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What happens when the gravity of a massive star is ablle to overcome neutron degeneration?
When the gravity of a massive star overcomes neutron degeneracy pressure, it can result in the star collapsing further to form a black hole. This occurs when the mass of the star is above a certain threshold known as the Tolman–Oppenheimer–Volkoff limit, causing the neutron degeneracy pressure to be insufficient to support the star against gravity.
A what is formed by a star that collapses under gravity to the point that its electrons and protrons form neutrons?
A neutron star is formed when a star collapses under gravity to the point where its electrons and protons combine to form neutrons. Neutron stars are extremely dense and have strong gravitational forces.
Why does a neutron star make you so incredibly heavy?
Your weight depends on your mass and the strength of the gravity where you are. A neutron star has a mass 2-3 times that of the sun compacted into a very small area, resulting in a surface gravity billions of times stronger than on Earth. As a result, at the surface of a neutron star you would weigh several billion times what you do now.
Why do you not expect to find a 5 solar mass neutron star?
There are no neutron stars with 5 solar masses because one if a neutron star exceeds 3 solar masses, the neutrons inside would no longer be able to support the extreme gravity, so the neutron star would then collapse into a black hole.A neutron star is prevented from further collapse by a force call neutron degeneracy pressure. Above 3 solar masses gravity will overcome this force and the stellar remnant will collapse completely to form a black hole.
Why does a neutron star have so much gravity?
Gravity depends on two things: the mass of the object you are dealing with. A more massive object has stronger gravity, and the close you get to the center without having any of the mass above you, the stronger the gravity gets. To start off, a neutron star has a very large mass, as much as 3 times the mass of the sun, compacted into a very small area, about the size of a city. Since it is in such a small area objects can get very close to the center of mass.
What happens when the gravity of a massive star is ablle to overcome neutron degeneration?
When the gravity of a massive star overcomes neutron degeneracy pressure, it can result in the star collapsing further to form a black hole. This occurs when the mass of the star is above a certain threshold known as the Tolman–Oppenheimer–Volkoff limit, causing the neutron degeneracy pressure to be insufficient to support the star against gravity.
What prevents the collapse of a neutron star and allows it to maintain its stability and structure?
The collapse of a neutron star is prevented by the outward pressure of neutron degeneracy, which counteracts the force of gravity trying to compress the star. This pressure maintains the stability and structure of the neutron star.
What happens when the gravity of a massive star overcomes neutron degeneracy pressure?
When the gravity of a massive star overcomes neutron degeneracy pressure, the core collapses under its own gravity, leading to the formation of a black hole or a neutron star, depending on the initial mass of the star. This process releases a tremendous amount of energy in the form of a supernova explosion.
What is the surface gravity of a neutron star?
Well, isn't that a fascinating question. The surface gravity of a neutron star is incredibly strong, many billions of times stronger than Earth's gravity. It's like trying to hold on to a massive bouquet of happy little clouds!
What is formed by a star that collapses under gravity to the point that its electrons and protons form neutrons?
A neutron star.neutron star
A what is formed by a star that collapses under gravity to the point that its electrons and protrons form neutrons?
A neutron star is formed when a star collapses under gravity to the point where its electrons and protons combine to form neutrons. Neutron stars are extremely dense and have strong gravitational forces.
What cause a neutron star to form?
The strong gravity of the core of a dead high-mass star causes a neutron star to form. When the high-mass star becomes a supernova and leaves a core behind, the core no longer undergo fusion. Without fusion, gravity starts to push the core inward until most protons and electrons are crushed into neutrons, a neutron star forms. If the core is too massive, the neutron star would collapse and become a black hole.
How can one create a neutron star?
A neutron star is created when a massive star collapses under its own gravity during a supernova explosion. The intense pressure and heat cause protons and electrons to combine, forming neutrons. This results in a dense core of neutrons, which is the neutron star.
What is a dead star with the density of an atomic nuclei called?
A dead star with the density of an atomic nuclei is called a neutron star. Neutron stars are incredibly dense and are composed mostly of tightly packed neutrons. They form when massive stars explode in a supernova and their cores collapse under gravity.
How is the neutron star different from a black hole?
A neutron star is the remnant of a massive star. It consists of an extremely dense collection of neutrons that is prevented from collapsing further by neutron degeneracy pressure. While they have extremely strong gravity, neutron stars still emit light. A black hole is an object that has completely collapsed under the force of gravity, forming an infinitely dense singularity. Within certain radius, nothing, not even light escapes.
How are black hole different from neutron star?
A neutron star is an extremely dense object in which atoms have been crushed by gravity, causing electrons and protons to merge into neutrons. A force known as neutron degeneracy pressure prevents it from collapsing further. The neutron star can emit light and other forms of radiation. A black hole is an object that has completely collapsed under the force of gravity, with all mass coming to a single point called a singularity. The gravity is so strong that, within a certain radius nothing, not even light, can escape.
When a collapsed core becomes so dense only neutrons can exist there a what is formed?
A Neutron Star
