When fusion stops in a star it will start to fuse helium and will become a red giant.
A neutron star or a pulsar, or a black hole.
No. A black hole will remain a black hole. A neutron star is a remnant of a star not massive enough to become a black hole.
Technically a dead star is when a star no longer undergoes nuclear fusion. Depending on the mass of the original star this will either be a white dwarf, neutron star or black hole. These are called stellar remnants.
No, some leave a black hole instead of a neutron star.
A star, after using all of it's fuel explodes. We call this a super nova, and after this the star will either become a black dwarf star (or maybe a white dwarf) or it will collapse in on its self creating a black hole.
The other option is a white dwarf.
Some massive stars will become neutron stars. When massive stars die they will either become neutron stars or black holes depending on how much mass is left behind.
No. They do not have enough mass to become black holes. Depending on the mass they will either become white dwarfs or neutron stars.
Depending on the Mass of the core, they either become a Neutron Star or a Black Hole.
A neutron star or a pulsar, or a black hole.
It can either become a neutron star or a black hole. If the star is between 8 and 15 solar masses, it will become an incredibly dense neutron star. If it is more than 15 solar masses, it will collapse and become an even denser black hole.
White dwarves, neutron stars, and black holes.
Copper can only form in supernova explosions, when a dead star collapses to become either a neutron star or a black hole.
Technically a dead star is when a star no longer undergoes nuclear fusion. Depending on the mass of the original star this will either be a white dwarf, neutron star or black hole. These are called stellar remnants.
No. A black hole will remain a black hole. A neutron star is a remnant of a star not massive enough to become a black hole.
The strong gravity of the core of a dead high-mass star causes a neutron star to form. When the high-mass star becomes a supernova and leaves a core behind, the core no longer undergo fusion. Without fusion, gravity starts to push the core inward until most protons and electrons are crushed into neutrons, a neutron star forms. If the core is too massive, the neutron star would collapse and become a black hole.
Either a neutron star or a black hole.