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Rank these from largest to smallest size Pluto Sun Jupiter Moon nebula the solar system Earth neutron star and Mars?
Nebula, The solar system, The sun, Jupiter, Earth, Mars, The moon, Pluto, Neutron Star
Will the sun turn into a neutron star?
No. It does not have enough mass. Only stars 8 times the mass of the sun or greater can become neutron stars. The sun will become a white dwarf.
Do the sun will eventually become a neutron star?
No, unless it somehow acquires more mass. It requires more mass to become a neutron star.
Will your sun ever become a nuetron star or super nova?
No, our Sun will not become a neutron star or supernova. Instead, it is expected to evolve into a red giant and then shed its outer layers, ultimately leaving behind a white dwarf. This process will occur in about 5 billion years, marking the end of its life cycle without the explosive phenomena associated with supernovae or the formation of a neutron star.
What is the next step after a red giant?
After a red giant phase, a star will undergo further evolutionary stages depending on its mass. A low-mass star like the Sun will evolve into a planetary nebula and then eventually into a white dwarf. A high-mass star will undergo a supernova explosion, leading to the formation of a neutron star or black hole.
Is the density of a neutron star the same as the sun?
No. Neutron stars are far MORE DENSE than the Sun's core. If the Sun were twice its actual mass, and if it were to collapse into a ball around 10 miles in diameter, THEN it would be as dense as a neutron star. Compared to a neutron star, the Sun is like a mist of hydrogen, a sort of fog.
What is a good ratio example of an average neutron star to our sun?
A typical neutron star has a diameter of about 24km our Sun has a diameter of 1.392×106 km So our Sun is about 58,000 times bigger than a neutron star.
What might be the end point of a star with a mass larger than the sun?
It can become a white dwarf, a neutron star or a black hole, depending on the mass that remains at the end of the star's life.
Why will the sun never become a neutron star?
The Sun will never leave behind a stellar remnant such as a neutron star, as it does not have enough mass to achieve the massive pressures required to make one. Our Sun will end up as a white dwarf stellar remnant.
Is there a neutron star have that is closer to the earth or the sun?
No. The closest neutron star is over 434 light years away.
If a star begins its evolution with a mass ten times that of the sun but finishes with a mass 2 times that of the sun what type of object does it form?
The star would end its evolution as a neutron star. This is because during its evolution, the star would go through stages of fusion until it exhausts its fuel and undergoes a supernova explosion, leaving behind a dense core that collapses into a neutron star due to gravitational forces.
Would an average mass main sequence star like our sun eventually become a neutron star black hole?
sup.
Could a neutron star be bigger than the sun?
No. While a neutron star has more mass than the sun, it is compressed into a very small area about the size of a city.
Does the sun eventually become a neutron star?
No, the sun will not become a neutron star. Neutron stars form from the remnants of massive stars that have undergone a supernova explosion. The sun is not massive enough to undergo this process and will instead evolve into a white dwarf.
Is it possible for the sun to turn into a black hole because?
Our Sun is not nearly massive enough to become a black hole, or even a neutron star. Our Sun will end its life as a white dwarf.
How are neutron stars formed?
Neutron stars are formed when stars with more than 8 times the mass of the Sun run out of fuel and explodes as a supernova. After the star explodes, the core of the star remains, the core would then become a neutron star or a black hole. If the core remain is less than 3 times the mass of the sun, it would become a neutron star.
What is the diameter in km of the dwarf star?
There are many types of Dwarf stars - all with different diameters. Our Sun is a dwarf star! A typical neutron star has a diameter of about 24km our Sun has a diameter of 1.392×106 km So our Sun is about 58,000 times bigger than a neutron star.
