The collapses star gets squeezed by collapses gas and turns into a black hole.
The collapse of massive stars - the same as neutron stars.
Yes, most massive stars (at least eight times the mass of our Sun) will end their life cycle by collapsing into a black hole. This happens after they have gone through the stages of supernova explosion and core collapse.
Yes. When the most massive stars die, their cores collapse to form black holes.
Yes. When the most massive stars die, their cores collapse to form black holes.
By the gravitational collapse of massive stars - once they stop producing energy.
Massive stars do not cool as they collapse, the collapse in on themselves because their cores become too heavy and dense, these atoms in the core are in an area so dense and so hot that it continues to increase its temperature as it explodes.
When a star dies the core collapses, but in most cases collapse stops at the level of either a white dwarf or a neutron star. The internal pressure of the remnant core is enough to stop further collapse. Only the most massive stars have strong enough gravity to overcome these forces and collapse into black holes.
Most massive stars will eventually form black holes after they go through their life cycle of burning through their nuclear fuel, leading to a supernova explosion. The remnants of the supernova collapse into a dense core, which, if above a certain mass threshold, will become a black hole due to the force of gravity overwhelming other forces.
In the last stage of stellar evolution, stars too massive to form neutron stars may collapse into black holes following a supernova explosion. When these massive stars exhaust their nuclear fuel, their cores collapse under gravity, leading to an event horizon that characterizes a black hole. The outer layers are expelled during the supernova, while the core's collapse results in an incredibly dense singularity from which nothing, not even light, can escape. This process marks the end of the star's life cycle, transitioning it into a black hole.
The first category is the white dwarf these are the stars that our Sun will become. The second category are the more massive stars that will collapse down to neutron stars. The final category is a black hole.
When they run out of fuel they collapse and become black holes.
The three corpses of stars are white dwarfs, neutron stars, and black holes. White dwarfs are remnants of low to medium-mass stars that have shed their outer layers, leaving behind a hot core. Neutron stars form from the collapse of massive stars in supernova explosions and are incredibly dense, composed mostly of neutrons. Black holes result from the gravitational collapse of very massive stars, creating regions in space with gravity so strong that not even light can escape.