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Deck 11: Formation and Structure of Stars

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Question
Convection is important in stars because it transports energy outward in the star.
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Question
The Sun, a one solar mass star, will take approximately how many years to go from protostar to main sequence star?

A) 160,000 years
B) 700,000 years
C) 8 million years
D) 30 million years
E) 100 million years
Question
When a large gas cloud starts to collapse in a free-fall due to gravity, the cloud will ____.

A) increase in temperature
B) decrease in temperature
C) rotate slower
D) remain at the same temperature
E) become unstable and breakup
Question
Where is the Trapezium found?

A) in the constellation Trapium
B) in the Orion Nebula
C) in all protostars
D) in all cocoon nebulae
E) in the Bok globules
Question
When a large gas cloud starts to collapse in a free-fall due to gravity, it will start to cool down as it contracts because of the atoms fall inward.
Question
Four of following are factors that must be overcome by a large molecular cloud before gravitational contraction can begin. Which one is the exception?

A) thermal energy of the gas
B) magnetic field of the ISM
C) rotation of the gas cloud
D) intense radiation from a nearby star
E) turbulence in the ISM
Question
After a protostar has progressed in its development, it will have a dense inner part and an outer envelope called a(n) ____.

A) outer-protostar
B) Bok globules
C) upper proto-sphere
D) cocoon nebulae
E) planetary nebulae
Question
One of the major star forming regions in space is the Orion Nebula.
Question
One of the factors that a large molecular cloud must overcome in order for gravitational contraction to begin is the thermal energy of the gas.
Question
The temperature at the core of a star must be at least 1 million degrees Kelvin before fusion can begin.
Question
Low mass stars like the Sun transport energy near their surface using convection.
Question
Eighty percent of the stars on the H-R Diagram are on the main sequence, and that is because the star is in hydrostatic equilibrium due to the _____.

A) degenerate property of hydrogen
B) degenerate property of helium
C) Hertzsprung-Russell Principle
D) fusion of hydrogen
E) fusion of helium
Question
As the protostar contracts gravitationally, it will rotate faster and faster and produce a(n) ____.

A) protostellar globular
B) young stellar object (YSO)
C) protostellar envelope
D) cocoon nebula
E) protostellar disk
Question
A protostar will continue to collapse due to gravity until it reaches the main sequence, and then gravitational collapse will stop when _____ begins.

A) the formation of star-globulars
B) atoms degenerate at the core of the star
C) the fusion of hydrogen
D) the fusion of helium
E) the fission of hydrogen
Question
Which trigger could start the gravitational contraction of a molecular cloud?

A) a faster rotation of the molecular cloud
B) an intense magnetic field
C) the collision of molecular clouds
D) intense radiation from a nearby star
E) a nearby spectral type G star
Question
Stellar winds and _____ will eventually blow away the protostellar disk and remnant cocoons of a protostar apart.

A) gas jets
B) magnetic fields
C) shock waves
D) radiation pressure
E) gravity waves
Question
Main sequence O stars have convective cores because they fuse hydrogen in the proton-proton chain.
Question
One of the factors that a large molecular cloud must overcome in order for gravitational contraction to begin is rotation of the gas cloud.
Question
The proton-proton chain for fusing hydrogen into helium is a much more complicated process than the CNO Cycle for fusing hydrogen into helium.
Question
One trigger that could start the gravitational contraction of a molecular cloud to form stars is a passing shock wave.
Question
What istheresistanceofagastotheflowofradiation?

A) degeneracy
B) conduction
C) opacity
D) hydrostatic pressure
E) gravitational pressure
Question
How do large mass stars in the upper region of the main sequence produce energy?

A) by fusing hydrogen using the proton-proton chain
B) by fusing hydrogen using the CNO Cycle (carbon-nitrogen-oxygen)
C) by fusing hydrogen using both the CNO Cycle and the proton-proton chain
D) by fusing hydrogen using the HNO Cycle (hydrogen-nitrogen-oxygen)
E) by fusing helium using the HeNO Cycle (helium-nitrogen-oxygen)
Question
Match between columns
Premises:
Responses:
______ protostar
I
______ protostar
C
______ protostar
H
______ protostar
D
______ protostar
A
______ protostar
G
______ protostar
B
______ protostar
E
______ protostar
J
______ protostar
F
______ temperature
I
______ temperature
C
______ temperature
H
______ temperature
D
______ temperature
A
______ temperature
G
______ temperature
B
______ temperature
E
______ temperature
J
______ temperature
F
______ supergiants
I
______ supergiants
C
______ supergiants
H
______ supergiants
D
______ supergiants
A
______ supergiants
G
______ supergiants
B
______ supergiants
E
______ supergiants
J
______ supergiants
F
______ giants
I
______ giants
C
______ giants
H
______ giants
D
______ giants
A
______ giants
G
______ giants
B
______ giants
E
______ giants
J
______ giants
F
______ brightness
I
______ brightness
C
______ brightness
H
______ brightness
D
______ brightness
A
______ brightness
G
______ brightness
B
______ brightness
E
______ brightness
J
______ brightness
F
______ birth line
I
______ birth line
C
______ birth line
H
______ birth line
D
______ birth line
A
______ birth line
G
______ birth line
B
______ birth line
E
______ birth line
J
______ birth line
F
______ radius
I
______ radius
C
______ radius
H
______ radius
D
______ radius
A
______ radius
G
______ radius
B
______ radius
E
______ radius
J
______ radius
F
______ fusion of H into He
I
______ fusion of H into He
C
______ fusion of H into He
H
______ fusion of H into He
D
______ fusion of H into He
A
______ fusion of H into He
G
______ fusion of H into He
B
______ fusion of H into He
E
______ fusion of H into He
J
______ fusion of H into He
F
_____ white dwarfs
I
_____ white dwarfs
C
_____ white dwarfs
H
_____ white dwarfs
D
_____ white dwarfs
A
_____ white dwarfs
G
_____ white dwarfs
B
_____ white dwarfs
E
_____ white dwarfs
J
_____ white dwarfs
F
______ main sequence stars
I
______ main sequence stars
C
______ main sequence stars
H
______ main sequence stars
D
______ main sequence stars
A
______ main sequence stars
G
______ main sequence stars
B
______ main sequence stars
E
______ main sequence stars
J
______ main sequence stars
F
Question
What is the difference between the proton-proton chain and the CNO cycle?
Question
Stars with masses equal to or less than 1.1 solar masses use the _____________ to convert H into He for their energy source.
Question
Describe the concept of a "birth line" and identify where it falls on the H-R Diagram.
Question
Hydrostatic equilibrium in a newborn star is regulated by a very unique thermostat called the _____________ thermostat.
Question
During the main sequence lifetime of a star of any mass, the core of the star will be composed mainly of ____.

A) hydrogen
B) helium
C) carbon
D) hydrogen and helium
E) helium and carbon
Question
List three processes energy can be transported between regions.
Question
Before a giant molecular cloud can contract gravitationally, it must overcome four physical factors that resist compression.  What are these four factors?
Question
Hydrostatic equilibrium is the balance between _____________ and radiation _____________.
Question
Theforce responsible for the collapse of an interstellar cloud is_____________.
Question
Energy flows by radiation or convection inside normal stars but almost never by _____________ because radiation or convection is much more efficient.
Question
Pre-main sequence stars (not protostars) on the H-R Diagram are _____.

A) above and to the right of supergiants
B) below and to the left of the main sequence
C) below and to the left of white dwarfs
D) above and to the right of the main sequence
E) not on the H-R Diagram yet
Question
The nuclear reactions in a star's core burn steadily so long as the relationship between _____________ and_____________ is stable.
Question
Briefly describe the pressure-temperature thermostat in stars.
Question
How do low mass stars in the lower region of the main sequence produce their energy?

A) by fusing hydrogen using the proton-proton chain
B) by fusing hydrogen using the CNO Cycle (carbon-nitrogen-oxygen)
C) by fusing hydrogen using both the CNO Cycle and the proton-proton chain
D) by fusing hydrogen using the HNO Cycle (hydrogen-nitrogen-oxygen)
E) by fusing helium using the HeNO Cycle (helium-nitrogen-oxygen)
Question
Star clusters are important to the study the stellar evolution because stars in a given cluster have the same _____________.
Question
When a large gas cloud starts to collapse in a free-fall due to gravity, the temperature of the gas will _____________.
Question
When a large gas cloud starts to collapse in a free-fall due to gravity, the rotation rate will ______________.
Question
How does a gas cloud become hot enough to ignite nuclear reactions?
Question
Whatis a protostar and how does it get its energy?
Question
There are several triggers that could start the gravitational contraction of a molecular cloud and subsequent star formation.  List two of these triggers.
Question
The proton-proton chain needs a high temperature because the protons must overcome the _____________.
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Deck 11: Formation and Structure of Stars
1
Convection is important in stars because it transports energy outward in the star.
True
2
The Sun, a one solar mass star, will take approximately how many years to go from protostar to main sequence star?

A) 160,000 years
B) 700,000 years
C) 8 million years
D) 30 million years
E) 100 million years
D
3
When a large gas cloud starts to collapse in a free-fall due to gravity, the cloud will ____.

A) increase in temperature
B) decrease in temperature
C) rotate slower
D) remain at the same temperature
E) become unstable and breakup
A
4
Where is the Trapezium found?

A) in the constellation Trapium
B) in the Orion Nebula
C) in all protostars
D) in all cocoon nebulae
E) in the Bok globules
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Unlock for access to all 44 flashcards in this deck.
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5
When a large gas cloud starts to collapse in a free-fall due to gravity, it will start to cool down as it contracts because of the atoms fall inward.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
6
Four of following are factors that must be overcome by a large molecular cloud before gravitational contraction can begin. Which one is the exception?

A) thermal energy of the gas
B) magnetic field of the ISM
C) rotation of the gas cloud
D) intense radiation from a nearby star
E) turbulence in the ISM
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
7
After a protostar has progressed in its development, it will have a dense inner part and an outer envelope called a(n) ____.

A) outer-protostar
B) Bok globules
C) upper proto-sphere
D) cocoon nebulae
E) planetary nebulae
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Unlock Deck
k this deck
8
One of the major star forming regions in space is the Orion Nebula.
Unlock Deck
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Unlock Deck
k this deck
9
One of the factors that a large molecular cloud must overcome in order for gravitational contraction to begin is the thermal energy of the gas.
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Unlock Deck
k this deck
10
The temperature at the core of a star must be at least 1 million degrees Kelvin before fusion can begin.
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k this deck
11
Low mass stars like the Sun transport energy near their surface using convection.
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Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
12
Eighty percent of the stars on the H-R Diagram are on the main sequence, and that is because the star is in hydrostatic equilibrium due to the _____.

A) degenerate property of hydrogen
B) degenerate property of helium
C) Hertzsprung-Russell Principle
D) fusion of hydrogen
E) fusion of helium
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
13
As the protostar contracts gravitationally, it will rotate faster and faster and produce a(n) ____.

A) protostellar globular
B) young stellar object (YSO)
C) protostellar envelope
D) cocoon nebula
E) protostellar disk
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
14
A protostar will continue to collapse due to gravity until it reaches the main sequence, and then gravitational collapse will stop when _____ begins.

A) the formation of star-globulars
B) atoms degenerate at the core of the star
C) the fusion of hydrogen
D) the fusion of helium
E) the fission of hydrogen
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
15
Which trigger could start the gravitational contraction of a molecular cloud?

A) a faster rotation of the molecular cloud
B) an intense magnetic field
C) the collision of molecular clouds
D) intense radiation from a nearby star
E) a nearby spectral type G star
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
16
Stellar winds and _____ will eventually blow away the protostellar disk and remnant cocoons of a protostar apart.

A) gas jets
B) magnetic fields
C) shock waves
D) radiation pressure
E) gravity waves
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Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
17
Main sequence O stars have convective cores because they fuse hydrogen in the proton-proton chain.
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Unlock Deck
k this deck
18
One of the factors that a large molecular cloud must overcome in order for gravitational contraction to begin is rotation of the gas cloud.
Unlock Deck
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Unlock Deck
k this deck
19
The proton-proton chain for fusing hydrogen into helium is a much more complicated process than the CNO Cycle for fusing hydrogen into helium.
Unlock Deck
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Unlock Deck
k this deck
20
One trigger that could start the gravitational contraction of a molecular cloud to form stars is a passing shock wave.
Unlock Deck
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Unlock Deck
k this deck
21
What istheresistanceofagastotheflowofradiation?

A) degeneracy
B) conduction
C) opacity
D) hydrostatic pressure
E) gravitational pressure
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
22
How do large mass stars in the upper region of the main sequence produce energy?

A) by fusing hydrogen using the proton-proton chain
B) by fusing hydrogen using the CNO Cycle (carbon-nitrogen-oxygen)
C) by fusing hydrogen using both the CNO Cycle and the proton-proton chain
D) by fusing hydrogen using the HNO Cycle (hydrogen-nitrogen-oxygen)
E) by fusing helium using the HeNO Cycle (helium-nitrogen-oxygen)
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
23
Match between columns
Premises:
Responses:
______ protostar
I
______ protostar
C
______ protostar
H
______ protostar
D
______ protostar
A
______ protostar
G
______ protostar
B
______ protostar
E
______ protostar
J
______ protostar
F
______ temperature
I
______ temperature
C
______ temperature
H
______ temperature
D
______ temperature
A
______ temperature
G
______ temperature
B
______ temperature
E
______ temperature
J
______ temperature
F
______ supergiants
I
______ supergiants
C
______ supergiants
H
______ supergiants
D
______ supergiants
A
______ supergiants
G
______ supergiants
B
______ supergiants
E
______ supergiants
J
______ supergiants
F
______ giants
I
______ giants
C
______ giants
H
______ giants
D
______ giants
A
______ giants
G
______ giants
B
______ giants
E
______ giants
J
______ giants
F
______ brightness
I
______ brightness
C
______ brightness
H
______ brightness
D
______ brightness
A
______ brightness
G
______ brightness
B
______ brightness
E
______ brightness
J
______ brightness
F
______ birth line
I
______ birth line
C
______ birth line
H
______ birth line
D
______ birth line
A
______ birth line
G
______ birth line
B
______ birth line
E
______ birth line
J
______ birth line
F
______ radius
I
______ radius
C
______ radius
H
______ radius
D
______ radius
A
______ radius
G
______ radius
B
______ radius
E
______ radius
J
______ radius
F
______ fusion of H into He
I
______ fusion of H into He
C
______ fusion of H into He
H
______ fusion of H into He
D
______ fusion of H into He
A
______ fusion of H into He
G
______ fusion of H into He
B
______ fusion of H into He
E
______ fusion of H into He
J
______ fusion of H into He
F
_____ white dwarfs
I
_____ white dwarfs
C
_____ white dwarfs
H
_____ white dwarfs
D
_____ white dwarfs
A
_____ white dwarfs
G
_____ white dwarfs
B
_____ white dwarfs
E
_____ white dwarfs
J
_____ white dwarfs
F
______ main sequence stars
I
______ main sequence stars
C
______ main sequence stars
H
______ main sequence stars
D
______ main sequence stars
A
______ main sequence stars
G
______ main sequence stars
B
______ main sequence stars
E
______ main sequence stars
J
______ main sequence stars
F
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24
What is the difference between the proton-proton chain and the CNO cycle?
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k this deck
25
Stars with masses equal to or less than 1.1 solar masses use the _____________ to convert H into He for their energy source.
Unlock Deck
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Unlock Deck
k this deck
26
Describe the concept of a "birth line" and identify where it falls on the H-R Diagram.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
27
Hydrostatic equilibrium in a newborn star is regulated by a very unique thermostat called the _____________ thermostat.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
28
During the main sequence lifetime of a star of any mass, the core of the star will be composed mainly of ____.

A) hydrogen
B) helium
C) carbon
D) hydrogen and helium
E) helium and carbon
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
29
List three processes energy can be transported between regions.
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k this deck
30
Before a giant molecular cloud can contract gravitationally, it must overcome four physical factors that resist compression.  What are these four factors?
Unlock Deck
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Unlock Deck
k this deck
31
Hydrostatic equilibrium is the balance between _____________ and radiation _____________.
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k this deck
32
Theforce responsible for the collapse of an interstellar cloud is_____________.
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k this deck
33
Energy flows by radiation or convection inside normal stars but almost never by _____________ because radiation or convection is much more efficient.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
34
Pre-main sequence stars (not protostars) on the H-R Diagram are _____.

A) above and to the right of supergiants
B) below and to the left of the main sequence
C) below and to the left of white dwarfs
D) above and to the right of the main sequence
E) not on the H-R Diagram yet
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
35
The nuclear reactions in a star's core burn steadily so long as the relationship between _____________ and_____________ is stable.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
36
Briefly describe the pressure-temperature thermostat in stars.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
37
How do low mass stars in the lower region of the main sequence produce their energy?

A) by fusing hydrogen using the proton-proton chain
B) by fusing hydrogen using the CNO Cycle (carbon-nitrogen-oxygen)
C) by fusing hydrogen using both the CNO Cycle and the proton-proton chain
D) by fusing hydrogen using the HNO Cycle (hydrogen-nitrogen-oxygen)
E) by fusing helium using the HeNO Cycle (helium-nitrogen-oxygen)
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
38
Star clusters are important to the study the stellar evolution because stars in a given cluster have the same _____________.
Unlock Deck
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Unlock Deck
k this deck
39
When a large gas cloud starts to collapse in a free-fall due to gravity, the temperature of the gas will _____________.
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40
When a large gas cloud starts to collapse in a free-fall due to gravity, the rotation rate will ______________.
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41
How does a gas cloud become hot enough to ignite nuclear reactions?
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42
Whatis a protostar and how does it get its energy?
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43
There are several triggers that could start the gravitational contraction of a molecular cloud and subsequent star formation.  List two of these triggers.
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Unlock Deck
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44
The proton-proton chain needs a high temperature because the protons must overcome the _____________.
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