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.
Yes, a nebula is far larger than a neutron star. A neutron star is a few miles across. A nebula is light years across.
Yes, the first neutron star was observed in a supernova remnant. The object, named PSR B1919+21, was discovered in 1967 in the Crab Nebula, the remnant of a supernova that exploded in the year 1054 AD.
A nebula galaxy does not exist.
most likely Beteleuse will become a neutron star after the nebula that it will create dies away.
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.
Nebula, The solar system, The sun, Jupiter, Earth, Mars, The moon, Pluto, Neutron Star
After a planetary nebula the oxygen in the middle will make it turn into a blackhole or neutron star.
A nebula may condense and ignite to become a star, conversely a star may explode and form a nebula.
Pulsars were discovered in the Crab Nebula, a supernova remnant, in 1967. The Crab Pulsar is a neutron star at the center of the nebula that emits beams of radiation, producing regular pulses of light. The high-energy particles and magnetic fields in the nebula power the pulsar's emission.
From largest to smallest: Nebula, Solar System, Sun, Jupiter, Earth, Mars, Moon, Pluto, neutron star.
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
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.