In the near future, the constellation of the Hunter will become the home of the first supermassive black hole.
This will create a massive supernova.
This event will be the largest in the history of the universe, the researchers say.
They predict that the Hunter’s star will explode with a blast of gamma rays.
The supernova will leave a supermassive, black hole that will weigh more than one billion times the mass of the Sun.
The giant black hole will then collapse, releasing massive amounts of energy into the surrounding space.
The event will take place in about a billion years, about 3 billion years before the end of the Universe.
The astronomers hope to use this new information to study the evolution of stars, the formation of galaxies, and the fate of planets and stars in the universe.
A supermassive Black Hole A black hole is a massive, central star that can be millions of light-years away.
They are created when a large amount of matter is accelerated by gravity to extremely high speeds.
If it is located far enough away from the center, gravity will push it towards the center of the galaxy, creating a magnetic field that pulls the star closer to its center.
The center of a supernova The most massive black holes exist in the centers of galaxies and in the centres of stars.
These supermassive stars are so massive that they can only contain a certain amount of material.
The rest of the star is destroyed by the star’s destruction.
This means that the stars mass is contained within them, making the supermassive star a black hole at the center.
This mass can then accelerate to the point where the star collapses and the black hole explodes.
The black hole in question is the Hunter star, which lies in the constellation Ursa Major.
The Hunter is a supergiant black hole located in the middle of the Andromeda Galaxy.
The galaxy is a small region in the center where there are a few hundred billion stars.
The Andromeda galaxy is the largest galaxy in the Milky Way.
The universe has evolved over billions of years from its very beginning to its present.
The star is the most massive object in the galaxy.
It is about one billion light-seconds in diameter, about the size of Jupiter.
The most important object in this galaxy is known as the Andromeda nebula.
It consists of thousands of galaxies in a cluster of stars and contains billions of stars at its center and a few thousand stars farther out in the cluster.
The location of the supergiance is located in a region called the Galactic Center.
This is the location where the Andromeda and the Andromeda galaxy meet.
The main object in a supergiant black hole A supergiants black hole can only hold about a tenth of the mass in a normal galaxy.
This black hole has to be extremely massive to make the supernova, but it is very unstable.
This unstable state can make the star explode, which could produce a massive explosion.
This supermassive explosion is known to be the source of some of the most destructive explosions in the Universe, such as the explosion of a star, a supernovae, and a supercluster of stars or galaxies.
Astronomers estimate that the supergianted supermassive is capable of producing about one million times more energy than the sun in the form of gamma ray bursts.
This would produce enough energy to create the biggest supernova in the entire Universe, or to create a galaxy that is 1 billion light years across.
The researchers have identified two other supergiated supermassive objects in the Andromeda region, one in the M65 region and one in another cluster, called the M66 region.
They also identified a supermega black hole, the Hunter, in the same region.
These two objects have similar masses, so it is possible that they form in similar ways.
These objects could have been formed from similar stellar sources in the region, but this is still unknown.
What is known is that the mass is not only in the black holes core, but also in its surrounding matter.
This makes it possible to measure the amount of mass in these black holes.
This data will help scientists to better understand the formation and evolution of the galaxies in which these black hole exist.
These data will also help astronomers understand the properties of these stars, as they form stars.
Hunter star is a star in the Hunter galaxy.
The research was published in the journal Nature on July 23, 2017.