A normal (but fairly massive) star.
A normal (but fairly massive) star.
A normal (but fairly massive) star.
A normal (but fairly massive) star.
A normal (but fairly massive) star.
The neutron star hasn't atoms.
The name "neutron star" some from the fact that the neutron star is mainly composed of neutrons. The gravitational pull of a neutron star is so strong that most matter are crushed into neutrons.
neutron star
Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.
The neutron star so affected wouldn't really notice. The mass of the neutron star is huge compared to that of the material in the accretion disk. And that matter, when it falls in, wouldn't really "slow" the spin of the star much unless there was a gigantic quantity of matter falling in and/or it acted over a very long period.
A supernova comes before a neutron star. After an aging star undergo supernova explosion, the remaining core of the star becomes a neutron star or a black hole, depending on its mass.
Good sentence for neutron star - WOW ! see that;s a neutron star !!
Good sentence for neutron star - WOW ! see that;s a neutron star !!
Neutron stars do not have fuel. A neutron star is a remnant of a star that has already died.
No. A neutron star ts the remnant of a massive star that exploded.
A neutron star or a pulsar, or a black hole.
A neutron star is a stellar remnant
It is still called a neutron star. Depending on how we observe it, it may also be called a pulsar.
A Neutron Star
A young neutron star. Really - that is what a neutron star is. If the neutron star's magnetic field is pointed towards Earth, then it is referred to as a pulsar - because of it's rapid pulsations [See related question] but it is still a neutron star.
Yes. A pulsar is a rapidly spinning neutron star.
Depends on the age of the neutron star. As a neutron star no longer has any method to produce heat, it will slowly cool over time. A young neutron star will have a core temperature of about 106 kelvin.