How Will #MissionToPsyche See Its Target Asteroid?
#asteroid #targetasteroid #missionpsyche #psyche #mars #moon #space #rocketlaunch #spaceexploration #marsexploration# nasamission #nasaspacemission #spacemission #astrology #spaceimaging #spacetechnology #spacescience #moonexploration #jupiter #stakleytingo #wolfchamp #lunar #lunarexploration #spacecraft #spacrocket #spaceshuttel
How Will #MissionToPsyche See Its Target Asteroid?
NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before.
Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems.
Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation.
Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system.
Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029.
Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/.
Credit: NASA/JPL-Caltech/ASU
Produced by: True Story Films
Wolf Champ
How Will #MissionToPsyche See Its Target Asteroid?
NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before.
Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems.
Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation.
Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system.
Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029.
Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/.
Credit: NASA/JPL-Caltech/ASU
Produced by: True Story Films
Wolf Champ
How Will #MissionToPsyche See Its Target Asteroid?
NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before.
Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems.
Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation.
Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system.
Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029.
Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/.
Credit: NASA/JPL-Caltech/ASU
Produced by: True Story Films
Wolf Champ
How Will #MissionToPsyche See Its Target Asteroid?
NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before.
Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems.
Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation.
Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system.
Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029.
Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/.
Credit: NASA/JPL-Caltech/ASU
Produced by: True Story Films
Wolf Champ
How Will #MissionToPsyche See Its Target Asteroid?
NASA’s Psyche spacecraft will use highly sensitive cameras to allow scientists to see a metal-rich asteroid that’s never been imaged up close before.
Planetary scientist and Psyche mission co-investigator Jim Bell of Arizona State University, along with his instrument team, developed this critical technology in collaboration with Main Space Science Systems.
Psyche’s multispectral imager consists of a pair of identical cameras with filters and telescopic lenses that will photograph the surface of the asteroid in different wavelengths of light. It will provide the data needed to build a digital terrain model of the asteroid’s surface, contribute to revealing Psyche’s geochemistry and composition, and help with navigation.
Whether the asteroid Psyche is the partial core of a planetesimal (a building block of the rocky planets in our solar system) or primordial material that never melted, scientists expect the mission to help answer fundamental questions about Earth’s own metal core and the formation of our solar system.
Psyche is expected to launch in October 2023. The spacecraft will begin orbiting the asteroid Psyche in 2029.
Learn about this first-of-its-kind mission at: https://www.nasa.gov/psyche/.
Credit: NASA/JPL-Caltech/ASU
Produced by: True Story Films
Wolf Champ
-
5:08
Planetzer0
9 months agoJourney to the Moon: NASA's Exclusive Guided Expedition
23 -
1:09
Amazing Planet
9 months agoCaught on Tape 2023, UFO 2023, 'Black Knight' Satellite Sighting Near Space Shuttle
363 -
2:44
Viral Tab News
2 years agoNASAs Lucy Spacecraft Has Left Earth On A 12 Year Long Asteroid Exploring Mission
249 -
4:09
tigz15
1 year agoAround Asteroid to Capture Sample
9 -
0:55
Amazing Planet
9 months agoUFO Footage 2023 - Giant Unidentified Object Leave Giant Trail in Sky Over California
345 -
7:48
Best Product Reviews
9 months agoAI algorithm discovers 'potentially hazardous' asteroid 600 feet wide in a 1st for astronomy -...
3731 -
14:09
ZEEY1
1 year agoPSYCHE: A NEW MISSION TO THE "GOLDEN ASTEROID" IN 2023 | ASTEROID MINING | -HD
20 -
1:04
Amazing Planet
9 months agoCaught on Tape 2023, UFO 2023 - The 'Giant Crawlers' on Mars Found by Nasa Satellite
205 -
9:39
CampBrood
1 year agoExploring Huntsville's US 🇺🇸 Space & Rocket 🚀 Center for an Unforgettable Journey to the Stars!🤩
512 -
1:14
Amazing Planet
9 months agoCaught on Tape 2023, UFO 2023, Bright 'City Lights' Found on Ceres by NASA
214