "2018-12-15T00:01:00-05:00", "title": "Moon Phase and Libration, 2019 South Up", "description": "Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || || ", "hits": 118 }, { "id": 4675, "url": "https://svs.gsfc.nasa.gov/4675/", "result_type": "Visualization", "release_date": "2018-07-31T09:00:00-04:00", "title": "Moon Phases for Spherical Displays", "description": "A looping animation showing a complete cycle of lunar phases (lunar day and night) designed for spherical displays. || phases.0001_print.jpg (1024x512) [106.9 KB] || phases.0001_searchweb.png (320x180) [64.4 KB] || phases.0001_thm.png (80x40) [4.3 KB] || sos_phases_1024p30.mp4 (2048x1024) [18.8 MB] || sos_phases_2048p30.mp4 (4096x2048) [54.9 MB] || sos_phases_512p30.mp4 (1024x512) [5.2 MB] || 4096x2048_2x1_30p (4096x2048) [32.0 KB] || sos_phases_512p30.webm (1024x512) [2.2 MB] || ", "hits": 202 }, { "id": 4655, "url": "https://svs.gsfc.nasa.gov/4655/", "result_type": "Visualization", "release_date": "2018-07-20T08:45:00-04:00", "title": "Moonlight (Clair de Lune)", "description": "Set to Claude Debussy's Clair de Lune, this visualization uses Lunar Reconnaissance Orbiter data to show the stark beauty of evolving light and shadow near sunrise and sunset on the rugged lunar surface. Music performed by Timothy Michael Hammond, distributed by Killer Tracks.This video is also on the NASA Goddard YouTube channel at both 720p (HD) and 2160p (UHD or 4K). || moonlight_prores.00210_print.jpg (1024x576) [25.1 KB] || moonlight_prores.00210_searchweb.png (320x180) [9.8 KB] || moonlight_prores.00210_thm.png (80x40) [970 bytes] || moonlight_720p30.webm (1280x720) [34.3 MB] || moonlight_1080p30.mp4 (1920x1080) [312.4 MB] || moonlight_720p30.mp4 (1280x720) [319.9 MB] || moonlight_360p30.mp4 (640x360) [94.6 MB] || moonlight_2160p30.mp4 (3840x2160) [341.2 MB] || moonlight_1080p30_prores.mov (1920x1080) [4.2 GB] || moonlight_2160p30_prores.mov (3840x2160) [15.8 GB] || moonlight_2160p30.hwshow || moonlight_1080p30.hwshow || ", "hits": 287 }, { "id": 4619, "url": "https://svs.gsfc.nasa.gov/4619/", "result_type": "Visualization", "release_date": "2018-04-09T10:00:00-04:00", "title": "Tour of the Moon 4K Redux", "description": "The camera flies over the lunar terrain, coming in for close looks at a variety of interesting sites and some of the LRO data associated with them. Includes narration, music, feature titles, research sources, and the location and scale of the image center. Music Provided By Killer Tracks: \"Never Looking Back\" - Frederick Wiedmann. \"Flying over Turmoil\" - Benjamin Krause & Scott Goodman.Watch this video on the NASA Goddard YouTube channel.This video is also available on the SVS YouTube channel. || narrated.1000_print.jpg (1024x576) [197.1 KB] || moontour_narrated_1080p30.webm (1920x1080) [40.4 MB] || moontour_narrated_1080p30.mp4 (1920x1080) [458.9 MB] || moontour_narrated.en_US.srt [5.9 KB] || moontour_narrated.en_US.vtt [5.9 KB] || moontour_narrated_2160p30.mp4 (3840x2160) [1.4 GB] || moontour_narrated_2160p30_prores.mov (3840x2160) [18.1 GB] || ", "hits": 1266 }, { "id": 4717, "url": "https://svs.gsfc.nasa.gov/4717/", "result_type": "Visualization", "release_date": "2018-03-23T00:00:00-04:00", "title": "The Taurus-Littrow Valley through LRO's Eyes", "description": "This visualization of the Taurus-Littrow valley, site of the Apollo 17 Moon landing, uses multiple Lunar Reconnaissance Orbiter datasets to zoom into the valley and illustrate the paths taken by the astronauts during their three days of exploration at the site. The data includes wide-angle (WAC) and narrow-angle (NAC) camera images, LOLA laser altimetry, and a high-resolution elevation map created from NAC stereo pairs. The imagery was chosen to approximately match the lighting conditions at the time of the landing. Color-coded trails with numbered stops (called stations in astronaut lingo) show where Eugene Cernan and Harrison Schmitt drove their lunar rover — orange on day 1, blue on day 2, and green on day 3. || ", "hits": 438 }, { "id": 12842, "url": "https://svs.gsfc.nasa.gov/12842/", "result_type": "Produced Video", "release_date": "2018-01-30T00:00:00-05:00", "title": "Super Blue Blood Lunar Eclipse", "description": "Super Blue Blood Eclipse Program || 12842_Lunar_Eclipse_FBL.00387_print.jpg (1024x576) [122.8 KB] || 12842_Lunar_Eclipse_FBL.00387_searchweb.png (320x180) [86.2 KB] || 12842_Lunar_Eclipse_FBL.00387_thm.png (80x40) [6.6 KB] || 12842_Lunar_Eclipse_FBL.webm (960x540) [824.4 MB] || 12842_Lunar_Eclipse_FBL_appletv.m4v (1280x720) [1.0 GB] || 12842_Lunar_Eclipse_FBL.en_US.srt [55.8 KB] || 12842_Lunar_Eclipse_FBL.en_US.vtt [52.7 KB] || 12842_Lunar_Eclipse_FBL_appletv_subtitles.m4v (1280x720) [1.0 GB] || 12842_Lunar_Eclipse_FBL.mp4 (1280x720) [3.1 GB] || 12842_Lunar_Eclipse_FBL.mov (1280x720) [19.2 GB] || ", "hits": 62 }, { "id": 4604, "url": "https://svs.gsfc.nasa.gov/4604/", "result_type": "Visualization", "release_date": "2017-12-18T01:00:00-05:00", "title": "Moon Phase and Libration, 2018", "description": " || Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || ", "hits": 353 }, { "id": 4605, "url": "https://svs.gsfc.nasa.gov/4605/", "result_type": "Visualization", "release_date": "2017-12-18T01:00:00-05:00", "title": "Moon Phase and Libration, 2018 South Up", "description": " || Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || ", "hits": 89 }, { "id": 12698, "url": "https://svs.gsfc.nasa.gov/12698/", "result_type": "Produced Video", "release_date": "2017-08-30T10:00:00-04:00", "title": "What Spacecraft Saw During the 2017 Solar Eclipse", "description": "On Aug. 21, 2017, a solar eclipse passed over North America. People throughout the continent experienced a partial solar eclipse, and a total solar eclipse passed over a narrow swath of land stretching from Oregon to South Carolina, called the path of totality. NASA and its partner’s satellites had a unique vantage point to watch the eclipse. Several Sun-watching satellites were in a position to see the Moon cross in front of the Sun, while many Earth-observing satellites – and NASA’s Lunar Reconnaissance Orbiter, which typically images the Moon’s landscape – captured images of the Moon’s shadow on Earth’s surface. See more and download content at https://go.nasa.gov/2x7b8kf || ", "hits": 54 }, { "id": 4468, "url": "https://svs.gsfc.nasa.gov/4468/", "result_type": "Visualization", "release_date": "2017-03-27T09:00:00-04:00", "title": "Lunar Swirls: Reiner Gamma", "description": "Beginning with a full-globe view of the lunar near side, the camera flies to a close-up, increasingly oblique view of the lunar swirl called Reiner Gamma. Narrated by LRO Deputy Project Scientist Noah Petro. Music provided by Killer Tracks: Facing the Truth — TV Mix by Eric Chevalier. || MoonFeaturesReinerGammaStill_Image_print.jpg (1024x576) [104.4 KB] || MoonFeaturesReinerGamma-Facebook.mp4 (1280x720) [48.9 MB] || MoonFeaturesReinerGamma-Twitter.mp4 (1280x720) [9.0 MB] || MoonFeaturesReinerGamma-Facebook.webm (1280x720) [3.6 MB] || MoonFeaturesReinerGamma-Captions.en_US.srt [741 bytes] || MoonFeaturesReinerGamma-Captions.en_US.vtt [753 bytes] || MoonFeaturesReinerGammaStill_Image.tif (3840x2160) [31.7 MB] || MoonFeaturesReinerGamma-Youtube4k.mp4 (3840x2160) [145.0 MB] || MoonFeaturesReinerGamma-MASTER_4KProres.mov (3840x2160) [2.1 GB] || MoonFeaturesReinerGamma-Twitter.mp4.hwshow [197 bytes] || ", "hits": 249 }, { "id": 4537, "url": "https://svs.gsfc.nasa.gov/4537/", "result_type": "Visualization", "release_date": "2016-12-22T15:00:00-05:00", "title": "Moon Phase and Libration, 2017", "description": " || Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || ", "hits": 245 }, { "id": 4538, "url": "https://svs.gsfc.nasa.gov/4538/", "result_type": "Visualization", "release_date": "2016-12-22T15:00:00-05:00", "title": "Moon Phase and Libration, 2017 South Up", "description": " || Dial-A-Moon || moon.0001.jpg (730x730) || comp.0001.tif (5760x3240) || ", "hits": 93 }, { "id": 4505, "url": "https://svs.gsfc.nasa.gov/4505/", "result_type": "Visualization", "release_date": "2016-10-13T00:01:00-04:00", "title": "Gardening Rates on the Moon", "description": "After simulating the distant view of a new impact, the camera zooms up to the surface to show actual before/after images of a new 12-meter crater taken by the Lunar Reconnaissance Orbiter narrow-angle camera. (The impact that formed this crater wasn't seen from Earth, but a different one was.) || new_crater.0900_print.jpg (1024x576) [183.2 KB] || new_crater.0900_searchweb.png (320x180) [66.2 KB] || new_crater.0900_thm.png (80x40) [3.5 KB] || new_crater_1080p30.mp4 (1920x1080) [17.9 MB] || new_crater_720p30.mp4 (1280x720) [9.1 MB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || new_crater_720p30.webm (1280x720) [2.9 MB] || new_crater_360p30.mp4 (640x360) [3.0 MB] || new_crater_4505.key [19.1 MB] || new_crater_4505.pptx [18.8 MB] || gardening-moon-mp4.hwshow [204 bytes] || ", "hits": 272 }, { "id": 4444, "url": "https://svs.gsfc.nasa.gov/4444/", "result_type": "Visualization", "release_date": "2016-08-01T09:00:00-04:00", "title": "Rima Prinz and Vera", "description": "The camera zooms from an overhead, global view centered on the northern rim of Prinz crater, at 26.3°N 43.7°W, down to an oblique, close-up view of Vera crater and the associated rille, Rima Prinz. Narrated by NASA Goddard planetary geologist Debra Hurwitz Needham. || RimaPrinzVera_MASTER.00540_print.jpg (1024x576) [68.7 KB] || RimaPrinzVera_MASTER_appletv.m4v (1280x720) [17.0 MB] || RimaPrinzVera_MASTER_appletv_subtitles.m4v (1280x720) [17.0 MB] || RimaPrinzVera_MASTER.webm (1280x720) [3.5 MB] || RimaPrinzVera_MASTER_large.mp4 (3840x2160) [37.0 MB] || RimaPrinzVera_MASTER_ipod_sm.mp4 (320x240) [6.2 MB] || RimaPrinzVera_MASTER_youtube_hq.en_US.srt [747 bytes] || RimaPrinzVera_MASTER_youtube_hq.en_US.vtt [760 bytes] || RimaPrinzVera_MASTER.mpeg (1280x720) [122.3 MB] || RimaPrinzVera_MASTER_prores.mov (1280x720) [510.9 MB] || RimaPrinzVera_MASTER_youtube_hq.mov (3840x2160) [305.5 MB] || ", "hits": 72 }, { "id": 4408, "url": "https://svs.gsfc.nasa.gov/4408/", "result_type": "Visualization", "release_date": "2015-12-15T00:00:00-05:00", "title": "LROC Earthset", "description": "The Earth straddling the limb of the Moon, as seen from above Compton crater (51.8°N, 124.1°E). The center of the Earth in this view is 4.05°S, 12.48°W, about 1100 kilometers due south of Sierra Leone. The large tan area in the upper right is the Sahara desert, and just beyond is the Arabian Peninsula. The Atlantic and Pacific coasts of South America are visible to the left. WAC E1199291151C (Earth only), NAC M1199291564LR (Earth and Moon); sequence start time 12 October 2015 12:18:17.384 UTC. || Earth_and_Limb_M1199291564L_color_2stretch_hw3x3_print.jpg (1024x576) [102.8 KB] || Earth_and_Limb_M1199291564L_color_2stretch_hw3x3_searchweb.png (320x180) [50.5 KB] || Earth_and_Limb_M1199291564L_color_2stretch_hw3x3_thm.png (80x40) [4.4 KB] || Earth_and_Limb_M1199291564L_color_2stretch_hw3x3.tif (5760x3240) [11.5 MB] || Earth_and_Limb_4408.key [2.7 MB] || Earth_and_Limb_4408.pptx [188.0 KB] || Earth_and_Limb_M1199291564L_color_2stretch.tif (8520x12388) [302.0 MB] || lroc-earthset-16x9-crop-color.hwshow [349 bytes] || lroc-earthset-full-frame-color.hwshow [338 bytes] || ", "hits": 281 }, { "id": 4404, "url": "https://svs.gsfc.nasa.gov/4404/", "result_type": "Visualization", "release_date": "2015-12-10T12:00:00-05:00", "title": "Moon Phase and Libration, 2016", "description": " || Click on the image to download a high-resolution version with labels for craters near the terminator.The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [74.4 KB] || comp.0001.tif (1920x1080) [2.5 MB] || ", "hits": 589 }, { "id": 4405, "url": "https://svs.gsfc.nasa.gov/4405/", "result_type": "Visualization", "release_date": "2015-12-10T12:00:00-05:00", "title": "Moon Phase and Libration, 2016 South Up", "description": " || Click on the image to download a high-resolution version with labels for craters near the terminator.The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [74.4 KB] || comp.0001.tif (3840x2160) [7.1 MB] || ", "hits": 73 }, { "id": 4302, "url": "https://svs.gsfc.nasa.gov/4302/", "result_type": "Visualization", "release_date": "2015-12-08T20:00:00-05:00", "title": "Apollo 17 Landing Site", "description": "Apollo 17, crewed by Eugene Cernan, Ronald Evans, and Harrison Schmitt, was the final Apollo mission to the Moon. The Lunar Module Challenger landed in the Taurus-Littrow valley on December 11, 1972 and remained there for 75 hours. The landing site is a relatively flat spot among low mountains at the southeastern edge of Mare Serenitatis.The images here are designed for display on NASA's hyperwall. They help tell the story of Apollo 17's exploration of the Taurus-Littrow site using data and imaging from Lunar Reconnaissance Orbiter (LRO) and photographs taken by the astronauts. LRO's detailed and comprehensive remote sensing capabilities have fostered a reinterpretation of the geology of the site. || ", "hits": 1107 }, { "id": 12000, "url": "https://svs.gsfc.nasa.gov/12000/", "result_type": "B-Roll", "release_date": "2015-09-15T00:00:00-04:00", "title": "Supermoon Eclipse 2015 Live Shots Interviews And B-roll", "description": "Interview with Noah Petro - LRO Deputy Project Scientist || Noah_Petro_-_Supermoon_Eclipse.png (1120x634) [1.1 MB] || Noah_Petro_-_Supermoon_Eclipse_print.jpg (1024x579) [113.0 KB] || Noah_Petro_-_Supermoon_Eclipse_searchweb.png (320x180) [103.6 KB] || Noah_Petro_-_Supermoon_Eclipse_thm.png (80x40) [9.9 KB] || Noah_Petro_-_Supermoon_Eclipse.webm (960x540) [146.3 MB] || Noah_Petro_Supermoon_Eclipse.en_US.vtt [7.1 KB] || Noah_Petro_Supermoon_Eclipse.en_US.srt [7.1 KB] || Noah_Petro_-_Supermoon_Eclipse.mov (1280x720) [4.5 GB] || ", "hits": 45 }, { "id": 4349, "url": "https://svs.gsfc.nasa.gov/4349/", "result_type": "Visualization", "release_date": "2015-08-28T18:00:00-04:00", "title": "Supermoon Eclipse 2015", "description": "The geometry of the Moon's orbit in motion, from the end of August until the supermoon eclipse on September 27-28, 2015. The inner blue circle shows perigee distance, the outer blue circle shows apogee distance, and the off-center, light gray circle shows the Moon's orbit. Frame sequences with alpha channel are available for the separate elements of the animation.This video is also available on our YouTube channel. || moon.0600_print.jpg (1024x576) [68.6 KB] || moon.0600_searchweb.png (180x320) [35.4 KB] || moon.0600_thm.png (80x40) [4.8 KB] || supermoon_1080p30.mp4 (1920x1080) [4.1 MB] || supermoon_720p30.mp4 (1280x720) [2.4 MB] || fancy (1920x1080) [0 Item(s)] || moon_earth (1920x1080) [0 Item(s)] || orbit (1920x1080) [0 Item(s)] || supermoon_720p30.webm (1280x720) [2.2 MB] || supermoon_360p30.mp4 (640x360) [1.0 MB] || 320x320_1x1_30p (320x320) [0 Item(s)] || 360x230_36x23_30p (360x230) [0 Item(s)] || ", "hits": 110 }, { "id": 4310, "url": "https://svs.gsfc.nasa.gov/4310/", "result_type": "Visualization", "release_date": "2015-05-01T00:00:00-04:00", "title": "Moon Phases Loop", "description": "A looping animation showing a complete cycle of average lunar phases. || moon.0060_print.jpg (1024x576) [57.1 KB] || moon.0060_searchweb.png (320x180) [33.1 KB] || moon.0060_thm.png (80x40) [3.1 KB] || moon_720p30.mp4 (1280x720) [1.5 MB] || moon_1080p30.mp4 (1920x1080) [3.4 MB] || 1920x1080_16x9_30p (1920x1080) [16.0 KB] || moon_720p30.webm (1280x720) [873.0 KB] || moon_2160p30.mp4 (3840x2160) [11.6 MB] || moon_360p30.mp4 (640x360) [401.5 KB] || 5760x3240_16x9_30p (5760x3240) [16.0 KB] || moon_1080p30_4310.pptx [3.9 MB] || moon_1080p30_4310.key [6.3 MB] || ", "hits": 1198 }, { "id": 4242, "url": "https://svs.gsfc.nasa.gov/4242/", "result_type": "Visualization", "release_date": "2015-03-17T14:00:00-04:00", "title": "March 17, 2013 Lunar Impact Forms a New Crater", "description": "Artist's conception of the March 17, 2013 lunar impact as seen from near the impact site in Mare Imbrium.This video is also available on our YouTube channel. || impactb.0172_print.jpg (1024x576) [43.7 KB] || impactb.0172_searchweb.png (320x180) [39.8 KB] || impactb.0172_thm.png (80x40) [3.6 KB] || from_moon_720p30.webmhd.webm (960x540) [249.9 KB] || from_moon_1080p30.mp4 (1920x1080) [629.5 KB] || from_moon_720p30.mp4 (1280x720) [298.3 KB] || from_moon (1920x1080) [0 Item(s)] || from_moon_360p30.mp4 (640x360) [100.4 KB] || from_moon_4242.key [2.8 MB] || from_moon_4242.pptx [390.9 KB] || ", "hits": 379 }, { "id": 11806, "url": "https://svs.gsfc.nasa.gov/11806/", "result_type": "Produced Video", "release_date": "2015-03-17T14:00:00-04:00", "title": "New Craters on the Moon", "description": "The Lunar Reconnaissance Orbiter's powerful cameras are enabling scientists to find present-day impact craters on the Moon.Watch this video on the NASAexplorer YouTube channel.For complete transcript, click here. || Moon_New_Craters_thumbnail.png (1920x1080) [3.6 MB] || Moon_New_Craters_thumbnail_web.jpg (320x180) [14.5 KB] || Moon_New_Craters_thumbnail_searchweb.png (320x180) [83.3 KB] || Moon_New_Craters_thumbnail_thm.png (80x40) [8.3 KB] || G2015-030_New_Crater_MASTER_appletv.webm (960x540) [35.4 MB] || G2015-030_New_Crater_MASTER_appletv.m4v (960x540) [132.3 MB] || G2015-030_New_Crater_MASTER_1280x720.wmv (1280x720) [150.3 MB] || G2015-030_New_Crater_MASTER_appletv_subtitles.m4v (960x540) [132.2 MB] || G2015-030_New_Crater_MASTER_youtube_hq.mov (1280x720) [252.9 MB] || G2015-030_New_Crater_MASTER_ipod_lg.m4v (640x360) [52.7 MB] || G2015-030_New_Crater_MASTER_H264.en_US.srt [6.2 KB] || G2015-030_New_Crater_MASTER_H264.en_US.vtt [6.2 KB] || G2015-030_New_Crater_MASTER_nasaportal.mov (640x360) [125.8 MB] || G2015-030_New_Crater_MASTER_H264.mov (1280x720) [1.3 GB] || G2015-030_New_Crater_MASTER_ipod_sm.mp4 (320x240) [28.4 MB] || G2015-030_New_Crater_MASTER_prores.mov (1280x720) [4.4 GB] || ", "hits": 501 }, { "id": 4275, "url": "https://svs.gsfc.nasa.gov/4275/", "result_type": "Visualization", "release_date": "2015-03-13T09:00:00-04:00", "title": "The Total Solar Eclipse of 20 March 2015", "description": "This narrated video shows visualizations of the March 20, 2015 solar eclipse from several vantage points in space, as well as an actual photo of a previous eclipse in 2012 taken by LRO from lunar orbit. Transcript. || G2015-026_ShadowOfTheMoon_print.jpg (1024x576) [96.1 KB] || G2015-026_ShadowOfTheMoon_searchweb.png (320x180) [60.2 KB] || G2015-026_ShadowOfTheMoon_thm.png (80x40) [5.0 KB] || G2015-026_ShadowOfTheMoon_youtube_hq.mov (1280x720) [35.7 MB] || G2015-026_ShadowOfTheMoon_1280x720.wmv (1280x720) [50.0 MB] || G2015-026_ShadowOfTheMoon_prores.mov (1280x720) [1.5 GB] || G2015-026_ShadowOfTheMoon_appletv.m4v (960x540) [46.5 MB] || G2015-026_ShadowOfTheMoon_appletv.webm (960x540) [14.4 MB] || G2015-026_ShadowOfTheMoon_appletv_subtitles.m4v (960x540) [46.5 MB] || G2015-026_ShadowOfTheMoon_nasaportal.mov (640x360) [34.1 MB] || G2015-026_ShadowOfTheMoon_ipod_lg.m4v (640x360) [20.0 MB] || Shadow.en_US.srt [1.9 KB] || G2015-026_ShadowOfTheMoon_ipod_sm.mp4 (320x240) [9.1 MB] || ", "hits": 71 }, { "id": 4253, "url": "https://svs.gsfc.nasa.gov/4253/", "result_type": "Visualization", "release_date": "2015-02-04T09:00:00-05:00", "title": "Moon Phase and Libration, from the Other Side", "description": "This narrated video introduces two views of the Moon's far side. Transcript.This video is also available on our YouTube channel. || opposite.0820_print.jpg (1024x576) [158.8 KB] || opposite.0820_thm.png (80x40) [5.8 KB] || G2015-013_ViewfromOtherSide_MASTER_youtube_hq.mov (1280x720) [75.4 MB] || G2015-013_ViewfromOtherSide_MASTER_1280x720.wmv (1280x720) [50.7 MB] || G2015-013_ViewfromOtherSide_MASTER_appletv.m4v (960x540) [43.3 MB] || G2015-013_ViewfromOtherSide_MASTER_appletv.webm (960x540) [13.8 MB] || G2015-013_ViewfromOtherSide_MASTER_appletv_subtitles.m4v (960x540) [43.2 MB] || G2015-013_ViewfromOtherSide_MASTER_nasaportal.mov (640x360) [34.9 MB] || G2015-013_ViewfromOtherSide_MASTER_ipod_lg.m4v (640x360) [19.0 MB] || G2015-013_ViewfromOtherSide.en_US.srt [2.0 KB] || G2015-013_ViewfromOtherSide.en_US.vtt [2.0 KB] || G2015-013_ViewfromOtherSide_MASTER_prores.mov (1280x720) [1.5 GB] || G2015-013_ViewfromOtherSide_MASTER_ipod_sm.mp4 (320x240) [9.0 MB] || ", "hits": 745 }, { "id": 4236, "url": "https://svs.gsfc.nasa.gov/4236/", "result_type": "Visualization", "release_date": "2014-12-09T06:00:00-05:00", "title": "Moon Phase and Libration, 2015", "description": " || New: Click on the image to download a high-resolution version with labels for craters near the terminator. The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [92.5 KB] || comp.0001.tif (1920x1080) [2.5 MB] || ", "hits": 227 }, { "id": 4237, "url": "https://svs.gsfc.nasa.gov/4237/", "result_type": "Visualization", "release_date": "2014-12-09T06:00:00-05:00", "title": "Moon Phase and Libration, 2015 South Up", "description": " || New: Click on the image to download a high-resolution version with labels for craters near the terminator. The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [92.6 KB] || comp.0001.tif (1920x1080) [2.5 MB] || ", "hits": 71 }, { "id": 30523, "url": "https://svs.gsfc.nasa.gov/30523/", "result_type": "Hyperwall Visual", "release_date": "2014-10-15T00:00:00-04:00", "title": "A natural bridge on the Moon", "description": "A preview image show where to find the natural bridge || M113168034RC-roi1_print.jpg (1024x576) [174.7 KB] || M113168034RC-roi1_web.jpg (320x180) [36.1 KB] || M113168034RC-roi1_searchweb.png (320x180) [60.4 KB] || M113168034RC-roi1_thm.png (80x40) [12.7 KB] || M113168034RC-roi1.tif (5760x3240) [15.1 MB] || ", "hits": 200 }, { "id": 4193, "url": "https://svs.gsfc.nasa.gov/4193/", "result_type": "Visualization", "release_date": "2014-08-08T09:00:00-04:00", "title": "Supermoon 2014", "description": "On August 10, 2014, the Moon will be full at the same time that it is closest to Earth for the year. This coincidence is sometimes called a supermoon.The Moon's orbit is very slightly elliptical and therefore somewhat off-center relative to the Earth. Each month, the Moon passes through points in its orbit called perigee and apogee, the closest and farthest points from the Earth for that month. Some perigees are a little closer than others. The closest perigee for 2014 occurs on August 10 at around 17:49 Universal Time, when the Moon will be 356,896 kilometers (221,765 miles) away. As it happens, this is only a few minutes before the time of peak full Moon at 18:10 UT, when the Moon's ecliptic longitude differs from the Sun's by exactly 180 degrees.How often does this happen? The period between perigees, called the anomalistic month, is 27.55 days, on average, while the time between Full Moons, called the synodic month, is 29.53 days. These two periods sync up every 413 days, or 1.13 years. 15 anomalistic months are about as long as 14 synodic months, so that's how often the pattern repeats.Recently, a much broader definition of \"supermoon\" has taken hold. It includes both Full and New Moons, and perigee merely needs to be \"close enough,\" generally within a couple of days. By this definition, there are six or seven supermoons every year, half of which can't be observed. Not so super!The actual shape of the Moon's orbit is another source of confusion. The orbit is often depicted as an almost cigar-shaped ellipse, but this is a misleading exaggeration. If you were to draw the orbit on a sheet of paper, its deviation from a perfect circle would be less than the thickness of your pencil point. The 50,000 kilometer (30,000 mile) difference between perigee and apogee is almost entirely due to the orbit being off-center. The difference between the semimajor and semiminor axes is less than 1000 kilometers (600 miles).The animation begins in mid-July, showing that perigee and Full Moon miss each other by about a day. It then shows apogee on July 28, when the Moon is almost 32 Earth diameters away. It ends on August 10, the day of the supermoon, when the distance to the Moon is 28 Earth diameters. The Moon graphic in the upper left shows the change in the Moon's apparent size as it moves closer and farther in its orbit. (The relative sizes of the Earth and Moon in the main orbit graphic are exaggerated by a factor of 15 to make them more easily visible.) || ", "hits": 91 }, { "id": 4185, "url": "https://svs.gsfc.nasa.gov/4185/", "result_type": "Visualization", "release_date": "2014-07-18T09:00:00-04:00", "title": "A New Look at the Apollo 11 Landing Site", "description": "Apollo 11 landed on the Moon on July 20th, 1969, a little after 4:00 in the afternoon Eastern Daylight Time. The Lunar Module, nicknamed Eagle and flown by Neil Armstrong and Edwin \"Buzz\" Aldrin, touched down near the southern rim of the Sea of Tranquility, one of the large, dark basins that contribute to the Man in the Moon visible from Earth. Armstrong and Aldrin spent about two hours outside the LM setting up experiments and collecting samples. At one point, Armstrong ventured east of the LM to examine a small crater, dubbed Little West, that he'd flown over just before landing.The trails of disturbed regolith created by the astronauts' boots are still clearly visible in photographs of the landing site taken by the Lunar Reconnaissance Orbiter (LRO) narrow-angle camera (LROC) more than four decades later.LROC imagery makes it possible to visit the landing site in a whole new way by flying around a three-dimensional model of the site. LROC scientists created the digital elevation model using a stereo pair of images. Each image in the pair shows the site from a slightly different angle, allowing sophisticated software to infer the shape of the terrain, similar to the way that left and right eye views are combined in the brain to produce the perception of depth.The animator draped an LROC photograph over the terrain model. He also added a 3D model of the LM descent stage—the real LM in the photograph looks oddly flat when viewed at an oblique angle.Although the area around the site is relatively flat by lunar standards, West Crater (the big brother of the crater visited by Armstrong) appears in dramatic relief near the eastern edge of the terrain model. Ejecta from West comprises the boulders that Armstrong had to avoid as he searched for a safe landing site.Apollo 11 was the first of six increasingly ambitious crewed lunar landings. The exploration of the lunar surface by the Apollo astronauts, when combined with the wealth of remote sensing data now being returned by LRO, continues to inform our understanding of our nearest neighbor in space. || ", "hits": 3364 }, { "id": 11612, "url": "https://svs.gsfc.nasa.gov/11612/", "result_type": "Produced Video", "release_date": "2014-07-17T13:00:00-04:00", "title": "Peeking Into Lunar Pits", "description": "Since 2009, NASA’s Lunar Reconnaissance Orbiter (LRO) has spotted hundreds of conspicuous holes on the Moon. These steep-walled “pits\" vary from a few meters to nearly 1 kilometer wide, and can reach depths of over 100 meters. Scientists think that pits may form when part of the Moon’s surface collapses above a lava tube, and high-resolution photographs from LRO suggest that many of the pits widen underground. If so, lunar pits might provide shelter from radiation, meteorite impacts, and extreme temperatures, making them valuable sites for future exploration. || ", "hits": 331 }, { "id": 11569, "url": "https://svs.gsfc.nasa.gov/11569/", "result_type": "Produced Video", "release_date": "2014-06-18T11:00:00-04:00", "title": "The Moon As Art Contest", "description": "To celebrate its 5th Anniversary, the Lunar Reconnaissance Orbiter mission decided to hold a contest to pick a cover image for \"The Moon As Art\" collection.This collection features a variety of beautiful visuals that were created using data gathered by LRO over the first 4.5 years of operations. 5 images were selected by the LRO team to put up for a public vote. Did your favorite image win? Watch this video to find out! || ", "hits": 63 }, { "id": 4220, "url": "https://svs.gsfc.nasa.gov/4220/", "result_type": "Visualization", "release_date": "2014-06-18T00:00:00-04:00", "title": "Hyperwall: Tycho Central Peak", "description": "This image set is formatted for NASA's hyperwall, a tiled display with a combined resolution of up to 9600 x 3240.On June 10, 2011, Lunar Reconnaissance Orbiter (LRO) slewed 65° to the west, allowing its narrow-angle camera (the LROC NAC) to capture this dramatic sunrise view of the mountains at the center of Tycho crater. It's not hard to see why this image was the winner of the Moon as Art contest.A popular target of amateur astronomers, Tycho is located at 43.3°S, 11.4°W, and is about 85 kilometers (55 miles) wide. A system of bright ejecta rays radiating from the crater is easily visible in binoculars and small telescopes during Full Moon. The crater's features are so steep and sharp because it's only about 110 million years old, quite young by lunar standards. || ", "hits": 193 }, { "id": 4221, "url": "https://svs.gsfc.nasa.gov/4221/", "result_type": "Visualization", "release_date": "2014-06-18T00:00:00-04:00", "title": "Hyperwall: Dionysius Crater", "description": "This image set is formatted for NASA's hyperwall, a tiled display with a combined resolution of up to 9600 x 3240.Dionysius crater (17.297°E, 2.766°N) is situated on the western edge of Mare Tranquillitatis (the Sea of Tranquility) and excavates both bright (highland) and dark (mare) materials. Dark banded layers of mare peek out of the eastern wall, where mare material was disturbed by the impact that formed Dionysius crater. Bright talus trails wind downslope through crags and crannies in the dark mare scarps.Looking closely, the mare appears banded or striated, indicating a non-uniform material. In general, mare are thought to form from large volumes of fluid lavas, much like the Columbia River Basalts in the Pacific Northwest of North America. The stratifications in the lunar mare may represent a series of lava flows in the region. || ", "hits": 130 }, { "id": 11518, "url": "https://svs.gsfc.nasa.gov/11518/", "result_type": "Produced Video", "release_date": "2014-04-11T17:00:00-04:00", "title": "Lunar Eclipse 2014 live shots", "description": "2014 Total Lunar Eclipse live shot b-roll || ", "hits": 33 }, { "id": 4129, "url": "https://svs.gsfc.nasa.gov/4129/", "result_type": "Visualization", "release_date": "2013-12-20T10:00:00-05:00", "title": "Earthrise: The 45th Anniversary", "description": "In December of 1968, the crew of Apollo 8 became the first people to leave our home planet and travel to another body in space. But as crew members Frank Borman, James Lovell, and William Anders all later recalled, the most important thing they discovered was Earth.Using photo mosaics and elevation data from Lunar Reconnaissance Orbiter (LRO), this video commemorates the 45th anniversary of Apollo 8's historic flight by recreating the moment when the crew first saw and photographed the Earth rising from behind the Moon. Narrator Andrew Chaikin, author of A Man on the Moon, sets the scene for a three-minute visualization of the view from both inside and outside the spacecraft accompanied by the onboard audio of the astronauts.The visualization draws on numerous historical sources, including the actual cloud pattern on Earth from the ESSA-7 satellite and dozens of photographs taken by Apollo 8, and it reveals new, historically significant information about the Earthrise photographs. It has not been widely known, for example, that the spacecraft was rolling when the photos were taken, and that it was this roll that brought the Earth into view. The visualization establishes the precise timing of the roll and, for the first time ever, identifies which window each photograph was taken from.The key to the new work is a set of vertical stereo photographs taken by a camera mounted in the Command Module's rendezvous window and pointing straight down onto the lunar surface. It automatically photographed the surface every 20 seconds. By registering each photograph to a model of the terrain based on LRO data, the orientation of the spacecraft can be precisely determined.Andrew Chaikin's article Who Took the Legendary Earthrise Photo From Apollo 8? appeared in the January, 2018 issue of Smithsonian magazine. It includes the story of the making of this visualization.A Google Hangout discussion of this visualization between Ernie Wright (creator of the visualization), Andrew Chaikin, John Keller (LRO project scientist), and Aries Keck (NASA media specialist) was held on December 20, 2013. A replay of that hangout is available here.Ernie Wright presented a talk about the making of this animation at the 2014 SIGGRAPH Conference in Vancouver. He also wrote a NASA Wavelength blog entry about Earthrise that includes links to educator resources related to LRO. || ", "hits": 1200 }, { "id": 4118, "url": "https://svs.gsfc.nasa.gov/4118/", "result_type": "Visualization", "release_date": "2013-12-06T00:01:00-05:00", "title": "Moon Phase and Libration, 2014", "description": " || The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [27.9 KB] || comp.0001.tif (1920x1080) [1.5 MB] || ", "hits": 156 }, { "id": 4119, "url": "https://svs.gsfc.nasa.gov/4119/", "result_type": "Visualization", "release_date": "2013-12-06T00:01:00-05:00", "title": "Moon Phase and Libration, 2014 South Up", "description": " || The data in the table for the entire year can be downloaded as a JSON file or as a text file. || moon.0001.jpg (730x730) [27.7 KB] || comp.0001.tif (1920x1080) [1.5 MB] || ", "hits": 46 }, { "id": 4109, "url": "https://svs.gsfc.nasa.gov/4109/", "result_type": "Visualization", "release_date": "2013-10-02T00:00:00-04:00", "title": "Lunar Far Side: From Luna 3 to LRO", "description": "In October of 1959, the Luna 3 spacecraft launched from the Baikonur Cosmodrome in Kazakhstan. Luna 3 was the third spacecraft to reach the Moon and the first to send back pictures of the Moon's far side. The pictures were noisy and indistinct, but because the Moon always presents the same face to the Earth, they offered views of a part of the Moon that had never been seen before.The far side of the Moon is surprisingly different. The most striking difference evident in the Luna 3 pictures is the absence of the large, dark seas of cooled lava, called maria, that cover a substantial fraction of the Earth-facing near side. The far side is instead densely peppered with impact craters of every size and age.Fifty years later, in June of 2009, Lunar Reconnaissance Orbiter (LRO) launched from Kennedy Space Center in Florida. Using LRO's global elevation maps and photographic mosaics, both of which are of unprecedented quality and detail, it's possible to accurately recreate the view captured in the pictures from Luna 3. As seen here, Luna 3 was directly over 12°N 120°E at a distance of 61,700 kilometers above the surface, and its camera was banked 17.5° clockwise from vertical relative to the Moon's north pole.The thicker blue longitude line at 90°E, along the left side of the LRO image, marks the boundary between the near and far sides of the Moon. To the left of that line are the familiar maria Crisium (the circular spot near the 9 o'clock position), Marginis, Smythii (both east of Crisium), Humboldtianum (in the north), Australe (near the south pole), and the eastern edge of Fecunditatis. The bright spot near the center of the disk is a complex of unnamed craters bordered by King, Langemak, Gregory, and Abul Wafa craters. The brightness is enhanced because it's near the subsolar point. The dark, sharp-edged shield shape in the southern hemisphere, with the white dot in the middle, is Tsiolkovskiy crater and its central peak. The dark spot to the southeast of Tsiolkovskiy is the crater Jules Verne. The mare in the northeast is Moscoviense. || ", "hits": 1820 }, { "id": 4107, "url": "https://svs.gsfc.nasa.gov/4107/", "result_type": "Visualization", "release_date": "2013-09-27T12:00:00-04:00", "title": "Moon Map for InOMN 2013", "description": "October 12, 2013 is International Observe the Moon Night (InOMN), an annual public outreach event that encourages people from around the world to look up at our nearest neighbor in space. The map on this page was produced as an observing aid for the event. It shows the phase and libration of the Moon for noon Universal Time on the date of the event, with labels for many of the features that are visible on that date. A corresponding observing list is available as a PDF.The list includes items visible with the naked eye and with binoculars as well as telescopic targets. The Moon is just past First Quarter. Naked eye observers can see the shape and orientation of the daylit side and the difference in brightness of the northern and southern parts. They can probably make out the two largest maria, the Seas of Serenity and Tranquility. Those with keen eyes might also discern several less prominent maria, as well as a couple of bright spots near the southeastern limb.These bright spots, near the craters Langrenus and Stevinus, are easier to see in binoculars, which will also show the Apennine Mountains and the irregularity of the terminator, the line between day and night. A telescope reveals that the terminator crosses a densely cratered region in the south, and elsewhere, it can resolve long, cliff-like scarps and the remnants of an extinct volcano. Although Apollo artifacts can't be seen by any Earthbound telescope, four of the six landing sites are in daylight at First Quarter. || ", "hits": 469 }, { "id": 4084, "url": "https://svs.gsfc.nasa.gov/4084/", "result_type": "Visualization", "release_date": "2013-06-21T01:00:00-04:00", "title": "Supermoon 2013", "description": "On June 23, 2013, the Moon will be full at the same time that it is closest to Earth for the year. This coincidence is sometimes called a supermoon.The Moon's orbit is slightly elliptical and therefore a little off-center relative to the Earth. Each month, the Moon passes through points in its orbit called perigee and apogee, the closest and farthest points from the Earth for that month. Some perigees are a little closer than others. The closest perigee for 2013 occurs on June 23 at around 11:18 Universal Time, when the Moon will be 356,991 kilometers (221,824 miles) away. As it happens, this is only a few minutes before the time of peak full Moon at 11:32 UT, when the Moon's ecliptic longitude differs from the Sun's by exactly 180 degrees.How often does this happen? The period between perigees, called the anomalistic month, is 27.55 days. The time between full Moons, called the synodic month, is 29.53 days. These two periods sync up every 413 days, or 1.13 years. 15 anomalistic months are about as long as 14 synodic months. So that's how often the pattern repeats.The animation begins in May, showing that perigee and full Moon miss each other by about a day. It then shows apogee on June 9, when the Moon is almost 32 Earth diameters away. It ends on June 23, the day of the supermoon, when the distance to the Moon is 28 Earth diameters. The Moon graphic in the upper left shows the change in the Moon's apparent size as it moves closer and farther in its orbit. (The relative sizes of the Earth and Moon in the main orbit graphic are exaggerated by a factor of 15 to make them more easily visible.)By another coincidence, the supermoon occurs just two days after the northern summer solstice, when the Sun reaches its highest point in the northern hemisphere sky. The second animation shows the relationship between the Sun and the Earth at both the summer and winter solstice. || ", "hits": 97 }, { "id": 4075, "url": "https://svs.gsfc.nasa.gov/4075/", "result_type": "Visualization", "release_date": "2013-06-12T10:00:00-04:00", "title": "Lunar Transit from Solar Dynamics Observatory (2010)", "description": "Just as we do on Earth, the Solar Dynamics Observatory satellite periodically crosses the Moon's shadow and experiences a solar eclipse. During the eclipse witnessed by SDO on October 7, 2010, the southern hemisphere of the Moon was silhouetted against the solar disk, revealing some especially prominent mountain peaks near the Moon's south pole. By using elevation data from Lunar Reconnaissance Orbiter to visualize the Moon from SDO's point of view, it's possible to identify these peaks. Although all of these are well-known features, all but one of them have no official names. The following list corresponds to the labels in the animation, from left to right.In his 1954 sketch of the lunar south pole, astronomer Ewen Whitaker labeled this feature \"M3.\" It's a mountain about halfway between the craters Cabeus and Drygalski, at 83.2°S 68°W.Whitaker's \"M1,\" a mountain on the northern rim of Cabeus, 83.4°S 33°W.A mountain on the southern rim of Malapert crater, about halfway between the centers of Malapert and Haworth. Whitaker labels this Malapert Alpha. It's also known as Mons Malapert or Malapert Peak. 85.8°S 0°E.Labeled Leibnitz Beta by Whitaker and now officially named Mons Mouton, this is part of the highlands adjacent to the northern rim of Nobile crater. 84°S 37°E. Part of the Leibnitz mountain range first identified by Johann Schröter in the late 1700s, unrelated to Leibnitz Crater on the lunar far side.A mountain near Amundsen crater, on the western (Earthward) rim of Hédervári crater, 82.2°S 75°E. Whitaker tentatively labels this Leibnitz Epsilon in his sketch.The Moon visualization uses the latest albedo and elevation maps from Lunar Reconnaissance Orbiter (LRO). || ", "hits": 93 }, { "id": 11291, "url": "https://svs.gsfc.nasa.gov/11291/", "result_type": "Produced Video", "release_date": "2013-06-12T10:00:00-04:00", "title": "The Moon and the Sun: Two NASA Missions Join Their Images", "description": "Two or three times a year, NASA’s Solar Dynamics Observatory observes the moon traveling across the sun, blocking its view. While this obscures solar observations for a short while, it offers the chance for an interesting view of the shadow of the moon. The moon’s crisp horizon can be seen up against the sun, since the moon does not have an atmosphere. (At other times of the year, when Earth blocks SDO’s view, the Earth’s horizon looks fuzzy due to its atmosphere.) If one looks closely at such a crisp border, the features of the moon’s topography are visible, as is the case in this image from Oct. 7, 2010. This recently inspired two NASA visualizers to overlay a 3-dimensional model of the moon based on data from NASA’s Lunar Reconnaissance Orbiter into the shadow of the SDO image. Such a task is fairly tricky, as the visualizers — Scott Wiessinger who typically works with the SDO imagery and Ernie Wright who works with the LRO imagery — had to precisely match up data from the correct time and viewpoint for the two separate instruments. The end result is an awe-inspiring image of the sun and the moon. To start the process, the visualizers took the viewing position and time from the SDO image. This information was dropped into an LRO model that can produce the exact view of the moon from anywhere, at any time, by incorporating 6 billion individual measurements of the moon’s surface height from LRO’s Lunar Orbiter Laser Altimeter instrument. The model had to take many factors into consideration, including not only SDO’s distance and viewing angle, but also the moon’s rotation and constant motion. Wright used animation software to wrap the elevation and appearance map around a sphere to simulate the moon. The two images were put together and the overlay was exact. The mountains and valleys on the horizon of the LRO picture fit right into the shadows seen by SDO. In its own way, this served as a kind of calibration of data. It means that the SDO data on its position and time is highly accurate and that the LRO models, too, are able to accurately provide images of what’s happening at any given moment in time. And of course, the whole exercise provides for a beautiful picture. || ", "hits": 259 }, { "id": 10792, "url": "https://svs.gsfc.nasa.gov/10792/", "result_type": "Produced Video", "release_date": "2012-11-05T14:00:00-05:00", "title": "NASA's Planetary CSI: Crater Science Investigations", "description": "If you want to learn more about the history of Earth and other rocky planets in the solar system, craters are a great place to look. Now, thanks to LRO's LROC instrument, we can take a much closer look at Linn? Crater on the moon—a pristine crater that's great to use to compare with other craters! || ", "hits": 123 }, { "id": 3909, "url": "https://svs.gsfc.nasa.gov/3909/", "result_type": "Visualization", "release_date": "2012-03-14T11:00:00-04:00", "title": "Tour of the Moon: Additional Footage", "description": "This is additional footage produced for the narrated version of Tour of the Moon. It supplements the visualizations in entry 3874. || ", "hits": 379 }, { "id": 10929, "url": "https://svs.gsfc.nasa.gov/10929/", "result_type": "Produced Video", "release_date": "2012-03-14T10:00:00-04:00", "title": "A Narrated Tour of the Moon", "description": "Although the moon has remained largely unchanged during human history, our understanding of it and how it has evolved over time has evolved dramatically. Thanks to new measurements, we have new and unprecedented views of its surface, along with new insight into how it and other rocky planets in our solar system came to look the way they do. See some of the sights and learn more about the moon here! || ", "hits": 143 }, { "id": 10915, "url": "https://svs.gsfc.nasa.gov/10915/", "result_type": "Produced Video", "release_date": "2012-02-20T11:00:00-05:00", "title": "NASA Spacecraft Reveals Recent Geological Activity on the Moon", "description": "New images acquired by NASA's Lunar Reconnaissance Orbiter (LRO) spacecraft show that the moon's crust is being slightly stretched, forming small valleys - at least in some small areas. High-resolution images obtained by the Lunar Reconnaissance Orbiter Camera (LROC) provide evidence that these valleys are very young, suggesting the moon has experienced relatively recent geologic activity. || ", "hits": 108 }, { "id": 3874, "url": "https://svs.gsfc.nasa.gov/3874/", "result_type": "Visualization", "release_date": "2011-10-27T06:00:00-04:00", "title": "Tour of the Moon", "description": "Using elevation and image data returned by Lunar Reconnaissance Orbiter (LRO), this animation takes the viewer on a virtual tour of the Moon. The tour visits a number of interesting sites chosen to illustrate a wide variety of lunar terrain features. Some are on the near side and are familiar to both professional and amateur observers on Earth, while others can only be seen clearly from space. Some are large and old (Orientale, South Pole-Aitken), others are smaller and younger (Tycho, Aristarchus). Constantly shadowed areas near the poles are hard to photograph but easier to measure with altimetry, while several of the Apollo landing sites, all relatively near the equator, have been imaged at resolutions as high as 25 centimeters (10 inches) per pixel.The shape of the terrain in this animation is based primarily on data from LRO's laser altimeter (LOLA), supplemented by stereo image data from its wide angle camera (LROC WAC) and from Japan's Kaguya mission. The global surface color is from Clementine. || ", "hits": 484 }, { "id": 3866, "url": "https://svs.gsfc.nasa.gov/3866/", "result_type": "Visualization", "release_date": "2011-10-06T00:00:00-04:00", "title": "LOLA Footprints II", "description": "LOLA, the Lunar Orbiter Laser Altimeter aboard the Lunar Reconnaissance Orbiter spacecraft, is an instrument for measuring the altitude of the Moon's terrain. As LRO orbits the Moon, LOLA bounces laser light off the lunar surface 28 times per second. An array of five sensors arranged in an X-shape detects the reflected light. The amount of time it takes the light to travel to the surface and back to the sensors tells the instrument how far away the surface is. Over time, LOLA builds up a complete elevation map of the Moon.This animation illustrates how the X-shaped LOLA sensor footprint travels over the lunar surface. The LOLA data track is taken from LRO orbit number 1155, on September 27, 2009, as the spacecraft passed over Amundsen crater near the lunar south pole. It begins with a distant view showing the entire crater, then switches to a view near the surface that chases the laser pulses over the central peak and across the floor of this large crater. Through most of the movie, the laser pulses are shown racing across the surface at actual speed, but at one point, the pace is slowed so that the viewer can see the sensor pattern of each individual laser pulse.The imagery of the ground view is a high-resolution photograph taken by the LRO narrow-angle camera at the same time this LOLA data track was being recorded. The shape of the terrain in all of the views is taken from LOLA elevation maps. All of this data is publicly available from the Planetary Data System's LRO archive.This is a new and improved version of entry #3758. || ", "hits": 104 }, { "id": 10818, "url": "https://svs.gsfc.nasa.gov/10818/", "result_type": "Produced Video", "release_date": "2011-09-06T10:00:00-04:00", "title": "New LRO Images Offer Sharper Views of Apollo 12, 14, and 17 Sites", "description": "NASA's Lunar Reconnaissance Orbiter (LRO) has captured the sharpest images ever taken from space of the Apollo 12, 14 and 17 sites, revealing the twists and turns of the paths made when the astronauts explored these areas. || ", "hits": 7398 }, { "id": 10146, "url": "https://svs.gsfc.nasa.gov/10146/", "result_type": "Produced Video", "release_date": "2011-03-15T14:00:00-04:00", "title": "LRO PDS Release", "description": "When composited into a global mosaic, the images from LROC's wide angle lens can show the mineral content and morphology of the lunar surface. || LRO_720.png (1280x720) [991.6 KB] || LRO40.png (80x40) [7.6 KB] || LRO80.png (160x80) [21.0 KB] || LRO180.png (320x180) [79.9 KB] || G2011-026_LRO_PDS_Release_youtube_hq.mov (1280x720) [45.6 MB] || G2011-026_LRO_PDS_Release_ProRes.mov (1280x720) [1.2 GB] || G2011-026_LRO_PDS_Release_appletv.m4v (960x540) [43.6 MB] || G2011-026_LRO_PDS_Release_appletv.webmhd.webm (960x540) [16.6 MB] || G2011-026_LRO_PDS_Release.mov (640x360) [33.7 MB] || G2011-026_LRO_PDS_Release_ipod_lg.m4v (640x360) [14.2 MB] || GSFC_20110315_LRO_m10146_PDS.en_US.srt [1.4 KB] || GSFC_20110315_LRO_m10146_PDS.en_US.vtt [1.3 KB] || G2011-026_LRO_PDS_Release_ipod_sm.mp4 (320x240) [7.3 MB] || ", "hits": 96 }, { "id": 3758, "url": "https://svs.gsfc.nasa.gov/3758/", "result_type": "Visualization", "release_date": "2010-09-16T00:00:00-04:00", "title": "LOLA Footprints", "description": "A more recent version of this animation can be found here.LOLA, the Lunar Orbiter Laser Altimeter aboard the Lunar Reconnaissance Orbiter spacecraft, is an instrument for measuring the altitude of the Moon's terrain. As LRO orbits the Moon, LOLA bounces laser light off the lunar surface 28 times per second. An array of five sensors arranged in an X-shape detects the reflected light. The amount of time it takes the light to travel to the surface and back to the sensors tells the instrument how far away the surface is. Over time, LOLA builds up a complete elevation map of the Moon.This animation illustrates how the X-shaped LOLA sensor footprint travels over the lunar surface. The LOLA data track is taken from LRO orbit number 1155, on September 27, 2009, as the spacecraft passed over Amundsen crater near the lunar south pole. It begins with a distant view showing the entire crater, then switches to a view near the surface that chases the laser pulses over the central peak and across the floor of this large crater. Through most of the movie, the laser pulses are shown racing across the surface at actual speed, but at one point, the pace is slowed so that the viewer can see the sensor pattern of each individual laser pulse.The imagery of the ground view is a high-resolution photograph taken by the LRO narrow-angle camera at the same time this LOLA data track was being recorded. The shape of the terrain in all of the views is taken from LOLA elevation maps. All of this data is publicly available from the Planetary Data System's LRO archive. || ", "hits": 245 }, { "id": 10631, "url": "https://svs.gsfc.nasa.gov/10631/", "result_type": "Produced Video", "release_date": "2010-08-19T00:00:00-04:00", "title": "NASA's LRO Reveals \"Incredible Shrinking Moon\"", "description": "Newly discovered cliffs in the lunar crust indicate the moon shrank globally in the geologically recent past and might still be shrinking today, according to a team analyzing new images from NASA's Lunar Reconnaissance Orbiter (LRO) spacecraft. The results provide important clues to the moon's recent geologic and tectonic evolution.For complete transcript, click here. || G2010-102_ShrinkingMoon_ipod_lg00500_print.jpg (1024x576) [100.5 KB] || G2010-102_ShrinkingMoon_ipod_lg_web.png (320x180) [133.5 KB] || G2010-102_ShrinkingMoon_ipod_lg_thm.png (80x40) [12.1 KB] || G2010-102_ShrinkingMoon_appletv.m4v (960x540) [86.7 MB] || G2010-102_ShrinkingMoon_windows.wmv (1280x720) [63.6 MB] || G2010-102_ShrinkingMoon_youtube_hq.mov (1280x720) [111.0 MB] || G2010-102_ShrinkingMoon_prores.mov (1280x720) [2.0 GB] || G2010-102_ShrinkingMoon_appletv.webmhd.webm (960x540) [28.1 MB] || G2010-102_ShrinkingMoon_ipod_lg.m4v (640x360) [30.7 MB] || G2010-102_ShrinkingMoon_portal.mov (640x360) [59.1 MB] || G2010-102_ShrinkingMoon_ipod_sm.m4v (320x240) [13.7 MB] || G2010-102_ShrinkingMoon_SVS.mpg (512x288) [18.7 MB] || ", "hits": 180 }, { "id": 10595, "url": "https://svs.gsfc.nasa.gov/10595/", "result_type": "Produced Video", "release_date": "2010-06-23T00:00:00-04:00", "title": "Ten Cool Things Seen in the First Year of LRO", "description": "Having officially reached lunar orbit on June 23nd, 2009, the Lunar Reconnaissance Orbiter (LRO) has now marked one full year on its mission to scout the moon. Maps and datasets collected by LRO's state-of-the-art instruments will form the foundation for all future lunar exploration plans, as well as be critical to scientists working to better understand the moon and its environment. In only the first year of the mission, LRO has gathered more digital information than any previous planetary mission in history. To celebrate one year in orbit, here are ten cool things already observed by LRO. Note that the stories here are just a small sample of what the LRO team has released and barely touch on the major scientific accomplishments of the mission. If you like these, visit the official LRO web site at www.nasa.gov/LRO to find out even more! || ", "hits": 522 }, { "id": 10483, "url": "https://svs.gsfc.nasa.gov/10483/", "result_type": "Produced Video", "release_date": "2009-10-17T00:00:00-04:00", "title": "LRO Early Results Press Conference Visuals", "description": "These are the visuals used to support the LRO Press Conference \"NASA's LRO Mission Mapping Lunar South Pole in Uprecedented Detail\" held on September 17, 2009 at Goddard Space Flight Center. || ", "hits": 99 }, { "id": 10479, "url": "https://svs.gsfc.nasa.gov/10479/", "result_type": "Produced Video", "release_date": "2009-09-11T00:00:00-04:00", "title": "A Tour of the LRO Instrument Suite", "description": "Lunar Reconnaissance Orbiter Project Scientist Rich Vondrak explains the LRO suite of instruments and how each will greatly benefit our understanding of the Moon.For complete transcript, click here. || LRO_vondrak_ipod.02402_print.jpg (1024x576) [90.1 KB] || LRO_vondrak_ipod_web.png (320x180) [177.9 KB] || LRO_vondrak_ipod_thm.png (80x40) [16.3 KB] || LRO_vondrak_ipod.webmhd.webm (960x540) [46.3 MB] || LRO_vondrak_ipod.m4v (640x360) [70.8 MB] || LRO_vondrak.wmv (320x236) [37.5 MB] || LRO_vondrak_nasacast.mp4 (320x176) [21.6 MB] || ", "hits": 30 }, { "id": 10447, "url": "https://svs.gsfc.nasa.gov/10447/", "result_type": "Produced Video", "release_date": "2009-07-07T00:00:00-04:00", "title": "Flyover of the First Images from the Lunar Reconnaissance Orbiter Camera", "description": "A starkly beautiful region a few kilometers east of Hell E crater, which is located on the floor of the ancient Imbrian-aged Deslandres impact structure in the lunar highlands south of Mare Nubium. Numerous small, secondary craters can be identified, including several small crater chains. Also identifiable are distinctive lineations made readily apparent by the extreme lighting, representing ejecta from a nearby impact. The NAC image shown here has not been calibrated and the pixel values were stretched to enhance contrast. Image width is 3.5 km x 70 km; north is down. || ", "hits": 109 }, { "id": 3587, "url": "https://svs.gsfc.nasa.gov/3587/", "result_type": "Visualization", "release_date": "2009-03-24T00:00:00-04:00", "title": "LRO Scouts for Safe Landing Sites - Stereoscopic Version", "description": "The Lunar Reconnaissance Orbiter (LRO) is NASA's scouting mission to prepare for a return to the moon. One of its primary objectives will be to assess the lunar terrain for areas that would provide safe landing sites for future missions, both manned and unmanned, that plan to touch down on the moon's surface. This video helps explain how LRO will accomplish its objective.This visualization is a modified 3D stereo version of animation entry:#10349: LRO Scouts for Safe Landing Sites.The raw stereoscopic visualization sequence used to create this narrated animation can be viewed and downloaded from entry: #3567: How LRO Will Find Safe Landing Sites on the Moon - Stereoscopic Version. || ", "hits": 26 }, { "id": 10349, "url": "https://svs.gsfc.nasa.gov/10349/", "result_type": "Produced Video", "release_date": "2008-09-03T00:00:00-04:00", "title": "LRO Scouts for Safe Landing Sites (Narrated)", "description": "The Lunar Reconnaissance Orbiter (LRO) is NASA's scouting mission to prepare for a return to the moon. One of its primary objectives will be to assess the lunar terrain for areas that would provide safe landing sites for future missions, both manned and unmanned, that plan to touch down on the moon's surface. This video helps explain how LRO will accomplish its objective.The raw animation sequences used to create this video feature as well as high resolution stills from the video can be viewed and downloaded from How LRO Will Find Safe Landing Sites on the Moon (#3533). || ", "hits": 20 }, { "id": 10334, "url": "https://svs.gsfc.nasa.gov/10334/", "result_type": "Produced Video", "release_date": "2008-08-15T00:00:00-04:00", "title": "LRO/LCROSS Launch, Deploy, and Mission Animation", "description": "The Lunar Reconnaissance Orbiter or LRO will give scientists more information about the structure of the Moon's interior; the types of rock found there, events that shaped it, and the conditions that exist at the surface. LRO will spend one year in a polar orbit collecting this information. LRO's instrument suite will provide the highest resolution and the most comprehensive data set and the most detailed maps ever returned from the moon. It will carry an additional payload called LCROSS. The identification of water is very important to the future of human activities on the Moon. LCROSS will excavate the permanently dark floor of one of the Moon's polar craters with two heavy impactors to test the theory that ancient ice lies buried there. The impact will eject material from the crater's surface to create a plume that specialized instruments will be able to analyze for the presence of water (ice and vapor), hydrocarbons and hydrated material. || ", "hits": 114 }, { "id": 10201, "url": "https://svs.gsfc.nasa.gov/10201/", "result_type": "Produced Video", "release_date": "2008-04-14T00:00:00-04:00", "title": "LRO Instrument Integrations", "description": "The LRO payload, comprised of six instruments and one technology demonstration, will provide key data sets to enable a human return to the moon. Though built at a variety of partner institutions, all of LRO's instruments were integrated onto the spacecraft at NASA's Goddard Space Flight Center. || ", "hits": 72 } ] }