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In the last stage of stellar evolution following a supernova stars too massive to form neutron stars may form a?
In the last stage of stellar evolution, stars too massive to form neutron stars may collapse into black holes following a supernova explosion. When these massive stars exhaust their nuclear fuel, their cores collapse under gravity, leading to an event horizon that characterizes a black hole. The outer layers are expelled during the supernova, while the core's collapse results in an incredibly dense singularity from which nothing, not even light, can escape. This process marks the end of the star's life cycle, transitioning it into a black hole.
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If a star is massive enough what can result after it produces a supernova?
If a star is massive enough, after it produces a supernova it can either leave behind a neutron star or collapse into a black hole, depending on the mass of the original star.
Are pulsars found in supernova remnants.?
Yes, pulsars are often found in supernova remnants. Pulsars are rapidly rotating neutron stars that emit beams of radiation, and they are formed when a massive star undergoes a supernova explosion. The remnants of the supernova provide the environment from which the pulsar originates.
Is a black hole a supernova remnant?
No, a black hole is not typically a supernova remnant. A black hole is formed when a massive star collapses under its own gravity, creating a region of spacetime from which nothing, not even light, can escape. On the other hand, a supernova remnant is the leftover material from a massive star's explosion in a supernova event.
Neutron stars smaller then white dwarfs are thought to be remnants of?
Neutron stars smaller than white dwarfs are thought to be remnants of massive stars that have undergone supernova explosions. When these stars exhaust their nuclear fuel, they collapse under their own gravity, resulting in a neutron star if the core's mass is sufficient. In contrast, white dwarfs are formed from less massive stars that shed their outer layers, leaving behind a dense core. Therefore, neutron stars represent the end stage of more massive stellar evolution compared to white dwarfs.
Can any black hole turn into a neutron star?
No, black holes cannot turn into neutron stars. Neutron stars form from the remnants of supernova explosions of massive stars, while black holes are formed from the gravitational collapse of massive stars. Once a black hole is formed, it will remain a black hole and will not transform into a neutron star.
What is the differences between super nova and neutron star?
A supernova is when a massive star explodes. A neutron star is what can be formed after a supernova explosion. See related questions
If a star is massive enough what can result after it produces a supernova?
If a star is massive enough, after it produces a supernova it can either leave behind a neutron star or collapse into a black hole, depending on the mass of the original star.
Are pulsars found in supernova remnants.?
Yes, pulsars are often found in supernova remnants. Pulsars are rapidly rotating neutron stars that emit beams of radiation, and they are formed when a massive star undergoes a supernova explosion. The remnants of the supernova provide the environment from which the pulsar originates.
What does a massive supernova become?
If enough mass is left over after the supernova explosion, i.e. after material is blown off into space, the star will become a black hole. Less massive stars will become neutron stars. A neutron star can convert to a black hole later, if enough matter falls into it.
The final stage in the evolution of the most massive stars is an?
The final stage in the evolution of the most massive stars is a supernova explosion, where the star collapses and then rebounds in a powerful explosion. This explosion can lead to the formation of either a neutron star or a black hole, depending on the mass of the collapsing core.
If the star is more massive than the sun it is likely to?
If a star is more massive than the Sun, it is likely to have a shorter lifespan due to its rapid fuel consumption in nuclear fusion processes. These massive stars often evolve into red supergiants and may eventually end their lives in spectacular supernova explosions. Following the supernova, they can leave behind neutron stars or black holes, depending on their remaining mass.
Is a black hole a supernova remnant?
No, a black hole is not typically a supernova remnant. A black hole is formed when a massive star collapses under its own gravity, creating a region of spacetime from which nothing, not even light, can escape. On the other hand, a supernova remnant is the leftover material from a massive star's explosion in a supernova event.
What is a dense collapsed core with a very strong gravitional pull that forms when a very massive star become a supernova?
Neutron Star
Neutron stars smaller then white dwarfs are thought to be remnants of?
Neutron stars smaller than white dwarfs are thought to be remnants of massive stars that have undergone supernova explosions. When these stars exhaust their nuclear fuel, they collapse under their own gravity, resulting in a neutron star if the core's mass is sufficient. In contrast, white dwarfs are formed from less massive stars that shed their outer layers, leaving behind a dense core. Therefore, neutron stars represent the end stage of more massive stellar evolution compared to white dwarfs.
How are neutron stars and black holes related?
They are both formed when a massive star explodes as a supernova. Which, is produced depends on the original mass of the star.
These stars are produced during a supernova event?
The stars produced during a supernova event are known as neutron stars or black holes. Neutron stars are extremely dense remnants of massive stars, while black holes are formed when the core of a massive star collapses. Both neutron stars and black holes have unique properties and play a significant role in the cosmic landscape.
What stage of stellar evolution occurs for large stars but not for medium or small stars?
Type II supernova. Formation of a neutron star or black hole.
