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NASA’s Hubble telescope is once again demonstrating its capabilities, revealing the mysteries of the universe in spectacular fashion.
The spiral galaxy NGC 298 shines brilliantly in this most recent breathtaking photo taken from the NASA/ESA Hubble Space Telescope. This galaxy, which is about 89 million light-years away in the constellation Cetus, appears alone with only a few distant galaxies and background stars.
The most notable feature of NGC 298 is that it formerly hosted a Type II supernova, a catastrophic stellar explosion, in one of the most severe astronomical disasters.

When a massive star, typically eight times the mass of the Sun, runs out of nuclear fuel, a tremendous explosion occurs. At this point, the star’s core collapses under its own gravitational force, releasing an enormous amount of energy that causes the outer layers of the star to be ejected in a violent explosion.
This spectacular explosion begins when a giant star, typically eight times more massive than the Sun, runs out of nuclear fuel. At this point the outer layers of the star are ejected in a violent explosion as the core of the star collapses under the influence of its own gravity and releases tremendous amounts of energy.
See also: NASA’s James Webb, Hubble and Chandra X-ray Observatory collaborate to reveal spectacular space structures
By probing the region around supernova explosions, scientists can find remnants of the parent star’s past within the lost material. They may also spot additional stars that underwent this catastrophic event.
To better understand the complex relationship between these spectacular events and the star systems that produced them, Hubble studied the outcome of several Type II supernovae during the brief periods between their scheduled observations.
cover image: ESA
[ad_1]
NASA’s Hubble telescope is once again demonstrating its capabilities, revealing the mysteries of the universe in spectacular fashion.
The spiral galaxy NGC 298 shines brilliantly in this most recent breathtaking photo taken from the NASA/ESA Hubble Space Telescope. This galaxy, which is about 89 million light-years away in the constellation Cetus, appears alone with only a few distant galaxies and background stars.
The most notable feature of NGC 298 is that it formerly hosted a Type II supernova, a catastrophic stellar explosion, in one of the most severe astronomical disasters.

When a massive star, typically eight times the mass of the Sun, runs out of nuclear fuel, a tremendous explosion occurs. At this point, the star’s core collapses under its own gravitational force, releasing an enormous amount of energy that causes the outer layers of the star to be ejected in a violent explosion.
This spectacular explosion begins when a giant star, typically eight times more massive than the Sun, runs out of nuclear fuel. At this point the outer layers of the star are ejected in a violent explosion as the core of the star collapses under the influence of its own gravity and releases tremendous amounts of energy.
See also: NASA’s James Webb, Hubble and Chandra X-ray Observatory collaborate to reveal spectacular space structures
By probing the region around supernova explosions, scientists can find remnants of the parent star’s past within the lost material. They may also spot additional stars that underwent this catastrophic event.
To better understand the complex relationship between these spectacular events and the star systems that produced them, Hubble studied the outcome of several Type II supernovae during the brief periods between their scheduled observations.
cover image: ESA










