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A nebula contains stars and other matter; a supernova is just a large enough nova, or star that explodes at the end of its life cycle due to spent fuel
Nebula, white dwarf, red giant, black hole
protostar, main sequence, giant, nebula, white dwarf & black dwarf.
A nebula is a cloud of gas (hydrogen) and dust in space. Nebulae are the birthplaces of stars.
most likely Beteleuse will become a neutron star after the nebula that it will create dies away.
In the nebula!
stellar nebula
most of the times a planetary nebula lives for 5,000 years
None at all/ The life cycle of a star is based on it's initial mass, not where it was formed.
Stellar Nebula - Average Star- Red Giant - Planetary Nebula - White Dwarf Stellar Nebula - Massive Star - Red Super Giant - Super Nova- Neutron Star Stellar Nebula - Massive star - Red Super Giant -Super Nova - Black Hole
A nebula contains stars and other matter; a supernova is just a large enough nova, or star that explodes at the end of its life cycle due to spent fuel
Nebulas are interstellar clouds made of dust and gases and a pulsar is a kind of star. A pulsar is formed inside of a nebula, therefore a scientist could conclude that without a nebula a pulsar could not exist.
Nebula, white dwarf, red giant, black hole
middle aged, in the center of its 10 billion year life cycle, as with ashes to ashes, dust to dust, nebula to nebula, musted gases to musted gases.
protostar, main sequence, giant, nebula, white dwarf & black dwarf.
A star's life cycle starts from a nebula. For giant stars, the star turns into a huge star to a super red giant to a supernova to a black hole. A sun-like star turns to a red giant, then a planetary nebula, a white dwarf, and then a black dwarf.
When a nebula collapses under the right conditions it forms a star. Larger stars end their life-cycle as black holes. For more information try searching for "stellar evolution."