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What else can I help you with?
When a stars core collapses?
Neutronium, hyper-dense atomic nuclear material stripped of all electrons.
What can form after the supernova of a red giant?
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.
Which is a star in its old age Protostar Main sequence Black Hole or Red giant?
A red giant is a star in its old age. During this stage, a star expands and cools as it exhausts its hydrogen fuel. Eventually, it will shed its outer layers, forming a planetary nebula.
Will the sun ever become a black hole?
Our Sun will never become a black hole. It does not have enough mass and thus pressure to initial the sequences required to form a black hole. In about 5 billion years time, our Sun will slowly expand into a red giant, a billion years later it will shed it's outer envelope leaving nothing more that a very hot white dwarf about the size of the Earth. Not that we will be around to see it.
When did earth change into blackhole?
Earth will not turn into a black hole due to its mass being insufficient for it to collapse into that state. Earth will eventually be engulfed by the Sun as it expands into a red giant in about 5 billion years, but it will not become a black hole.
Can a red giant suck in other stars?
No really, no. A black hole does that.
When a star collapses does it get bigger?
that depends on how large the red or super red giant was. if it was a super red giant that is 1000X larger than a red giant. it will become a black hole
Which star is a collapsed star?
it would depend if the star was a red giant or a super red giant and if it is 1000X larger than a red giant then it would turn into a black hole. some people think that the star at the center of the galxy is a black hole (but don't woury the solar system is at the rim of the galixy)
When a stars core collapses?
Neutronium, hyper-dense atomic nuclear material stripped of all electrons.
What can form after the supernova of a red giant?
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.
Why does the sun's energy form a black hole?
The sun's energy has not formed a black hole.
What are the stages of a stars life?
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
Star of life?
Nebule > Star > Red Giant > Red Dwarf > White Dwarf > Supernova > Neutron Star > Black Hole.
What is the difference between a black hole and red giant in astronomy?
a red gaint is when a masize star is at the end of its life and its energy will run out and cause a supernova or will become so dense its own gravity will make it fall in on its self to become a black hole. so basicaly red gaint is a star dieing and a black hole; its already died.
What does the core turn into when a red giant goes supernova?
A neutron star or, if there's enough mass remaining, a black hole.
What is a black hole and how does it act?
A black hole is formed during a supernova (when a red giant star explodes)--the star collapses in on itself and creates a black hole. Then the black hole can move around or stay in one spot. They suck in everything around them (stars, planets, ect.) There is one black hole in the center of every galaxy. When two black holes come in contact, they create blue and red colors (one black hole is blue and one is red). If i remember correctly, they eventually become one, after circling around each other.
Whats the life cycle of the stars?
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.
