Yes far bigger.
A red giant would cover the distance from the Sun to the Earth.
A neutron star could be the size of New York City.
A white dwarf is much larger than a neutron star.
Yes, a solar nebula is much larger than a neutron star. In terms of objects in space, neutron stars are tiny; only a few miles across. A stellar nebula such as the one that formed the sun is light years across.
By being far larger - a red giant/supergiant.
A Giant is a star up to 10 times larger than our SunA Super giant is a star 10 times larger than our SunA white dwarf is a stellar remnant about 100 times smaller than our Sun.
An atom is larger than a neutron; a neutron is a part of any atom except a hydrogen atom.
Yes, a nebula is far larger than a neutron star. A neutron star is a few miles across. A nebula is light years across.
A white dwarf is much larger than a neutron star.
A neutron star is the densest object known to us. (Apart from a black hole). See related question.
any giant or supergiant
A supergiant simply is a large giant - so, it is larger (in diameter) than a "regular" giant star.
Yes, a solar nebula is much larger than a neutron star. In terms of objects in space, neutron stars are tiny; only a few miles across. A stellar nebula such as the one that formed the sun is light years across.
Red giant stars are tremendously larger than the sun.
No a pulsar cannot be an unstable red giant. It is nothing more than a neutron star [See related question]
A black hole has more mass than a neutron star, but if you are comparing volume it would depend on the mass of the black hole. A neutron star is estimated to be about 14 miles in diameter, which is larger than the event horizon of a black hole up to about 3.8 times the mass of the sun. A more massive black hole will be larger.
No. The sun is the nearest star to Earth. The next closes star is more than 250,000 times farther away. The sun is larger than the average star, but not a giant.
A giant star is a star with substantially larger radius and luminosity than a main sequence star of the same surface temperature.There are many giant stars.Orange giantsYellow giantsWhite giantsRed giantsBlue giants
Because the atoms inside the neutron star are squashed together to the point that they cannot move anymore, for example a teaspoon of neutron is about 90,000,000 tonnes. So basicly pretty much anything in the universe isn't as dense as that. hope this helps.