Answer:
In the 1980s, the term hypernova was used to describe a theoretical type of supernova now known as a pair-instability supernova. It referred to the extremely high energy of the explosion compared to typical core collapse supernovae. … See more
Properties
Hypernova are now widely accepted to be supernovae with ejecta having a kinetic energy larger than about 10 joules, an order of magnitude higher … See more
A hypernova, also known as a collapsar, is an extremely energetic supernova. The two are not to be confused, even if their formation is very similar. In a supernova, a star shears off its outer matter but leaves a new star at its …
Hypernova is building cutting-edge technologies to enable satellite constellations to commercially operate in Very Low Earth Orbits (VLEO) to achieve next-generation performance in Remote …
What is the difference between a supernova and Hypernova?
A hypernova, also known as a collapsar, is an extremely energetic supernova. The two are not to be confused, even if their formation is very similar. In a supernova, a star shears off its outer matter but leaves a new star at its center, often a neutron star. In a hypernova, the force of the explosion tears the inner star apart too.
What happens to a star during a hypernova?
In a hypernova, the force of the explosion tears the inner star apart too. Hypernovas occur in stars with a mass greater than 30 times that of our Sun. Like in a supernova, as the star runs out of fuel it can no longer support itself under its own gravity. It collapses and subsequently explodes, ...
A hypernova, also known as a collapsar, is a highly energetic supernova resulting from the core collapse of a massive star. While it is similar to a supernova, it is far more powerful and exudes …
A hypernova is a very energetic supernova thought to result from an extreme core-collapse scenario. In this case, a massive star collapses to form a rotating black hole emitting twin energetic jets an…
They're basically supernovae on steroids. Hypernova are about 100 times more powerful than garden-variety supernovae, and only occur with stars that are about 130 to 250 solar masses. Hypernova are much rarer than white dwarfs as stars that 30+ solar masses nearing the end of their lifespan aren’t that common whilst there are 10 billion white dwarfs in the Milky Way alone. The sound wave with the largest energy ever detected is the one that comes from a supermassive black hole in the Perseus galaxy cluster, about 250 million light years from Earth.
Step-by-step explanation:
it's about a hypernova