No. The most massive stars will leave behind a black hole.
Depending on the mass of the original star, it is either a black hole or a neutron star.
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A silver bullet.
A silver bullet
Not all stars that undergo a supernova explosion will leave behind a neutron star. Depending on the mass of the star, the remnants could be a neutron star, a black hole, or in some cases, nothing at all if the explosion completely obliterates the star.
No. Blue stars will generally leave behind neutron stars or black holes.
Stars explode into supernovae, which can leave behind remnants like neutron stars or black holes. During the explosion, elements heavier than iron are forged through nucleosynthesis and dispersed into space, enriching the interstellar medium with these elements.
No, our sun is not massive enough to become a neutron star. When our sun runs out of fuel, it will shed its outer layers and become a planetary nebula, leaving behind a dense core called a white dwarf.
Generally yes, however in some rare cases such as yellow supergiants, they will explode as a supernova and leave behind, either a black hole or 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.
black holes
Yes, when a star undergoes a nova, it expels material into space, which can eventually form a white dwarf. A white dwarf is the remnant core of a star that has exhausted its nuclear fuel and collapsed under gravity. Novae are different from supernovae, which are more energetic and can leave behind other remnants like neutron stars or black holes.
No, low mass stars do not become neutron stars. Low mass stars like the Sun end their lives as white dwarfs. Medium mass stars can evolve into neutron stars, but they must first go through the supernova stage to shed their outer layers and leave behind a dense core of neutrons.
A high mass star will leave behind either a neutron star of a black hole.
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The size of the explosion from a dying star, known as a supernova, can vary depending on the size and mass of the star. Supernovae release an immense amount of energy, and for a brief period, can outshine an entire galaxy. The explosion is powerful enough to create heavy elements and can also leave behind a dense core such as a neutron star or a black hole.