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All stars and stellar remnants.
Earth is smaller than even the smallest star, not counting dead stellar remnants.
Sirius B is a white dwarf. So it is low mass compared to other stellar remnants.
Condensed clouds of interstellar gas that originally assembled from the remnants of nova or supernova stellar explosions that occurred many eons before our Solar System was formed.
Neutron stars are considered stellar remnants, hence are already dead. What you see is just a hot and dead core. It will remain floating for the duration of the universe unless affected by external forces, slowly cooling.
Astronomy Observations and Theories - 2005 Stellar Remnants 1-11 was released on: USA: 21 June 2006
All stars and stellar remnants.
black holes white dwarfs or nuetron stars
White dwarfs are stellar remnants, so it a simplified form, they are dead stars.
The Crab Nebula is the remains of a supernova that was observed in 1054.It is the stellar remnants of a star that exploded thousands of years ago.I've not heard of it being referred to as a "stellar graveyard" but I guess it is because of the death of the host star.
All stars shine. That is what they do. For stellar remnants, the only one is a black dwarf [See related question]
Either a neutron star or a black hole. Note: These are not really stars but stellar remnants.
Virgo is home to a wealth of galaxies, many of which have large central black holes.
Earth is smaller than even the smallest star, not counting dead stellar remnants.
Earth is smaller than even the smallest star, not counting dead stellar remnants.
Sirius B is a white dwarf. So it is low mass compared to other stellar remnants.
It could be anything. * Stellar remnants * Neutron star * Standard candles * Symbiotic variable star * Black hole * Nebula