A giant star would experience a supernova explosion, in order to become a white dwarf.
The sun is not big enough to supernova. It's not even big enough to nova. The fate of the sun is a Red giant, a white dwarf then a black dwarf. Therefore we don't need to worry about the sun becoming a supernova. We need to worry about the sun expand to the size where it touches Jupiter.
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No, our sun is not destined to become a supernova and/or a black hole. It will become a red giant, but it is not massive enough to cross the threshold and become a candidate for a fate like either of those last two.
Yes, a red giant star can undergo a supernova explosion at the end of its life cycle. This occurs when the star has exhausted its nuclear fuel and can no longer support itself against gravity, leading to a dramatic collapse and subsequent explosion.
White Dwarf, Sun, Red Giant, Supernova
A giant star would experience a supernova explosion, in order to become a white dwarf.
nebula then protosar then red dwarf, yellow star or a blue giant then a red giant then a red super giant then eithr a white dwarf or a supernova from the supernova a black hole or a neutron star if it is a white dwarf it turns into a black dwarf then a black holeNebulaBaby starStarGiant or supergiantWhite dwarfBlack dwarf
Nebule > Star > Red Giant > Red Dwarf > White Dwarf > Supernova > Neutron Star > Black Hole.
Nebule > Star > Red Giant > Red Dwarf > White Dwarf > Supernova > Neutron Star > Black Hole.
The sun is not big enough to supernova. It's not even big enough to nova. The fate of the sun is a Red giant, a white dwarf then a black dwarf. Therefore we don't need to worry about the sun becoming a supernova. We need to worry about the sun expand to the size where it touches Jupiter.
The animal with the longest lifespan in captivity is the koi fish, which can live up to 200 years.
The Galapagos giant tortoise can live for over 200 years. It is the animal with the longest lifespan that has been classified.
Not exactly. Red giants become white dwarf stars. It is the red supergiants that can become supernovas.
A star's life cycle starts from a nebula. For giant stars, the star turns into a huge star to a super red giant to a supernova to a black hole. A sun-like star turns to a red giant, then a planetary nebula, a white dwarf, and then a black dwarf.
red giant, plantary nebula, white dwarf,black whole, red supergiant , supernova, neutron star
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.