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Deck 12: Stellar Evolution

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Question
To determine the structure of the interior of a star, astronomers must balance density, luminosity, and ____.

A) mass
B) temperature
C) mass and temperature
D) mass and opacity
E) temperature and opacity
Use Space or
up arrow
down arrow
to flip the card.
Question
The energy emitted from the surface of a main sequence star is less than the energy generated in the core.
Question
Observing star clusters will give astronomers needed data for stellar evolution because all the stars are the same age.
Question
Stellar models can easily be accomplished by using a simple hand calculator.
Question
What is the upper limit of a brown dwarf's size?

A) no upper limit
B) 0.50 solar masses
C) 0.10 solar masses
D) 0.08 solar masses
E) less than 0.08 solar masses
Question
The age of a star cluster can be approximated by finding its turnoff point in the distribution of data points that represent stars on the H-R Diagram.
Question
The helium flash stage will always completely destroy a star and any planets nearby it
Question
There is a mass-luminosity relationship because stars support their weight by generating energy, and more massive stars have more weight to support.
Question
When the Sun moves off the main sequence, it will initially become a red supergiant.
Question
Brown dwarfs are ____.

A) stars with a very thick dust sphere around them, so they appear "brown"
B) low mass M type stars with hundreds of planets
C) an anomaly because they are extremely small but have relatively high temperature
D) protostars that could not ignite the fusion of hydrogen at their core
E) has a surface temperature of 2500 K by fusing hydrogen
Question
Globular clusters have approximately how many stars?

A) 100,000 - 1,000,000
B) 10,000 - 90,000
C) 5,000 - 10,000
D) 1000 - 5000
E) less than 1000
Question
As a one-solar-mass star evolves off the main sequence, it will probably undergo a _____.

A) nova burnout
B) helium flash
C) hydrogen flash
D) helium bang
E) carbon flash
Question
Giant and supergiant stars are rare because they do not form as often as main sequence stars.
Question
The fusion of helium into carbon will take a temperature of at least

A) 5 million degrees Kelvin
B) 10 million degrees Kelvin
C) 50 million degrees Kelvin
D) 100 million degrees Kelvin
E) 600 million degrees Kelvin
Question
Astronomers determine the internal structure of a star by using stellar models, since they cannot "see" into the interior of a star.
Question
Degenerate matter has two peculiar properties that can affect a star.  One is that the degenerate gas resists compression, and the other is that the degenerate gas ____.

A) is not density dependent
B) does depend on temperature
C) does not depend on temperature
D) is not pressure dependent.
E) does depend on the type of nuclei present
Question
Observing star clusters will give astronomers needed data for stellar evolution because all the stars in the cluster have the same ____.

A) masses
B) temperatures
C) ages
D) luminosities
E) apparent magnitudes
Question
As a star like the Sun exhausts hydrogen in its core, the outer layers of the star become hotter and more luminous.
Question
Astronomers can determine the interiors of main sequence stars by _____.

A) studying their atmospheres
B) creating stellar models
C) detailed observations of the Sun
D) using the Hertzsprung-Russell Stellar Model (HRSM)
E) satellite observations of the closest stars
Question
All the elements heavier than helium on the periodic table, including the ones in your body, were created in the cores of massive stars.
Question
Where are the Cepheid and RR Lyrae variable stars located on the H-R Diagram?

A) just above and to the right of B type stars
B) just above and to the right of O type stars
C) in the variable strip
D) in the instability strip
E) outside the H-R Diagram as missing items
Question
Match between columns
Premises:
Responses:
_____ helium flash
C
_____ helium flash
K
_____ helium flash
H
_____ helium flash
I
_____ helium flash
A
_____ helium flash
G
_____ helium flash
B
_____ helium flash
F
_____ helium flash
J
_____ helium flash
E
_____ helium flash
D
_____ giants
C
_____ giants
K
_____ giants
H
_____ giants
I
_____ giants
A
_____ giants
G
_____ giants
B
_____ giants
F
_____ giants
J
_____ giants
E
_____ giants
D
_____ diameter
C
_____ diameter
K
_____ diameter
H
_____ diameter
I
_____ diameter
A
_____ diameter
G
_____ diameter
B
_____ diameter
F
_____ diameter
J
_____ diameter
E
_____ diameter
D
_____ fusion of He into C
C
_____ fusion of He into C
K
_____ fusion of He into C
H
_____ fusion of He into C
I
_____ fusion of He into C
A
_____ fusion of He into C
G
_____ fusion of He into C
B
_____ fusion of He into C
F
_____ fusion of He into C
J
_____ fusion of He into C
E
_____ fusion of He into C
D
_____ supergiants
C
_____ supergiants
K
_____ supergiants
H
_____ supergiants
I
_____ supergiants
A
_____ supergiants
G
_____ supergiants
B
_____ supergiants
F
_____ supergiants
J
_____ supergiants
E
_____ supergiants
D
_____ ZAMS
C
_____ ZAMS
K
_____ ZAMS
H
_____ ZAMS
I
_____ ZAMS
A
_____ ZAMS
G
_____ ZAMS
B
_____ ZAMS
F
_____ ZAMS
J
_____ ZAMS
E
_____ ZAMS
D
_____ white dwarfs
C
_____ white dwarfs
K
_____ white dwarfs
H
_____ white dwarfs
I
_____ white dwarfs
A
_____ white dwarfs
G
_____ white dwarfs
B
_____ white dwarfs
F
_____ white dwarfs
J
_____ white dwarfs
E
_____ white dwarfs
D
_____ instability strip
C
_____ instability strip
K
_____ instability strip
H
_____ instability strip
I
_____ instability strip
A
_____ instability strip
G
_____ instability strip
B
_____ instability strip
F
_____ instability strip
J
_____ instability strip
E
_____ instability strip
D
_____ spectral class
C
_____ spectral class
K
_____ spectral class
H
_____ spectral class
I
_____ spectral class
A
_____ spectral class
G
_____ spectral class
B
_____ spectral class
F
_____ spectral class
J
_____ spectral class
E
_____ spectral class
D
_____ brightness
C
_____ brightness
K
_____ brightness
H
_____ brightness
I
_____ brightness
A
_____ brightness
G
_____ brightness
B
_____ brightness
F
_____ brightness
J
_____ brightness
E
_____ brightness
D
_____ main sequence stars
C
_____ main sequence stars
K
_____ main sequence stars
H
_____ main sequence stars
I
_____ main sequence stars
A
_____ main sequence stars
G
_____ main sequence stars
B
_____ main sequence stars
F
_____ main sequence stars
J
_____ main sequence stars
E
_____ main sequence stars
D
C
K
H
I
A
G
B
F
J
E
D
Question
Why is the Cepheid's period related to their luminosity?
Question
Cepheid variable stars are classified as either ____.

A) Type A or Type B
B) Type I or Type II
C) Class A or Class B
D) Class I or Class II
E) Type C or Type R
Question
Why are massive stars more luminous than low mass stars? That is, why is there a mass-luminosity relation?
Question
The lower limit for a main sequence star is _______________ solar masses.
Question
The period-luminosity relation for Cepheid and RR Lyrae variable stars can be used for ______________.
Question
Why is there a lower end in the main sequence of the H-R diagram?
Question
As a main sequence star evolves off the main sequence, the helium core is contracting while the outer envelope is _______________.
Question
Why do Cepheids pulsate?
Question
If you observe a variable star with a period of 50 days as a yellow, supergiant star, then you most likely have seen a(n) ____.

A) degenerate star
B) RR Lyrae variable star
C) eclipsing binary star
D) Cepheid variable star
E) Type I Pulsar
Question
Variables of a certain type are called Cepheid variables because the first one discovered was in the _____________ Cepheus.
Question
Because of the period-luminosity relation for Cepheids and RR Lyrae variable stars, astronomers are able to _____

A) determine the relationship between the period of pulses and luminosity
B) measure the mass of a star
C) calculate a star's diameter
D) determine the chemical composition of a Type I Cepheid
E) narrow their study to eclipsing binary stars only
Question
Cepheid and RR Lyrae variable stars change their brightness by ____.

A) atmospheric explosions of hydrogen gas
B) internal changes in their fusion processes
C) a combination of atmospheric explosions and internal changes
D) a combination of atmospheric explosions and physically pulsating
E) changing its period between pulses
Question
Briefly explain why there is a main sequence on the H-R Diagram.
Question
<strong> Figure: Main-Sequence Stars What is the approximate age of the star cluster in the accompanying figure?</strong> A) 10 million years B) 100 million years C) 10 billion years D) 100 billion years E) Cannot be determine from the given data. <div style=padding-top: 35px> Figure: Main-Sequence Stars What is the approximate age of the star cluster in the accompanying figure?

A) 10 million years
B) 100 million years
C) 10 billion years
D) 100 billion years
E) Cannot be determine from the given data.
Question
Stars support their weight by generating ____.

A) magnetic fields throughout the star
B) Magnetic fields throughout the star
C) energy in their centers
D) magnetic-plasmas at their core
E) energy-plasmas at their core
Question
Helium fusion is sometimes referred to as the _______________  because three helium nuclei are needed to make a carbon nucleus, and because the helium nucleus is called an alpha particle.
Question
List the four laws of stellar structure.
Question
Define nuclear fusion.
Question
Explain how one of the four laws of stellar structure works.
Question
The two elements a one-solar-mass star uses over the course of its entire evolution are   _______________ and _____________.
Question
Cepheid variables can be used to determine distances because their _____________ can be determined from their _____________.
Question
When a gas is so dense that most of its electrons are not free to change their energies, it is called _______________.
Question
What is degenerate matter?
Question
List the two basic types of intrinsic variable stars.
Question
The Instability Strip on the H-R Diagram is the location for what type of stars _______________.
Question
A open star cluster will have a(n) _____________ turn-off point than an older star cluster.
Question
A(n) _______________star is any star that changes its brightness significantly and repeatedly.
Question
Explain how the age of a star cluster provides evidence of stellar evolution.
Question
Why is there an upper end in the main sequence of the H-R diagram?
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Deck 12: Stellar Evolution
1
To determine the structure of the interior of a star, astronomers must balance density, luminosity, and ____.

A) mass
B) temperature
C) mass and temperature
D) mass and opacity
E) temperature and opacity
mass and temperature
2
The energy emitted from the surface of a main sequence star is less than the energy generated in the core.
False
3
Observing star clusters will give astronomers needed data for stellar evolution because all the stars are the same age.
True
4
Stellar models can easily be accomplished by using a simple hand calculator.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
5
What is the upper limit of a brown dwarf's size?

A) no upper limit
B) 0.50 solar masses
C) 0.10 solar masses
D) 0.08 solar masses
E) less than 0.08 solar masses
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
6
The age of a star cluster can be approximated by finding its turnoff point in the distribution of data points that represent stars on the H-R Diagram.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
7
The helium flash stage will always completely destroy a star and any planets nearby it
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
8
There is a mass-luminosity relationship because stars support their weight by generating energy, and more massive stars have more weight to support.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
9
When the Sun moves off the main sequence, it will initially become a red supergiant.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
10
Brown dwarfs are ____.

A) stars with a very thick dust sphere around them, so they appear "brown"
B) low mass M type stars with hundreds of planets
C) an anomaly because they are extremely small but have relatively high temperature
D) protostars that could not ignite the fusion of hydrogen at their core
E) has a surface temperature of 2500 K by fusing hydrogen
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
11
Globular clusters have approximately how many stars?

A) 100,000 - 1,000,000
B) 10,000 - 90,000
C) 5,000 - 10,000
D) 1000 - 5000
E) less than 1000
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
12
As a one-solar-mass star evolves off the main sequence, it will probably undergo a _____.

A) nova burnout
B) helium flash
C) hydrogen flash
D) helium bang
E) carbon flash
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
13
Giant and supergiant stars are rare because they do not form as often as main sequence stars.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
14
The fusion of helium into carbon will take a temperature of at least

A) 5 million degrees Kelvin
B) 10 million degrees Kelvin
C) 50 million degrees Kelvin
D) 100 million degrees Kelvin
E) 600 million degrees Kelvin
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
15
Astronomers determine the internal structure of a star by using stellar models, since they cannot "see" into the interior of a star.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
16
Degenerate matter has two peculiar properties that can affect a star.  One is that the degenerate gas resists compression, and the other is that the degenerate gas ____.

A) is not density dependent
B) does depend on temperature
C) does not depend on temperature
D) is not pressure dependent.
E) does depend on the type of nuclei present
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
17
Observing star clusters will give astronomers needed data for stellar evolution because all the stars in the cluster have the same ____.

A) masses
B) temperatures
C) ages
D) luminosities
E) apparent magnitudes
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
18
As a star like the Sun exhausts hydrogen in its core, the outer layers of the star become hotter and more luminous.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
19
Astronomers can determine the interiors of main sequence stars by _____.

A) studying their atmospheres
B) creating stellar models
C) detailed observations of the Sun
D) using the Hertzsprung-Russell Stellar Model (HRSM)
E) satellite observations of the closest stars
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
20
All the elements heavier than helium on the periodic table, including the ones in your body, were created in the cores of massive stars.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
21
Where are the Cepheid and RR Lyrae variable stars located on the H-R Diagram?

A) just above and to the right of B type stars
B) just above and to the right of O type stars
C) in the variable strip
D) in the instability strip
E) outside the H-R Diagram as missing items
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
22
Match between columns
Premises:
Responses:
_____ helium flash
C
_____ helium flash
K
_____ helium flash
H
_____ helium flash
I
_____ helium flash
A
_____ helium flash
G
_____ helium flash
B
_____ helium flash
F
_____ helium flash
J
_____ helium flash
E
_____ helium flash
D
_____ giants
C
_____ giants
K
_____ giants
H
_____ giants
I
_____ giants
A
_____ giants
G
_____ giants
B
_____ giants
F
_____ giants
J
_____ giants
E
_____ giants
D
_____ diameter
C
_____ diameter
K
_____ diameter
H
_____ diameter
I
_____ diameter
A
_____ diameter
G
_____ diameter
B
_____ diameter
F
_____ diameter
J
_____ diameter
E
_____ diameter
D
_____ fusion of He into C
C
_____ fusion of He into C
K
_____ fusion of He into C
H
_____ fusion of He into C
I
_____ fusion of He into C
A
_____ fusion of He into C
G
_____ fusion of He into C
B
_____ fusion of He into C
F
_____ fusion of He into C
J
_____ fusion of He into C
E
_____ fusion of He into C
D
_____ supergiants
C
_____ supergiants
K
_____ supergiants
H
_____ supergiants
I
_____ supergiants
A
_____ supergiants
G
_____ supergiants
B
_____ supergiants
F
_____ supergiants
J
_____ supergiants
E
_____ supergiants
D
_____ ZAMS
C
_____ ZAMS
K
_____ ZAMS
H
_____ ZAMS
I
_____ ZAMS
A
_____ ZAMS
G
_____ ZAMS
B
_____ ZAMS
F
_____ ZAMS
J
_____ ZAMS
E
_____ ZAMS
D
_____ white dwarfs
C
_____ white dwarfs
K
_____ white dwarfs
H
_____ white dwarfs
I
_____ white dwarfs
A
_____ white dwarfs
G
_____ white dwarfs
B
_____ white dwarfs
F
_____ white dwarfs
J
_____ white dwarfs
E
_____ white dwarfs
D
_____ instability strip
C
_____ instability strip
K
_____ instability strip
H
_____ instability strip
I
_____ instability strip
A
_____ instability strip
G
_____ instability strip
B
_____ instability strip
F
_____ instability strip
J
_____ instability strip
E
_____ instability strip
D
_____ spectral class
C
_____ spectral class
K
_____ spectral class
H
_____ spectral class
I
_____ spectral class
A
_____ spectral class
G
_____ spectral class
B
_____ spectral class
F
_____ spectral class
J
_____ spectral class
E
_____ spectral class
D
_____ brightness
C
_____ brightness
K
_____ brightness
H
_____ brightness
I
_____ brightness
A
_____ brightness
G
_____ brightness
B
_____ brightness
F
_____ brightness
J
_____ brightness
E
_____ brightness
D
_____ main sequence stars
C
_____ main sequence stars
K
_____ main sequence stars
H
_____ main sequence stars
I
_____ main sequence stars
A
_____ main sequence stars
G
_____ main sequence stars
B
_____ main sequence stars
F
_____ main sequence stars
J
_____ main sequence stars
E
_____ main sequence stars
D
C
K
H
I
A
G
B
F
J
E
D
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Unlock Deck
k this deck
23
Why is the Cepheid's period related to their luminosity?
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
24
Cepheid variable stars are classified as either ____.

A) Type A or Type B
B) Type I or Type II
C) Class A or Class B
D) Class I or Class II
E) Type C or Type R
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Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
25
Why are massive stars more luminous than low mass stars? That is, why is there a mass-luminosity relation?
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
26
The lower limit for a main sequence star is _______________ solar masses.
Unlock Deck
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Unlock Deck
k this deck
27
The period-luminosity relation for Cepheid and RR Lyrae variable stars can be used for ______________.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
28
Why is there a lower end in the main sequence of the H-R diagram?
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
29
As a main sequence star evolves off the main sequence, the helium core is contracting while the outer envelope is _______________.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
30
Why do Cepheids pulsate?
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
31
If you observe a variable star with a period of 50 days as a yellow, supergiant star, then you most likely have seen a(n) ____.

A) degenerate star
B) RR Lyrae variable star
C) eclipsing binary star
D) Cepheid variable star
E) Type I Pulsar
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
32
Variables of a certain type are called Cepheid variables because the first one discovered was in the _____________ Cepheus.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
33
Because of the period-luminosity relation for Cepheids and RR Lyrae variable stars, astronomers are able to _____

A) determine the relationship between the period of pulses and luminosity
B) measure the mass of a star
C) calculate a star's diameter
D) determine the chemical composition of a Type I Cepheid
E) narrow their study to eclipsing binary stars only
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
34
Cepheid and RR Lyrae variable stars change their brightness by ____.

A) atmospheric explosions of hydrogen gas
B) internal changes in their fusion processes
C) a combination of atmospheric explosions and internal changes
D) a combination of atmospheric explosions and physically pulsating
E) changing its period between pulses
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
35
Briefly explain why there is a main sequence on the H-R Diagram.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
36
<strong> Figure: Main-Sequence Stars What is the approximate age of the star cluster in the accompanying figure?</strong> A) 10 million years B) 100 million years C) 10 billion years D) 100 billion years E) Cannot be determine from the given data. Figure: Main-Sequence Stars What is the approximate age of the star cluster in the accompanying figure?

A) 10 million years
B) 100 million years
C) 10 billion years
D) 100 billion years
E) Cannot be determine from the given data.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
37
Stars support their weight by generating ____.

A) magnetic fields throughout the star
B) Magnetic fields throughout the star
C) energy in their centers
D) magnetic-plasmas at their core
E) energy-plasmas at their core
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
38
Helium fusion is sometimes referred to as the _______________  because three helium nuclei are needed to make a carbon nucleus, and because the helium nucleus is called an alpha particle.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
39
List the four laws of stellar structure.
Unlock Deck
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Unlock Deck
k this deck
40
Define nuclear fusion.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
41
Explain how one of the four laws of stellar structure works.
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Unlock for access to all 51 flashcards in this deck.
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k this deck
42
The two elements a one-solar-mass star uses over the course of its entire evolution are   _______________ and _____________.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
43
Cepheid variables can be used to determine distances because their _____________ can be determined from their _____________.
Unlock Deck
Unlock for access to all 51 flashcards in this deck.
Unlock Deck
k this deck
44
When a gas is so dense that most of its electrons are not free to change their energies, it is called _______________.
Unlock Deck
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Unlock Deck
k this deck
45
What is degenerate matter?
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46
List the two basic types of intrinsic variable stars.
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47
The Instability Strip on the H-R Diagram is the location for what type of stars _______________.
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Unlock Deck
k this deck
48
A open star cluster will have a(n) _____________ turn-off point than an older star cluster.
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k this deck
49
A(n) _______________star is any star that changes its brightness significantly and repeatedly.
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50
Explain how the age of a star cluster provides evidence of stellar evolution.
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51
Why is there an upper end in the main sequence of the H-R diagram?
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