The James Webb Telescope is helping scientists capture stunning images of the remains of the youngest known supernova explosion..
Remnants of the supernova Cassiopeia A (or Case A) was formed about 340 years ago. This makes Case A the youngest known supernova debris cloud.
Image taken from the James Webb Telescope of the remains of the Cas A supernova explosion.
Image taken from the James Webb telescope of the remains of the Cas A supernova explosion (Photo: NASA/Space).
In the latest announcement, the James Webb Space Telescope captured images of the outer edge of the material blown by the supernova, orange and red curtains representing hot dust emissions. Material from the exploding star is pushed into the surrounding dust and gas, causing it to heat and glow.Theo Pace.
This helps scientists study more closely what happens when a star dies. Materials released from supernova explosions will disperse throughout the galaxy, building the next generation of stars or planets.
A supernova explosion 4.6 billion years ago formed the Sun and the planets of the solar system, and paved the way for the formation of living elements and organisms.
Case A provides insight into the early stages of planet formation and is therefore closely studied by astronomers to understand how stars explode.
Scientists understand the process by which supernovae propagate the elements that create stars or planets, but they still don’t understand how the first galaxies contained large amounts of cosmic dust. Scientists hope that studying the remains of the Cas A supernova with the James Webb Telescope can reveal this mystery.
Article source: Zing
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The James Webb Telescope could help scientists capture stunning images of the remains of the youngest known supernova explosion. Remains…