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The difference is in mass. Low to medium mass stars (up to about 8-10 solar masses) become white dwarfs. Massive stars (10 to 25 solar masses) become neutron stars. Stars above 25 solar masses tend to become black holes.
Yes, both black holes and neutron stars are remnants of the death of massive stars. Neutron stars form when the core of a massive star collapses but does not produce a black hole. Black holes are formed when the core of a massive star collapses beyond the neutron star stage.
Neutron stars and black holes.
No, black holes cannot turn into neutron stars. Neutron stars form from the remnants of supernova explosions of massive stars, while black holes are formed from the gravitational collapse of massive stars. Once a black hole is formed, it will remain a black hole and will not transform into a neutron star.
Black holes, neutron stars, and the white dwarfs
'Black holes' and neutron stars.
No. Only black holes have event horizons.
The stars produced during a supernova event are known as neutron stars or black holes. Neutron stars are extremely dense remnants of massive stars, while black holes are formed when the core of a massive star collapses. Both neutron stars and black holes have unique properties and play a significant role in the cosmic landscape.
Stars that become white dwarfs die but become black holes . Neutron stars are born from a Super Nova that stored its energy and became a neutron star.
Neutron stars and black holes are both remnants of massive stars that have undergone gravitational collapse, but they differ significantly in their properties. Neutron stars are incredibly dense objects composed primarily of neutrons, with a mass typically between 1.4 to about 3 solar masses, and they can emit radiation, such as pulsars. In contrast, black holes arise when a massive star collapses beyond a certain threshold, creating a region in space with a gravitational pull so strong that not even light can escape. While neutron stars can be detected via electromagnetic radiation, black holes are identified by their influence on surrounding matter and the detection of gravitational waves from mergers.
neutron stars and black holes
black holes can be formed in a supernova explosion if the mass of the star is largeenoughusually they are created when a massive and dense star like a neutron star collapses