James Webb and the Hubble Space Telescope captured evidence of the Dart effect from incredibly great distances. scientific results Show the structure, amount and possible degree of dimorphoses In which the NASA experiment moved the asteroid.
Scientists will use these collected images to develop a new planetary defense strategy to protect Earth from potentially dangerous asteroids.
The James Webb Telescope captured an image of the Didymos-Dimorphos system before the collision and several hours after the event. During the five-hour observation, Photographed ten times from the second Sun-Earth Lagrange pointSpecifically, 9.7 million kilometers from Didymos.
astronomers Used Near Infrared Camera (NIRCam) Dart to observe. The European Space Agency said in a statement that the images “show a tight and compact core, containing clumps of material that appear as wisps moving away from the center where the impact occurred.”
Scientists Track Binary Asteroid System for Several Weeks as James Webb Telescope had to move three times faster within your desired range.
The Mid-Infrared Instrument (MRI) and Near-Infrared Spectrograph (NIRSPC) Didymos-Dimorphos will continue to monitor the system in the coming months.
On the other hand, the Hubble Space Telescope took before and after images of the binary asteroid system. your field camera Captured 45 visible light images of the testPhotographing his first after-effects scene about 15 minutes after the dart’s collision.
The result shows a large amount of surface material emanating from the dimorphos, whose body the rays radiate from. Hubble Get 10 more systems overview To ‘paint’ a more complete picture of the cloud’s expansion until it disappears from the ejection over the next three weeks.
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