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Homework
Question 1
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The Jeans instability describes the Answer
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· 1. |
· conditions under which sufficient numbers of neutrinos can · trigger the collapse of an interstellar cloud. · |
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· 2. |
· overcoming of gas pressure by self-gravity in a cold and dense · interstellar cloud to form a star. · |
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· 3. |
· expansion of a gas cloud after gravitational contraction because · of build-up of great heat within the cloud from gravitational potential · energy. · |
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· 4. |
· explosion of a star at the end of its life, the supernova phenomenon. |
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1 points
Question 2
· At what stage in its life does a star pass through the protostar phase? Answer
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· when it is expanding in size as a red giant or supergiant |
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· after condensation but before nuclear reactions begin in its core |
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· after nuclear reactions end in its core but before the red giant phase |
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· while it is converting hydrogen into helium in its core |
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1 points
Question 3
· A low-mass red dwarf (0.08 M < M < 0.4 M) experiences which of the following fusion reactions as the last fusion reaction in its core? Answer
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· hydrogen fusion |
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· silicon fusion |
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· carbon fusion |
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· helium fusion |
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1 points
Question 4
· What wavelengths have astronomers used to map and study the distribution of the giant molecular clouds in space? Answer
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· X-ray |
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· radio |
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· ultraviolet |
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· visible |
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1 points
Question 5
· Which of the following mechanisms is thought to be ineffective and inefficient in the triggering of star birth in molecular clouds? Answer
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· collisions between two interstellar clouds |
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· gravitational contraction of a hot gas cloud |
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· radiation pressure from the intense UV radiation from hot stars |
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· supernova explosions and the resultant shock waves |
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1 points
Question 6
· The lowest mass a protostar can have and still become a star (i.e., start thermonuclear reactions in its core) is Answer
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· 8/10 of a solar mass. |
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· about 1/2 a solar mass. |
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· slightly less than 1/10 of a solar mass. |
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· slightly less than 1/100 of a solar mass. |
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1 points
Question 7
· What is the relationship between a giant molecular cloud and an H II region? Answer
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· Giant molecular clouds evolve into H II regions as the molecules · other than hydrogen are used up in star formation. · |
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· In giant molecular clouds, H II regions surround ultraviolet-emitting · stars (types O and B), which have ionized the hydrogen around them. · |
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· In H II regions, giant molecular clouds are concentrations of other · molecules like CO and H2O. · |
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· They are two names for the same entity. |
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1 points
Question 8
· In some binary star systems, such as Algol, the less massive star is an old red giant and the more massive star is on the main sequence, evidence that Answer
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· the more massive star captured the other one into orbit some time · after the two stars had formed. · |
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· the more massive star formed later, from a disk of gas surrounding · the less massive star. · |
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· mass transfer from one of the stars to the other has occurred. |
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stars evolve differently in binary star systems, with less massive stars evolving faster than more massive stars. · |
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1 points
Question 9
· On the Hertzsprung-Russell diagram, in which direction does the position occupied by a star move after helium burning begins in the star’s core? Answer
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· 1.
· toward the upper right
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· 2.
· toward the lower left
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· 3.
· toward the lower right
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· 4.
· toward the upper left
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1 points
Question 10
· From the time a star of more than 1 solar mass reaches the ZAMS until it leaves the main sequence, the star’s evolution on the main sequence is Answer
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· 1.
· upward and to the right, but only very slightly.
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· 2.
· down and to the left, toward the white dwarves.
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· 3.
· upward and to the left, along the main sequence.
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· 4.
· straight upward as its luminosity increases.
