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A giant star would experience a supernova explosion, in order to become a white dwarf.
I don't think it's mass that defines those states. Whatever its mass, a star livesmost of its life on the main sequence like the Sun, swells to red gianthood in itsold age like Betelgeuse, and dies as a white dwarf like Sirius-B.They could certainly be arranged in the order of their density, however:least dense . . . red giantin the middle . . the Sunmost dense. . . white dwarf
Under the current definition of a planet, yes it can! If a gas giant were to share its orbit with other objects of significant mass (other than moons, comets or asteroids), it would definitely qualify as a dwarf planet. In order to be a planet, it would have to "clear the neighborhood" until it was the dominate influence in its orbit.
All cells synthesize (build) proteins from amino acids. The information that the cell needs in order to arrange the amino acids in the right sequence is stored in DNA.
At the beggining, a star starts out as a nebula. This nebula's gas condenses to form the sun. This sun is called a protostar. When all of the hydrogen is used up in nuclear fusion to produce helium, the star begins to grow and gets to a stage known as the red giant stage. At this point, depending on the size of the star at this point, it can form differently. It can either become a super giant or a dwarf star. When the red giant become a dwarf star, it had collapsed in onitself after burning all possible fuel. It will continue to glow until it reaches its final phase as a black dwarf, which doesn't produce any light and is in a dormant phase. If the red giant becomes a super giant, then it will continue to grow until it burns off all of its fuel and collapses in on itself, where it then explodes into a supernova. If this supernova condenses to quickly, it will form a black hole.
Main-sequence,red giant,white dwarf.
main sequence,giant then nebula
White Dwarf, Sun, Red Giant, Supernova
A giant star would experience a supernova explosion, in order to become a white dwarf.
sequence signals are signals that are used to arrange events in proper order...! for example..the teacher is in a wrong grammar..!
It is called white dwarf. A white dwarf is a small star. If you heard of red giant it mean huge star.
order; sequence; arrange; follow; consecution; procession; alphabetical; seriate; series
In order from least to greatest in mean radius:Vesta (protoplanet)Pallas (protoplanet)Charon+ (dwarf planet)Orcus (dwarf planet)Quaoar (dwarf planet)Ceres (dwarf planet)Sedna (dwarf planet)"Snow White" [2007 OR10]* (dwarf planet)Haumea* (dwarf planet)Makemake (dwarf planet)Pluto+ (dwarf planet)Eris (dwarf planet)Mercury (terrestrial planet)Mars (terrestrial planet)Venus (terrestrial planet)Earth (terrestrial planet)Neptune (ice giant)Uranus (ice giant)Saturn (gas giant)Jupiter (gas giant)*There is a slight discrepancy as to how Haumea ought to be measured, due to its unusual shape. This makes it slightly unclear as to which is considered larger between Haumea and "Snow White."+Binary planet
1.introduction 2.topic 3causes 4.effect 5.advantages and disadvantages 6.important 7.solution 8.conclusion. 666
arrange what?????
I don't think it's mass that defines those states. Whatever its mass, a star livesmost of its life on the main sequence like the Sun, swells to red gianthood in itsold age like Betelgeuse, and dies as a white dwarf like Sirius-B.They could certainly be arranged in the order of their density, however:least dense . . . red giantin the middle . . the Sunmost dense. . . white dwarf
Under the current definition of a planet, yes it can! If a gas giant were to share its orbit with other objects of significant mass (other than moons, comets or asteroids), it would definitely qualify as a dwarf planet. In order to be a planet, it would have to "clear the neighborhood" until it was the dominate influence in its orbit.