{ "count": 6, "next": null, "previous": null, "results": [ { "id": 4820, "url": "https://svs.gsfc.nasa.gov/4820/", "result_type": "Visualization", "release_date": "2020-05-08T06:00:00-04:00", "title": "NOAA-20 satellite orbit with Suomi NPP and JPSS-2", "description": "This short visualization shows the orbit of NOAA-20 along with Suomi NPP. The camera rotates to a view perpendicular to the orbit plan, showing the half-orbit separation between the two satellites. || NOAA20_orbit_snpp.2500_print.jpg (1024x576) [65.1 KB] || NOAA20_orbit_snpp.2500_searchweb.png (320x180) [63.3 KB] || NOAA20_orbit_snpp.2500_thm.png (80x40) [4.0 KB] || NOAA20_orbit_with_SNPP_1080p30.mp4 (1920x1080) [19.5 MB] || NOAA20_orbit_with_SNPP_1080p30.webm (1920x1080) [6.2 MB] || noaa20_snpp (3840x2160) [0 Item(s)] || NOAA20_orbit_with_SNPP_2160p30.mp4 (3840x2160) [58.7 MB] || NOAA20_orbit_with_SNPP_1080p30.mp4.hwshow [196 bytes] || ", "hits": 87 }, { "id": 13062, "url": "https://svs.gsfc.nasa.gov/13062/", "result_type": "Produced Video", "release_date": "2018-09-10T10:00:00-04:00", "title": "ICESat-2 Por Los Números (en Español)", "description": "ICESat-2 es un láser espacial de gran precisión que integra la tecnología más puntera de la NASA. Para poder medir la altura del hielo del planeta, los ingenieros deben llevar el instrumento ATLAS de ICESat-2 al extremo: a veces yendo a lo grande, otras a lo pequeño, pero siempre manteniéndolo preciso.ICESat-2 is an incredibly precise space laser that features the latest in NASA technology. To measure ice heights, engineers have to take ICESat-2’s instrument ATLAS to the extreme – sometimes going big, sometimes going small, but always keeping it precise.Click here for English-language versions. || ", "hits": 24 }, { "id": 4613, "url": "https://svs.gsfc.nasa.gov/4613/", "result_type": "Visualization", "release_date": "2018-01-31T00:00:00-05:00", "title": "JPSS Concept of Operations: Constellation Management", "description": "This visualization illustrates how JPSS-1 (now NOAA-20) orbit phasing and raising works relative to SNPP, the notional way SNPP can be maneuvered a quarter-orbit along-track separation from JPSS-1 prior to launch of JPSS-2, and how a three-satellite constellation operates on a sun-synchronous orbit node-crossing including sensor-swath footprints as the world turns below.This video is also available on our YouTube channel. || jpss_constellationManagement_05235_print.jpg (1024x576) [65.1 KB] || jpss_constellationManagement_05235_searchweb.png (320x180) [54.3 KB] || jpss_constellationManagement_05235_thm.png (80x40) [4.3 KB] || JPSS_constellationManagement_Full (1920x1080) [0 Item(s)] || jpss_constellationManagement_full_1080p30.webm (1920x1080) [34.8 MB] || jpss_constellationManagement_full_1080p30.mp4 (1920x1080) [250.4 MB] || jpss_constellationManagement_full_1080p30.mp4.hwshow [207 bytes] || ", "hits": 60 }, { "id": 12768, "url": "https://svs.gsfc.nasa.gov/12768/", "result_type": "Produced Video", "release_date": "2017-11-03T00:00:00-04:00", "title": "ICESat-2 By the Numbers", "description": "ICESat-2 is an incredibly precise space laser that features the latest in NASA technology To measure ice heights, engineers have to take ICESat-2’s instrument ATLAS to the extreme – sometimes going big, sometimes going small, but always keeping it precise. || ", "hits": 46 }, { "id": 12643, "url": "https://svs.gsfc.nasa.gov/12643/", "result_type": "Produced Video", "release_date": "2017-06-23T09:30:04-04:00", "title": "The Joint Polar Satellite System", "description": "JPSS -- THE JOINT POLAR SATELLITE SYSTEMThe Joint Polar Satellite System, or JPSS, is a collaboration between the National Oceanic and Atmospheric Administration (NOAA) and the National Aeronautics and Space Administration (NASA). This interagency effort is the latest generation of U.S. polar-orbiting, non-geosynchronous environmental satellites. As the backbone of the global observing system, JPSS polar satellites circle the Earth from pole-to-pole and cross the equator about 14 times daily in the afternoon orbit—providing full global coverage twice a day. Satellites in the JPSS constellation gather global measurements of atmospheric, terrestrial and oceanic conditions, including sea and land surface temperatures, vegetation, clouds, rainfall, snow and ice cover, fire locations and smoke plumes, atmospheric temperature, water vapor and ozone. JPSS delivers key observations for the Nation's essential products and services, including forecasting severe weather like hurricanes, tornadoes and blizzards days in advance, and assessing environmental hazards such as droughts, forest fires, poor air quality and harmful coastal waters. Further, JPSS will provide continuity of critical, global Earth observations— including our atmosphere, oceans and land through 2038. || JPSS_GoT_w_music_and_FX_v2_FB720p.05378_print.jpg (1024x576) [145.3 KB] || JPSS_GoT_w_music_and_FX_v2_FB720p.05378_searchweb.png (320x180) [91.8 KB] || JPSS_GoT_w_music_and_FX_v2_FB720p.05378_thm.png (80x40) [5.9 KB] || JPSS_GoT_w_music_and_FX_v2_AppleTV_subtitles.m4v (1280x720) [57.4 MB] || JPSS_GoT_w_music_and_FX_v2_FB720p.mp4 (1280x720) [133.7 MB] || JPSS_GoT_w_music_and_FX_PR422_YT1080p.mp4 (1920x1080) [180.1 MB] || JPSS_GoT_w_music_and_FX_PR422_YT720p.mp4 (1280x720) [178.0 MB] || JPSS_GoT_w_music_and_FX_v2_AppleTV.m4v (1280x720) [57.3 MB] || JPSS_GoT_w_music_and_FX_v2_Twitter_720p.mp4 (1280x720) [24.9 MB] || JPSS_GoT_w_music_and_FX_PR422_YT720p.webm (1280x720) [12.6 MB] || JPSS_GoT_w_music_and_FX_Large.mp4 (3840x2160) [116.0 MB] || JPSS_GoT_w_music_and_FX_PR422_v3.mov (3840x2160) [12.2 GB] || JPSS_GoT_w_music_and_FX_YT4K.mp4 (3840x2160) [453.9 MB] || JPSS_GoT_w_music_and_FX_v2.en_US.srt [40 bytes] || JPSS_GoT_w_music_and_FX_v2.en_US.vtt [53 bytes] || ", "hits": 71 }, { "id": 11336, "url": "https://svs.gsfc.nasa.gov/11336/", "result_type": "Produced Video", "release_date": "2013-08-14T13:30:00-04:00", "title": "The Aftermath of the Chelyabinsk Meteor as seen by NPP", "description": "The NPP satellite is a prototype of the next generation polar orbiting JPSS series of satellites. NPP provides scientists and weather forecasters with critical continuity of data allowing them to study long-term climate changes and provide improved weather forecasts. The highly accurate five instruments on board NPP have already proven to deliver an exceptional quality of data thus continuing the legacy of satellites like Terra and Aqua.Shortly after local sunrise on February 15th of 2013, a meteor as big as a building reached Earth’s atmosphere and produced a massive explosion above Chelyabinsk, a densely populated Russian metropolis. The highly sensitive OMPS instrument on board NPP observed the plume from the explosion 1,100km eastward. Scientists used the data from this first observation and ran two NASA models to project the path of the plume. The results show that the plume’s higher layer would move ahead of the lower layer due to the difference in wind velocity at higher and lower altitudes. The models also showed that the plume would circumnavigate the entire globe and return to Chelyabinsk by February 19th, 2013. As more OMPS observations came in, it was clear that they coincided with the projected path perfectly. The results from this study proved the accuracy of the models as well as the unprecedented sensitivity of the OMPS instrument. The OMPS instrument was able to detect remains of the plume months after the initial explosion, which helped scientists track and study the plume for a long period of time. Since the Earth is constantly impacted by meteoric debris, an instrument like OMPS gives the scientists hope that in its 5-year design lifetime, they will better understand the effect of meteors and particles on the stratosphere, as well as the chemistry of our stratosphere and atmospheric ozone layer. || ", "hits": 151 } ] }