Over time a pulsar's spin period slows down sufficiently for the "pulse" to turn off (the "death line"). This occurs after about 10-100 million years, which means of all the neutron stars in the universe, around 99% no longer pulsate.
Yes. A pulsar is a rapidly spinning neutron star.
No. A pulsar is a neutron star.
the name pulsar is given to a neutron star that rotates
Because a pulsar is a neutron star but with it's emmision lines visible from Earth. See related questions.
Yes.
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.
No. A pulsar is a neutron star.
After a death of a Giant Star, a corpse of a star will be the remaining of it, right in the center of the aftermath, you will find one of the strangest objects in the Universe, the Pulsar and the Neutron Star.
Anywhere that a normal star has collapsed into a neutron star. See, a pulsar is essentially a neutron star that magnetically rotates and emits long arm-like streams of radiation. So it is possible for a pulsar to found almost anywhere in space.
Basically another name for a neutron star.
Yes, see related question
A pulsar.