anonymous
  • anonymous
Which of the following stages would come first in the life of a star?
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  • Stacey Warren - Expert brainly.com
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chestercat
  • chestercat
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anonymous
  • anonymous
can some one help me.
anonymous
  • anonymous
blackhole
anonymous
  • anonymous
Question 1 (Essay Worth 3 points) Explain why the life cycle of a star can be compared to the life cycle of a human. Because it goes threw different stages just like us. -------------------------------------------------------------------------------- Question 2 (Essay Worth 4 points) Explain the steps of the life cycle of a star. Beginning with a nebula and ending with old age/death of a star, explain each step in a star’s life cycle. -------------------------------------------------------------------------------- Question 3 (Multiple Choice Worth 3 points) Which statement is true concerning the evidence for black holes? Scientists can see black holes with powerful telescopes. Scientists can see the effect of black holes on nearby stars. Scientists can see trails left in space by black holes. There is no evidence for black holes. -------------------------------------------------------------------------------- Question 4 (Multiple Choice Worth 3 points) Which of the following is a star that is in its old age? red giant brown dwarf black hole protostar -------------------------------------------------------------------------------- Question 5 (Multiple Choice Worth 3 points) Which of the following can be thought of as opposites? white dwarf and brown dwarf black hole and protostar neutron star and pulsar red giant and blue giant -------------------------------------------------------------------------------- Question 6 (Multiple Choice Worth 3 points) What is the main force that causes a star to turn into a black hole? temperature gravity pressure nuclear explosions -------------------------------------------------------------------------------- Question 7 (Multiple Choice Worth 3 points) Which of the following stages would come first in the life of a star? neutron star white dwarf protostar black hole -------------------------------------------------------------------------------- Question 8 (Multiple Choice Worth 3 points) What is meant when it is said that stars have a life cycle? Stars are born in specific places and then live their lives in galaxies. Stars go in circular orbits during their lives. Stars move about in their galaxies. Stars are born, grow up, and eventually die. --------------------------------------------------------------------------------

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anonymous
  • anonymous
no
anonymous
  • anonymous
Explain the steps of the life cycle of a star. Beginning with a nebula and ending with old age/death of a star, explain each step in a star’s life cycle.
misssunshinexxoxo
  • misssunshinexxoxo
The life cycle of a star can follow a few different paths depending on the mass it starts out with. Really massive stars may live for only a few million years before going supernova, while low mass stars such as the Sun may take billions of years to use up their fuel and then die relatively quietly. In star life cycles, a high mass star means a star with at least about 8 times the mass of our Sun Birth All stars are formed when a giant cloud of gas and dust, called a molecular cloud or nebula, begins to collapse under the influence of its own gravity This may be triggered by a collision with another molecular cloud, the shockwave from a nearby supernova, or even the collision of galaxies As the cloud contracts, it breaks apart. An individual fragment will condense into a hot, dense sphere known as a protostar A new star is born when the protostar becomes hot enough to begin fusing hydrogen into helium. Now, the star will enter the main sequence, or adult, phase If a star is too low in mass to initiate nuclear fusion it will become a brown dwarf Main sequence A star will remain in this state for most of its lifetime, fusing hydrogen to make helium and releasing energy in the process A star may fall on different points on the main sequence depending on its mass. In general, the more massive the star the shorter its lifespan on the main sequence Red dwarfs are small, dim stars that fuse hydrogen at a slow rate, and may remain on the main sequence for hundreds of billions of years. Low mass stars such as our Sun will be on the main sequence for several billion years High mass stars may only stay on the main sequence for a few million years Maturity Eventually a star will run out of its hydrogen fuel, and begin fusing helium and other elements instead. At that point it will leave the main sequence phase Red dwarf stars will use up all their hydrogen and collapse directly into white dwarfs Low mass stars like our Sun will expand and become red giants. This happens when a star runs out of hydrogen at its core. The core will collapse and begin fusing helium while hydrogen fusion is transferred to the outer layers This causes the star to swell to many times its original size and become cooler as the heat is distributed over a larger area More massive stars will grow into supergiants, which are among the largest stars in the Universe In this stage a star will maintain hydrostatic equilibrium by fusing heavier and heavier elements as the lighter ones run out. The largest stars can produce elements up to iron Death and stellar remnants Low mass stars like our Sun will eventually die by shedding their outer layers as a planetary nebula The core will collapse into a white dwarf, which will eventually cool into a black dwarf More massive stars will die in a tremendous explosion called a supernova This happens when a massive stars begins to fuse iron. This absorbs energy and caused the core to violently collapse while the outer layers are ejected The extreme heat produced by supernovae is responsible for the nucleosynthesis of elements heavier than iron, up to uranium After a supernova, the core may compress into a neutron star or a black hole. Neutron stars are much denser than white dwarfs, to the point where protons and electrons combine to form neutrons (hence the name) Black holes are denser still, so much so that they produce an extremely strong gravitational force that even light cannot escape.

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