Smaller stars like our own expand into a red giant and then eventually collapse into a white dwarf, the more larger stars like a bright giant star expand into a hyper giant or a super giant. Super giant stars can go supernova and collapse into a neutron star, a white dwarf, or a black hole. The hyper giant stars go hypernova and make a gamma ray that eventually ends into a black hole.
Yes. As with everything and anything in the universe, stars get older as time passes. When as star is very very old and ready to die, sometimes it will expand to a massive size (a red giant) due to the lack of gravity from the center to keep the gases close by and then collapse into a neutron star.
Massive stars with at least eight times the mass of the Sun end their lives as supernovae. During their final stages, they undergo a rapid collapse and explosion, releasing an immense amount of energy and forming a bright supernova.
When a star dies, it can leave behind different types of stellar remnants depending on its mass. Some examples include white dwarfs, neutron stars, and black holes. White dwarfs are formed from the remnants of low to medium mass stars, neutron stars are formed from the remnants of massive stars, and black holes are formed from the remnants of the most massive stars.
Betelgeuse will die in a massive explosion called a supernova. When this happens it will appear brighter than the full moon.
Prof. Brian Cox provides a great explanation in episode 2 of his excellent TV series 'Wonders of The Universe'. In short, many elements can only be created in the extreme conditions which exist within stars as they burn all their internal fuel and gradually 'die'. As they die, massive changes take place within stars, creating the conditions which are required to create different types of elements.
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.
Massive stars are brighter, they burn up faster, and they die younger, usually in very energetic explosions.
Most black holes are believed to form when very massive stars die.
Not all stars do but stars can turn into black holes. Small ones turn in to a black dwarf star when it dies. Medium ones turn in to a neutron then in to a red giant star and then to white dwarf star Large size stars becomes a blackhole..........
Massive, big, and very luminous stars turn into black holes most of the time
Yes they can
Once each. After that, they typically remain dead.
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.
we all die
Yes. As with everything and anything in the universe, stars get older as time passes. When as star is very very old and ready to die, sometimes it will expand to a massive size (a red giant) due to the lack of gravity from the center to keep the gases close by and then collapse into a neutron star.
Massive stars may undergo a supernova explosion at the end of their cycle, leading to the formation of neutron stars or black holes. This explosive event releases a vast amount of energy and is responsible for seeding the surrounding space with heavy elements.