neutron star
A supernova happens when most of the core of the collapsing star has become neutrons, held up against gravity by neutron degeneracy pressure. At this point a shockwave reflects from the neutron star surface, driving the supernova explosion.So the answer to your question is neutrons.
When a collapsed core becomes so dense, it reaches a state known as neutron degeneracy, where neutrons can exist in close proximity due to the exclusion principle preventing them from occupying the same quantum states. This forms a neutron star, where the core is primarily composed of densely packed neutrons.
If the core of a supernova explosion contains three or more solar masses of matter, it will most likely become a black hole. The gravitational force is so strong that the core collapses into a singularity, forming a black hole.
No, neutron stars are not on the main sequence. They are the remnants of massive stars that have undergone supernova explosions and have collapsed under their own gravity, resulting in a highly dense core composed primarily of neutrons.
A dense core of neutrons that remains after a supernova is known as a neutron star. It forms when the core of a massive star collapses under gravity after exhausting its nuclear fuel, causing the protons and electrons to combine into neutrons. Neutron stars are incredibly dense, with a mass greater than that of the sun compressed into a sphere only about 20 kilometers in diameter. They often exhibit strong magnetic fields and can rotate rapidly, leading to the emission of beams of radiation that may be detected as pulsars.
A Neutron Star
A supernova happens when most of the core of the collapsing star has become neutrons, held up against gravity by neutron degeneracy pressure. At this point a shockwave reflects from the neutron star surface, driving the supernova explosion.So the answer to your question is neutrons.
A star that has collapsed under gravity and is made of neutrons is called a neutron star. Neutron stars are extremely dense and have a strong gravitational pull due to the collapsed core of a massive star. They are the remnants of supernova explosions.
a neutron!!! (:
a neutron! :)
A Neutron Star
When a collapsed core becomes so dense, it reaches a state known as neutron degeneracy, where neutrons can exist in close proximity due to the exclusion principle preventing them from occupying the same quantum states. This forms a neutron star, where the core is primarily composed of densely packed neutrons.
If the core of a supernova contains about one solar mass, it will likely become a neutron star. This dense remnant forms when the core collapses under gravity, causing protons and electrons to combine into neutrons. Neutron stars are incredibly dense, with a mass greater than the Sun compressed into a sphere only about 20 kilometers in diameter. If the core exceeds around three solar masses, it may collapse further into a black hole.
Neutron Star
That is called a neutron star, or a pulsar.
In the center of the core of the atom is the nucleus. nice helping you!
If the core of a supernova explosion contains three or more solar masses of matter, it will most likely become a black hole. The gravitational force is so strong that the core collapses into a singularity, forming a black hole.