{ "id": 10360, "url": "https://svs.gsfc.nasa.gov/10360/", "page_type": "Produced Video", "title": "Mars Methane Spectroscopy", "description": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph. || Mars_Methane_Spectroscopy_mpgLG.00715_print.jpg (1024x576) [54.5 KB] || Mars_Methane_Spectroscopy_mpgLG_web.png (320x180) [60.4 KB] || Mars_Methane_Spectroscopy_mpgLG_thm.png (80x40) [6.9 KB] || Mars_Methane_Spectroscopy_h264fullres.webmhd.webm (960x540) [2.9 MB] || Mars_Methane_Spectroscopy_h264fullres.mov (1280x720) [9.7 MB] || Mars_Methane_Spectroscopy_prores.mov (1280x720) [140.3 MB] || Mars_Methane_Spectroscopy_YouTube.mov (1280x720) [6.8 MB] || Mars_Methane_Spectroscopy_ipodLG.m4v (640x360) [3.6 MB] || Mars_Methane_Spectroscopy_mpgLG.mpg (640x360) [6.2 MB] || Mars_Methane_Spectroscopy_ipodSM.m4v (320x180) [1017.7 KB] || Mars_Methane_Spectroscopy_mp4SM.mp4 (320x240) [658.4 KB] || Mars_Methane_Spectroscopy_mpgSM.mpg (512x288) [4.2 MB] || ", "release_date": "2009-01-15T00:00:00-05:00", "update_date": "2023-05-03T13:54:58.506269-04:00", "main_image": { "id": 500504, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mpgLG.00715_print.jpg", "filename": "Mars_Methane_Spectroscopy_mpgLG.00715_print.jpg", "media_type": "Image", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 1024, "height": 576, "pixels": 589824 }, "main_video": { "id": 500493, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_h264fullres.webmhd.webm", "filename": "Mars_Methane_Spectroscopy_h264fullres.webmhd.webm", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 960, "height": 540, "pixels": 518400 }, "main_credits": { "Visualizations by": [ { "name": "Chris Smith", "employer": "UMBC" } ] }, "progress": "Complete", "media_groups": [ { "id": 355202, "url": "https://svs.gsfc.nasa.gov/10360/#media_group_355202", "widget": "Video player", "title": "", "caption": "", "description": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "items": [ { "id": 345421, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500504, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mpgLG.00715_print.jpg", "filename": "Mars_Methane_Spectroscopy_mpgLG.00715_print.jpg", "media_type": "Image", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 1024, "height": 576, "pixels": 589824 } }, { "id": 345419, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500502, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mpgLG_web.png", "filename": "Mars_Methane_Spectroscopy_mpgLG_web.png", "media_type": "Image", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 320, "height": 180, "pixels": 57600 } }, { "id": 345420, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500503, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mpgLG_thm.png", "filename": "Mars_Methane_Spectroscopy_mpgLG_thm.png", "media_type": "Image", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 80, "height": 40, "pixels": 3200 } }, { "id": 345410, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500493, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_h264fullres.webmhd.webm", "filename": "Mars_Methane_Spectroscopy_h264fullres.webmhd.webm", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 960, "height": 540, "pixels": 518400 } }, { "id": 345411, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500494, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_h264fullres.mov", "filename": "Mars_Methane_Spectroscopy_h264fullres.mov", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 1280, "height": 720, "pixels": 921600 } }, { "id": 345417, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500500, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_prores.mov", "filename": "Mars_Methane_Spectroscopy_prores.mov", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 1280, "height": 720, "pixels": 921600 } }, { "id": 345418, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500501, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_YouTube.mov", "filename": "Mars_Methane_Spectroscopy_YouTube.mov", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 1280, "height": 720, "pixels": 921600 } }, { "id": 345412, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500495, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_ipodLG.m4v", "filename": "Mars_Methane_Spectroscopy_ipodLG.m4v", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 640, "height": 360, "pixels": 230400 } }, { "id": 345415, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500498, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mpgLG.mpg", "filename": "Mars_Methane_Spectroscopy_mpgLG.mpg", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 640, "height": 360, "pixels": 230400 } }, { "id": 345413, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500496, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_ipodSM.m4v", "filename": "Mars_Methane_Spectroscopy_ipodSM.m4v", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 320, "height": 180, "pixels": 57600 } }, { "id": 345414, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500497, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mp4SM.mp4", "filename": "Mars_Methane_Spectroscopy_mp4SM.mp4", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 320, "height": 240, "pixels": 76800 } }, { "id": 345416, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 500499, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010300/a010360/Mars_Methane_Spectroscopy_mpgSM.mpg", "filename": "Mars_Methane_Spectroscopy_mpgSM.mpg", "media_type": "Movie", "alt_text": "Conceptual animation demonstrating the process of spectroscopy. The first animation demonstrates the general concept of visible-light spectroscopy by which white light is separated into its component wavelengths (colors) using a prism. The second animation demonstrates how this idea is applied to the discovery of methane in Mars' atmosphere. Because it absorbs specific wavelengths of electromagnetic energy, methane has a 'fingerprint' that can be seen as missing lines on the resulting spectograph.", "width": 512, "height": 288, "pixels": 147456 } } ], "extra_data": {} }, { "id": 355203, "url": "https://svs.gsfc.nasa.gov/10360/#media_group_355203", "widget": "Basic text", "title": "For More Information", "caption": "", "description": "See [http://www.nasa.gov/mission_pages/mars/news/marsmethane.html](http://www.nasa.gov/mission_pages/mars/news/marsmethane.html)", "items": [], "extra_data": {} } ], "studio": "gms", "funding_sources": [ "PAO" ], "credits": [ { "role": "Animator", "people": [ { "name": "Chris Smith", "employer": "UMBC" } ] }, { "role": "Producer", "people": [ { "name": "Chris Smith", "employer": "UMBC" } ] }, { "role": "Scientist", "people": [ { "name": "Michael Mumma", "employer": "NASA/GSFC" } ] } ], "missions": [], "series": [ "Mars Methane" ], "tapes": [], "papers": [], "datasets": [], "nasa_science_categories": [ "Planets & Moons" ], "keywords": [ "HDTV", "Mars", "Methane" ], "recommended_pages": [], "related": [ { "id": 11831, "url": "https://svs.gsfc.nasa.gov/11831/", "page_type": "Produced Video", "title": "NASA On Air: Lunar Eclipse April 4, 2015 at 4:58 AM PDT (4/4/2015)", "description": "LEAD: Early risers on Saturday morning (April 4, 2015) will have a chance to see the shortest total lunar eclipse of the century.1. The moon will turn red as it crosses the earth’s long shadow for less than five minutes.2. Why is the moon red rather than dark if it is in the earth’s shadow?3. Turns out the earth’s atmosphere acts as a filter and a prism.4. Similar to a sunset, the light becomes red.5. The earth’s atmospheric 'lens' bends this red light only slightly, which is enough to bask the 2000-mile diameter moon in red light.6. The lunar eclipse starts at 4:58 AM Pacific Daylight Time.TAG: Best viewing will be in the Western United States, early Saturday morning. The next total eclipse is not until September 2015. || WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180_print.jpg (1024x576) [110.7 KB] || WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180_searchweb.png (320x180) [68.5 KB] || WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180_web.png (320x180) [68.5 KB] || WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180_thm.png (80x40) [4.4 KB] || WC_Lunar_Eclipse-1920-MASTER_1920x1080.mov (1920x1080) [484.4 MB] || WC_Lunar_Eclipse-1920-MASTER_1280x720.mov (1280x720) [564.7 MB] || WC_Lunar_Eclipse-1920-MASTER_NBC_Today.mov (1920x1080) [160.1 MB] || WC_Lunar_Eclipse-1920-MASTER_WEA_CEN.wmv (1280x720) [12.8 MB] || WC_Lunar_Eclipse_.avi (1280x720) [16.8 MB] || WC_Lunar_Eclipse-1920-MASTER_baron.mp4 (1920x1080) [14.8 MB] || WC_Lunar_Eclipse-1920-MASTER_prores.mov (1920x1080) [404.8 MB] || WC_Lunar_Eclipse-1920-MASTER_iPad_960x540.m4v (960x540) [51.1 MB] || WC_Lunar_Eclipse-1920-MASTER_iPad_1280x720.m4v (1280x720) [81.8 MB] || WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180.m4v (1920x1080) [160.1 MB] || WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180.webm (1920x1080) [3.0 MB] || ", "release_date": "2015-04-03T12:00:00-04:00", "update_date": "2023-05-03T13:49:48.094663-04:00", "main_image": { "id": 444224, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a011800/a011831/WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180_print.jpg", "filename": "WC_Lunar_Eclipse-1920-MASTER_iPad_1920x0180_print.jpg", "media_type": "Image", "alt_text": "LEAD: Early risers on Saturday morning (April 4, 2015) will have a chance to see the shortest total lunar eclipse of the century.\r1. The moon will turn red as it crosses the earth’s long shadow for less than five minutes.\r2. Why is the moon red rather than dark if it is in the earth’s shadow?\r3. Turns out the earth’s atmosphere acts as a filter and a prism.\r4. Similar to a sunset, the light becomes red.\r5. The earth’s atmospheric 'lens' bends this red light only slightly, which is enough to bask the 2000-mile diameter moon in red light.\r6. The lunar eclipse starts at 4:58 AM Pacific Daylight Time.\rTAG: Best viewing will be in the Western United States, early Saturday morning. The next total eclipse is not until September 2015.\r", "width": 1024, "height": 576, "pixels": 589824 } }, { "id": 12561, "url": "https://svs.gsfc.nasa.gov/12561/", "page_type": "Produced Video", "title": "Possible Methane Sources and Sinks on Mars", "description": "There are several possible ways that methane can be created, stored, and released on Mars, including both biological and non-biological pathways. || Mars_Methane_Sources_Sinks_PIA19088.jpg (1440x1080) [227.6 KB] || Mars_Methane_Sources_Sinks_PIA19088_searchweb.png (320x180) [108.1 KB] || Mars_Methane_Sources_Sinks_PIA19088_thm.png (80x40) [6.9 KB] || Mars_Methane_Sources_Sinks_PIA19088.tif (1440x1080) [4.5 MB] || ", "release_date": "2014-12-16T10:00:00-05:00", "update_date": "2023-05-03T13:50:13.285817-04:00", "main_image": { "id": 448081, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a012500/a012561/Mars_Methane_Sources_Sinks_PIA19088.jpg", "filename": "Mars_Methane_Sources_Sinks_PIA19088.jpg", "media_type": "Image", "alt_text": "There are several possible ways that methane can be created, stored, and released on Mars, including both biological and non-biological pathways.", "width": 1440, "height": 1080, "pixels": 1555200 } } ], "sources": [], "products": [ { "id": 14043, "url": "https://svs.gsfc.nasa.gov/14043/", "page_type": "Produced Video", "title": "Tour 2022: NASA's Upcoming Earth Missions", "description": "NASA has a unique view of our planet from space. NASA’s fleet of Earth-observing satellites provide high quality data on different parts of Earth’s interconnected environment from air quality to sea ice. Take a tour of missions launching in 2022, including SWOT, TROPICS, EMIT, and JPSS-2. || ", "release_date": "2021-12-13T14:00:00-05:00", "update_date": "2023-05-03T13:43:39.859986-04:00", "main_image": { "id": 374488, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a014000/a014043/Screen_Shot_2021-12-09_at_3.50.54_PM_print.jpg", "filename": "Screen_Shot_2021-12-09_at_3.50.54_PM_print.jpg", "media_type": "Image", "alt_text": "Music: \"Kitchen Preparations,\" \"Kinky Boots,\" \"Bossa Baby,\" \"Pleasantville\" and \"Exotic Encounter\" from Universal Production MusicComplete transcript available.", "width": 1024, "height": 574, "pixels": 587776 } } ], "newer_versions": [], "older_versions": [], "alternate_versions": [] }