Hypernova
Yes, a supernova can form a new nebula. When a massive star ends its life in a supernova explosion, the explosion can create shockwaves that compress surrounding gas and dust, triggering the formation of a new nebula. This new nebula can eventually give birth to new stars and planetary systems.
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It depends on the mass of the star. When massive stars die the result is usually an enormous explosion called a supernova, but the core will collapse to form a dense remnant. If the remnant is less than 3 times the mass of the sun then it will form a neutron star. If it is greater than 3 times the mass of the sun it will form a black hole. Extremely massive stars may collapse directly into a black hole with no supernova.
After the supernova of a red giant, remnants such as a neutron star or a black hole can form, depending on the mass of the original star. If the star was especially massive, it may also result in a supermassive black hole or a hypernova explosion.
The explosion of a supernova leaves behind either a neutron star or a black hole, depending on the mass of the original star. Neutron stars are extremely dense, composed mostly of neutrons, while black holes are regions of space with a gravitational pull so strong that nothing, not even light, can escape from them.
Yes, a supernova can form a new nebula. When a massive star ends its life in a supernova explosion, the explosion can create shockwaves that compress surrounding gas and dust, triggering the formation of a new nebula. This new nebula can eventually give birth to new stars and planetary systems.
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The explosion of a red giant is called a supernova. It would be quite spectacular to watch! I hope this answer helps :D Technically the explosion of a Red giant is not called a Supernova as the mass of the star is not great enough. However the explosion from a Red Super Giant can be called a supernova. A normal Red giant doesn't actually explode, the core just collapses again to cause a white dwarf and the outer layers are ejected to form planetary Nebulae.
When a star explodes, it releases an immense amount of energy, creating a supernova. This explosion can outshine an entire galaxy for a short period of time. Supernovae are crucial for the formation of heavy elements and can also cause the star to collapse and form a black hole or neutron star.
It is believed that the death of a star in a supernova explosion, gave the inertia for our Solar System to begin to form.
Technically the explosion of a Red giant is not called a Supernova as the mass of the star is not great enough. However the explosion from a Red Super Giant can be called a supernova. A normal Red giant doesn't actually explode, the core just collapses again to cause a white dwarf and the outer layers are ejected to form planetary Nebulae.
It depends on the mass of the star. When massive stars die the result is usually an enormous explosion called a supernova, but the core will collapse to form a dense remnant. If the remnant is less than 3 times the mass of the sun then it will form a neutron star. If it is greater than 3 times the mass of the sun it will form a black hole. Extremely massive stars may collapse directly into a black hole with no supernova.
Technically the explosion of a Red giant is not called a Supernova as the mass of the star is not great enough. However the explosion from a Red Super Giant can be called a supernova. A normal Red giant doesn't actually explode, the core just collapses again to cause a white dwarf and the outer layers are ejected to form planetary Nebulae.
After the supernova of a red giant, remnants such as a neutron star or a black hole can form, depending on the mass of the original star. If the star was especially massive, it may also result in a supermassive black hole or a hypernova explosion.
The explosion of a supernova leaves behind either a neutron star or a black hole, depending on the mass of the original star. Neutron stars are extremely dense, composed mostly of neutrons, while black holes are regions of space with a gravitational pull so strong that nothing, not even light, can escape from them.
A huge explosion, such as a supernova, can release massive amounts of energy and matter into space. As the expanding debris cools and interacts with surrounding gas, it can form a nebula - a large cloud of dust and gas. Over time, this nebula may give rise to new stars and planetary systems.
No, the sun does not have enough mass to end its life in a supernova explosion. Instead, it will eventually expand into a red giant and then shed its outer layers to form a planetary nebula, leaving behind a small, dense core called a white dwarf. This process will happen in about 5 billion years.