The process of the stellar explosion is called a "nova", or if powerful enough, a "supernova". The outer layers of gas are blown away into space, and this shell of fleeing gas is sometimes called a "supernova remnant", or more generally, a "nebula". For example, the Crab Nebula is the gas cloud left over after a supernova explosion which was brilliantly visible here on Earth in the year 1054.
From a regular nova explosion, we might expect to find a neutron star or pulsar as a remnant. From a supernova explosion, depending on the initial mass of the star and the intensity of the explosion, we expect that a black hole will remain.
If the star is heavy enough it will produce a supernova; if not it evolves into a white dwarf.
Depending on the mass of the originator star - either a black hole or a neutron star.
See related questions.
After a star explodes, the remaining core may form a white dwarf, a neutron star, or a black hole, depending on the mass remaining after the explosion.
black holes sometimes
Supernova
White Dwarf
Super nova
White dwarf
Supernova
Supernova
The explosion (a supernova) produces a glowing cloud of gas (called a nebula) that slowly expands and dissipates (eg the crab nebula).
A neutron star
A black hole or a neutron star, depending on the mass of the remaining core. Also a lot of material is ejected into space.
Supernova
Supernova
Supernova
Its blown into interstellar space - to enrich and mix with the gasses already out there.
The explosion (a supernova) produces a glowing cloud of gas (called a nebula) that slowly expands and dissipates (eg the crab nebula).
A neutron star
A black hole or a neutron star, depending on the mass of the remaining core. Also a lot of material is ejected into space.
It is a supergiant.(the late stage in the life cycle of a massive starin which the core heats up, heavy elements formedby fusion, and expands; it can eventually explodeto what scientist call a supernova.)-Missy K
After a high mass star explodes, the leftover material forms a remnant called a neutron star or a black hole. If the core of the star is less than about 3 times the mass of the Sun, it collapses to form a neutron star. If the core is more massive, it collapses further, causing the gravitational collapse to form a black hole.
The OUTER CORE
Yes, if the star is massive enough when the core collapses a supernova explosion happens.
Neutron stars could form in places where there are high-mass stars. After the star runs out of fuel in its core, the core collapses while the shell explodes into the space as supernova. The core would then become a neutron star, it might also become a black hole if it is massive enough.