No. A neutron star is quite small, generally only a few miles across. A nebula is light years across.
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.
A subgiant star is bigger than a neutron star. Neutron stars are incredibly dense and compact, with a radius of about 10-15 kilometers, while subgiant stars have a larger radius of several million kilometers.
A white dwarf is much larger than a neutron star.
A subgiant star is larger than a neutron star. Neutron stars are incredibly dense and compact remnants of massive stars, while subgiant stars are in a transitional phase between main sequence and red giant stages, typically larger and more diffuse than neutron stars.
Yes, a neutron star is much more massive and denser than a planet. Neutron stars are formed from the remnants of massive stars and are typically only a few kilometers in diameter, while planets can be thousands of kilometers in size.
Yes, a nebula is far larger than a neutron star. A neutron star is a few miles across. A nebula is light years across.
No, a neutron star can't become a nebula. A neutron star is not made of atomic matter, has less mass than a nebula, and has no mechanism by which to expand.
No. A neutron star is quite small, generally only a few miles across. A nebula is light years across.
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.
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.
A subgiant star is bigger than a neutron star. Neutron stars are incredibly dense and compact, with a radius of about 10-15 kilometers, while subgiant stars have a larger radius of several million kilometers.
No galaxies is way biger than a star, a star is .0000765% of a galaxy.
A white dwarf is much larger than a neutron star.
No. While a neutron star has more mass than the sun, it is compressed into a very small area about the size of a city.
A Galaxy is far bigger than a nebula.
A typical neutron star has a diameter of about 24km our Sun has a diameter of 1.392×106 km So our Sun is about 58,000 times bigger than a neutron star.
No. A nebula is a billion, if not more, times larger than our Sun