If you mean in the same volume, only a tiny fraction of Earth - the neutron star is much smaller. The radius of a typical neutron star is perhaps 12 kilometers. In comparison, the Earth has a radius of about 6371 kilometers - that makes Earth's volume about 150 million times greater. (On the other hand, the neutron star has a much greater mass than Earth.)
No. A neutron star is many times denser than a white dwarf.
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Neutron stars do not have fuel. A neutron star is a remnant of a star that has already died.
It is still called a neutron star. Depending on how we observe it, it may also be called a pulsar.
A Neutron Star
There are no moons around a neutron star. A large, spherical body orbiting a neutron star would be considered a planet.
There is an upper limit to the mass of neutron stars because if the neutron star is too massive, neutrons would be crushed by the gravity of the neutron star, and the neutron star would collapse into a black hole.
According to the Wikipedia, a newly formed neutron star would have a temperature of 1011 - 1012 Kelvin, but after a year, it will cool down to 106 (a million) Kelvin, due to the large number of neutrinos it emits.
That would be a collission between two neutron stars. Since many stars are actually double stars, this can happen now and then.
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Diameter, I assume. That would be a neutron star.
No. A neutron star is many times denser than a white dwarf.
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It is extremely unlikely that a neutron star (or any star or planet) will collide with the Earth, so this is not something that you need to worry about, however, if a neutron star were to collide with the Earth, the Earth would be captured by the intense gravitational field of the neutron star, and would be absorbed by the star. Under sufficient pressure, electrons and protons will merge to form neutrons, and so the atomic matter of which the Earth is composed can be converted into pure neutrons.
Neutron stars are formed when stars with more than 8 times the mass of the Sun run out of fuel and explodes as a supernova. After the star explodes, the core of the star remains, the core would then become a neutron star or a black hole. If the core remain is less than 3 times the mass of the sun, it would become a neutron star.
There are 10 teaspoons in one star
Neutron stars do not have fuel. A neutron star is a remnant of a star that has already died.