Depending on the mass a star may live 10million to 200billion years!
1million to about 10 million years
It may be either. Juvenile means young.
A supernova (plural: supernovae or supernovas) is a stellar explosion that creates an extremely luminous object.Check the link given for more information.
Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.
Massive stars get hotter, burn their fuel faster, and therefore live shorter.With respect to their "death": Stars of "normal" mass become white dwarves; more massive stars become neutron stars, and the most massive stars become black holes.
Neutron Star
Usually a neutron star, or a black hole, depending on the remaining mass.
A high-mass star will use up its fuel faster than a low-mass one. Depending on the amount of mass that remains at the end of its life, it may convert to a neutron star, or to a black hole.
It may be either. Juvenile means young.
A supernova (plural: supernovae or supernovas) is a stellar explosion that creates an extremely luminous object.Check the link given for more information.
Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.
That may vary, depending on the initial velocity and mass.That may vary, depending on the initial velocity and mass.That may vary, depending on the initial velocity and mass.That may vary, depending on the initial velocity and mass.
Yes it does to a certain extent.The colour of a star depends almost exclusively on its initial mass.The initial mass determines the evolution of the star. Depending on the initial mass it may become a neutron star,a black hole, a supernova, a nova, a white dwarf, a red giant. Ultimately it will be a burned out cinder, a black dwarf or nothing at all except Hawking radiation
No. A supernova is star that is exploding. If any planets are orbiting a star that explodes, they will be destroyed. There is evidence that after a supernova new planets may form from the debris cloud left behind and orbit the stellar remnant, which will be either a neutron star or a black hole depending on the mass of the star that exploded..
the life san of stars is like if you had everyone bring in candles into the class,some would be round,some would be tall and skinney,and they all would go ot at different times.the round candles may take a lung time to go out, while tea lights may last only a short period of time.just like stars
Massive stars get hotter, burn their fuel faster, and therefore live shorter.With respect to their "death": Stars of "normal" mass become white dwarves; more massive stars become neutron stars, and the most massive stars become black holes.
A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.A neutron star may be considered "already dead"; it has stopped producing energy. A neutron star will gradually get dimmer, as it cools down. If it gathers enough mass from its surroundings, it may turn into a black hole.
The general name is a 'Pulsar'. The reason for the pulsation may differ depending on the star system.