Well, after a magnificent supernova explosion, we are left with either a dense core called a neutron star or, if the star was very massive, a black hole. These remnants continue to inspire the formation of new stars and galaxies in the endless beauty of our universe. Just remember, there is always something beautiful waiting to emerge after every cosmic event.
it is Supernova
The core of a star left over from a supernova explosion is called a neutron star. Neutron stars are incredibly dense, composed mostly of neutrons, and have strong gravitational and magnetic fields. They can be very small in size but contain a mass greater than that of our Sun.
SuperNova
Leftover materials from a star explosion, specifically a supernova, are called supernova remnants. These remnants consist of gas, dust, and heavier elements that are expelled into space during the explosion. Over time, they can contribute to the formation of new stars and planets as they mix with surrounding interstellar material. Notable examples of supernova remnants include the Crab Nebula and the Cassiopeia A.
One way a star might die is by going through a supernova explosion. This explosion can release massive amounts of energy and trigger the formation of a new star through the remnants left behind, such as in a supernova remnant.
The universes most acurate time clock, a pulsar.
Either a black hole, or a neutron star. That depends on how much mass is left after the supernova explosion.
It is yes
No, not a supernova.
it is Supernova
The core of a star left over from a supernova explosion is called a neutron star. Neutron stars are incredibly dense, composed mostly of neutrons, and have strong gravitational and magnetic fields. They can be very small in size but contain a mass greater than that of our Sun.
it is a steller explosion
supernova
A supernova.
SuperNova
Supernova
The energy output of a supernova explosion is equivalent to the energy produced by the sun over its entire lifetime.