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Deck 15: Star Formation and the Interstellar Medium

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Question
Dust reddens starlight because

A) it re-emits the light it absorbs at red wavelengths.
B) it emits mostly in the infrared due to its cold temperature.
C) it is made mostly of hydrogen,which produces the red Halpha emission line.
D) it preferentially affects light at optical and shorter wavelengths.
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Question
A protostar is usually in hydrostatic equilibrium during its collapse.
Question
The lowest-density gas in the interstellar medium is also the coldest.
Question
When winds blow the gas away from a forming protostar it becomes visible as a T Tauri star.
Question
Dust appears dark in __________ wavelengths and bright in __________ wavelengths.

A) optical;ultraviolet
B) infrared;radio
C) radio;ultraviolet
D) optical;infrared
Question
Stars forming in molecular clouds tend to form first in the low-density periphery.
Question
Dust that is heated to 30 K will emit a blackbody spectrum that peaks at

A) 1 μ\mu m.
B) 30 μ\mu m.
C) 50 μ\mu m.
D) 100 μ\mu m.
Question
The coldest molecular clouds in our galaxy have temperatures of approximately 1,000 K.
Question
Herbig-Haro objects are almost always found in pairs on either side of a young protostar.
Question
When radiation from an object passes through the interstellar medium,

A) the object appears dimmer.
B) the object appears bluer.
C) the object appears redder and dimmer.
D) the object's apparent velocity changes.
Question
When a molecular cloud fragments and stars form,the least massive stars are the first to form while the massive stars take longer to form.
Question
Neutral hydrogen atoms are found only inside dense clouds where they are shielded from stellar radiation.
Question
The H- atom is important in protostars because it acts as a powerful temperature regulator.
Question
The average density of the interstellar medium is many times less dense than the best vacuum on Earth.
Question
The average density of the interstellar medium is

A) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
B) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
C) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
D) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
Question
The interstellar medium is divided up into three different kinds of gas clouds: cold gas at 10 K,warm gas at 8,000 K,and hot gas at about 1 million K.
Question
Star formation is a quiet and tranquil process.
Question
The dust in the interstellar medium comes primarily from stellar winds of main-sequence stars.
Question
The only effect of interstellar dust is that it makes objects appear redder than they really are.
Question
We observe molecular hydrogen gas We observe molecular hydrogen gas using 21-cm emission.<div style=padding-top: 35px> using 21-cm emission.
Question
"Weather" in the interstellar medium is produced

A) only by supernovae.
B) by supernovae and strong winds from luminous stars.
C) by supernovae,strong winds from luminous stars,and fast-moving stars.
D) by supernovae,strong winds from luminous stars,fast-moving stars,and exploding planets.
Question
If you wanted to study regions where star formation is currently happening you could use

A) Halpha emission to look for O and B stars.
B) a radio telescope to search for molecular cloud cores.
C) infrared emission to identify T Tauri stars.
D) All of the above
Question
Of the following processes at work in molecular clouds,which is the one that inevitably dominates the clouds' evolution?

A) Magnetic fields
B) Conservation of angular momentum
C) Gravity
D) Turbulence
Question
A young protostar is __________ than the Sun even though its surface temperature is __________.

A) less luminous;hotter
B) larger;cooler
C) more luminous;cooler
D) smaller;hotter
Question
A typical molecular cloud has a temperature of approximately

A) 0.3 K.
B) 10 K.
C) 300 K.
D) 1,000 K.
Question
Magnetic fields inside a molecular cloud act to

A) inhibit gravitational collapse.
B) fragment the cloud into numerous cores.
C) modulate the temperature of the molecules.
D) increase the formation of dust grains.
Question
Molecular clouds are best observed at __________ wavelengths.

A) ultraviolet
B) optical
C) infrared
D) radio
Question
Interstellar clouds are

A) hydrogen gas,condensed out of the interstellar medium,like water clouds in the Earth's atmosphere.
B) regions where hydrogen tends to be denser than the surrounding gas.
C) regions where water condenses out of the interstellar medium.
D) oxygen gas,condensed out of the interstellar medium,like water clouds in the Earth's atmosphere.
Question
Molecular cloud cores are places where you might find

A) protostars.
B) Herbig-Haro objects.
C) carbon monoxide.
D) All of the above
Question
Warm ionized gas in the interstellar medium appears __________ when imaged in the optical region of the electromagnetic spectrum.

A) red
B) yellow
C) blue
D) dark
Question
An H II region signals the presence of

A) newly formed stars.
B) young stars.
C) O- and B-type stars.
D) All of the above
Question
What primarily makes it difficult to observe protostars?

A) They occur in dusty regions.
B) They have low luminosities.
C) They do not shine at any wavelength until they become T Tauri stars.
D) The star formation process happens so quickly.
Question
An accretion disk forms around a collapsing protostar because infalling material must conserve

A) energy.
B) centrifugal force.
C) velocity.
D) angular momentum.
Question
Which of the following is responsible for heating the bulk of the very hot intercloud gas?

A) High-energy radiation from stars
B) Supernovae
C) Young O and B stars
D) The heating is an even mix of all three sources.
Question
Sitting in a 100°F hot tub feels much hotter than standing outside on a 100°F day.This analogy illustrates why

A) interstellar dust is dark at optical wavelengths but bright in the infrared.
B) supernovae can heat their shells to such high temperatures.
C) an astronaut would feel cold in the 106 K intercloud gas.
D) the Solar System is immersed in a hot bubble of gas.
Question
A surprising fact about a <strong>A surprising fact about a protostar is that,even though nuclear reactions have not yet started in their cores,they are __________ than the Sun.</strong> A) hotter B) rotating faster C) denser D) more luminous <div style=padding-top: 35px> protostar is that,even though nuclear reactions have not yet started in their cores,they are __________ than the Sun.

A) hotter
B) rotating faster
C) denser
D) more luminous
Question
If the temperature inside a protostar were to suddenly increase,the protostar would

A) expand.
B) contract.
C) remain the same size.
D) explode.
Question
We detect neutral gas in the interstellar medium by looking for radiation at 21 cm that arises when

A) an electron moves from the <strong>We detect neutral gas in the interstellar medium by looking for radiation at 21 cm that arises when</strong> A) an electron moves from the to state in a hydrogen atom. B) an electron is ionized from a hydrogen atom. C) carbon monoxide (CO)gas is excited by stellar radiation. D) the spin of an electron flips and aligns with the spin of a proton in a hydrogen atom. <div style=padding-top: 35px> to <strong>We detect neutral gas in the interstellar medium by looking for radiation at 21 cm that arises when</strong> A) an electron moves from the to state in a hydrogen atom. B) an electron is ionized from a hydrogen atom. C) carbon monoxide (CO)gas is excited by stellar radiation. D) the spin of an electron flips and aligns with the spin of a proton in a hydrogen atom. <div style=padding-top: 35px> state in a hydrogen atom.
B) an electron is ionized from a hydrogen atom.
C) carbon monoxide (CO)gas is excited by stellar radiation.
D) the spin of an electron flips and aligns with the spin of a proton in a hydrogen atom.
Question
The entire process of star formation is really just an evolving balance between

A) heat and rotation.
B) core temperature and surface temperature.
C) pressure and gravity.
D) radiation and heat.
Question
In the interstellar medium,molecules survive only in regions with

A) low temperatures.
B) high densities.
C) lots of dust.
D) All of the above
Question
The H- ion is very important in protostars because it

A) acts as a temperature regulator.
B) undergoes fusion and produces energy.
C) reacts with oxygen to produce water.
D) reduces angular momentum.
Question
Why do many stars form from a single molecular cloud?
Question
Which of the following stars spend the longest time on their Hayashi tracks?

A) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars <div style=padding-top: 35px> stars
B) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars <div style=padding-top: 35px> stars
C) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars <div style=padding-top: 35px> stars
D) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars <div style=padding-top: 35px> stars
Question
What happens as a protostar contracts?

A) Its density rises.
B) Its temperature rises.
C) Its pressure rises.
D) All of the above are true.
Question
At what wavelength are H II regions most clearly visible,and why do H II regions mark the regions where new stars are currently being formed?
Question
Brown dwarfs are considered failed stars because

A) fusion never begins in their cores.
B) they never reach masses larger than 50 Jupiter masses.
C) convection never plays a role in their energy transport.
D) they primarily shine at infrared wavelengths.
Question
The source of energy for a contracting protostar comes from

A) gravitational potential energy.
B) kinetic energy.
C) thermonuclear energy.
D) radiation energy.
Question
Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> star was probably close to

A) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
B) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
C) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
D) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
Question
The most common types of stars in our galaxy are

A) high-mass stars.
B) low-mass stars.
C) an equal mix of high- and low-mass stars.
D) We do not yet know which types of stars are most common in our galaxy.
Question
In the densest molecular clouds,the average density is approximately In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , .<div style=padding-top: 35px> .If a cube of molecular cloud gas with this density contained In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , .<div style=padding-top: 35px> of material (the amount needed to make a In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , .<div style=padding-top: 35px> star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , .<div style=padding-top: 35px> ,the mass of a hydrogen atom is In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , .<div style=padding-top: 35px> , In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , .<div style=padding-top: 35px> .
Question
How long does it typically take for a protostar to form a <strong>How long does it typically take for a protostar to form a star?</strong> A) B) C) 3,000 years D) 300 years <div style=padding-top: 35px> star?

A) <strong>How long does it typically take for a protostar to form a star?</strong> A) B) C) 3,000 years D) 300 years <div style=padding-top: 35px>
B) <strong>How long does it typically take for a protostar to form a star?</strong> A) B) C) 3,000 years D) 300 years <div style=padding-top: 35px>
C) 3,000 years
D) 300 years
Question
Why is it possible for self-gravity to dominate pressure in molecular clouds but not in most interstellar clouds?
Question
Why do stars form most often within molecular clouds?
Question
A __________ is a failed star that shines primarily because of energy derived from its gravitational collapse.

A) black hole
B) brown dwarf
C) protostar
D) T Tauri star
Question
Why does the surface temperature of a protostar remain nearly constant as its core contracts?
Question
Why can we see dust in the interstellar medium better at far-infrared wavelengths than we can at optical wavelengths?
Question
Compare the volume of the Sun with the volume of interstellar space it occupies.Is the occupied percentage large or small? (Note: the radius of the Compare the volume of the Sun with the volume of interstellar space it occupies.Is the occupied percentage large or small? (Note: the radius of the ;the nearest star is 4.6 light-years away; <div style=padding-top: 35px> ;the nearest star is 4.6 light-years away; Compare the volume of the Sun with the volume of interstellar space it occupies.Is the occupied percentage large or small? (Note: the radius of the ;the nearest star is 4.6 light-years away; <div style=padding-top: 35px>
Question
A protostar's evolutionary "track" in the H-R diagram traces out

A) only how the protostar's radius changes with time.
B) how the protostar's luminosity,temperature,and radius change with time.
C) only how the protostar's luminosity changes with time.
D) only how the protostar's spectral type changes with time.
Question
The Hayashi track of a low-mass protostar in the H-R diagram is a path of approximately constant

A) mass.
B) luminosity.
C) temperature.
D) radius.
Question
If a <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . <div style=padding-top: 35px> protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . <div style=padding-top: 35px> ,what is its approximate radius?

A) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
B) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
C) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
D) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
Question
What is the energy source that powers brown dwarf stars?
Question
How are Herbig-Haro objects related to T Tauri stars?
Question
Why do some theories of star formation hypothesize that massive stars that form in a molecular cloud may influence the number and mass of the lower mass stars that form in the cloud?
Question
When a When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K.<div style=padding-top: 35px> protostar forms,it starts out at the top of the Hayashi track with a luminosity of When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K.<div style=padding-top: 35px> and a temperature of 3,600 K.What is its radius at this point (give the answer in units of When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K.<div style=padding-top: 35px> ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K.<div style=padding-top: 35px> ? For reference,the Sun's temperature is 5,800 K.
Question
Why can't very bright protostars be seen in visible light?
Question
Why does a protostar continue to collapse as it is forming?
Question
Some molecular clouds have so much internal pressure that it exceeds their self-gravity.What keeps them from expanding and dissipating?
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Deck 15: Star Formation and the Interstellar Medium
1
Dust reddens starlight because

A) it re-emits the light it absorbs at red wavelengths.
B) it emits mostly in the infrared due to its cold temperature.
C) it is made mostly of hydrogen,which produces the red Halpha emission line.
D) it preferentially affects light at optical and shorter wavelengths.
it preferentially affects light at optical and shorter wavelengths.
2
A protostar is usually in hydrostatic equilibrium during its collapse.
True
3
The lowest-density gas in the interstellar medium is also the coldest.
False
4
When winds blow the gas away from a forming protostar it becomes visible as a T Tauri star.
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5
Dust appears dark in __________ wavelengths and bright in __________ wavelengths.

A) optical;ultraviolet
B) infrared;radio
C) radio;ultraviolet
D) optical;infrared
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6
Stars forming in molecular clouds tend to form first in the low-density periphery.
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7
Dust that is heated to 30 K will emit a blackbody spectrum that peaks at

A) 1 μ\mu m.
B) 30 μ\mu m.
C) 50 μ\mu m.
D) 100 μ\mu m.
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8
The coldest molecular clouds in our galaxy have temperatures of approximately 1,000 K.
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9
Herbig-Haro objects are almost always found in pairs on either side of a young protostar.
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10
When radiation from an object passes through the interstellar medium,

A) the object appears dimmer.
B) the object appears bluer.
C) the object appears redder and dimmer.
D) the object's apparent velocity changes.
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11
When a molecular cloud fragments and stars form,the least massive stars are the first to form while the massive stars take longer to form.
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12
Neutral hydrogen atoms are found only inside dense clouds where they are shielded from stellar radiation.
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13
The H- atom is important in protostars because it acts as a powerful temperature regulator.
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14
The average density of the interstellar medium is many times less dense than the best vacuum on Earth.
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15
The average density of the interstellar medium is

A) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . .
B) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . .
C) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . .
D) <strong>The average density of the interstellar medium is</strong> A) . B) . C) . D) . .
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16
The interstellar medium is divided up into three different kinds of gas clouds: cold gas at 10 K,warm gas at 8,000 K,and hot gas at about 1 million K.
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17
Star formation is a quiet and tranquil process.
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18
The dust in the interstellar medium comes primarily from stellar winds of main-sequence stars.
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19
The only effect of interstellar dust is that it makes objects appear redder than they really are.
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20
We observe molecular hydrogen gas We observe molecular hydrogen gas using 21-cm emission. using 21-cm emission.
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21
"Weather" in the interstellar medium is produced

A) only by supernovae.
B) by supernovae and strong winds from luminous stars.
C) by supernovae,strong winds from luminous stars,and fast-moving stars.
D) by supernovae,strong winds from luminous stars,fast-moving stars,and exploding planets.
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22
If you wanted to study regions where star formation is currently happening you could use

A) Halpha emission to look for O and B stars.
B) a radio telescope to search for molecular cloud cores.
C) infrared emission to identify T Tauri stars.
D) All of the above
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23
Of the following processes at work in molecular clouds,which is the one that inevitably dominates the clouds' evolution?

A) Magnetic fields
B) Conservation of angular momentum
C) Gravity
D) Turbulence
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24
A young protostar is __________ than the Sun even though its surface temperature is __________.

A) less luminous;hotter
B) larger;cooler
C) more luminous;cooler
D) smaller;hotter
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25
A typical molecular cloud has a temperature of approximately

A) 0.3 K.
B) 10 K.
C) 300 K.
D) 1,000 K.
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26
Magnetic fields inside a molecular cloud act to

A) inhibit gravitational collapse.
B) fragment the cloud into numerous cores.
C) modulate the temperature of the molecules.
D) increase the formation of dust grains.
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k this deck
27
Molecular clouds are best observed at __________ wavelengths.

A) ultraviolet
B) optical
C) infrared
D) radio
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28
Interstellar clouds are

A) hydrogen gas,condensed out of the interstellar medium,like water clouds in the Earth's atmosphere.
B) regions where hydrogen tends to be denser than the surrounding gas.
C) regions where water condenses out of the interstellar medium.
D) oxygen gas,condensed out of the interstellar medium,like water clouds in the Earth's atmosphere.
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29
Molecular cloud cores are places where you might find

A) protostars.
B) Herbig-Haro objects.
C) carbon monoxide.
D) All of the above
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30
Warm ionized gas in the interstellar medium appears __________ when imaged in the optical region of the electromagnetic spectrum.

A) red
B) yellow
C) blue
D) dark
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31
An H II region signals the presence of

A) newly formed stars.
B) young stars.
C) O- and B-type stars.
D) All of the above
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32
What primarily makes it difficult to observe protostars?

A) They occur in dusty regions.
B) They have low luminosities.
C) They do not shine at any wavelength until they become T Tauri stars.
D) The star formation process happens so quickly.
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Unlock Deck
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33
An accretion disk forms around a collapsing protostar because infalling material must conserve

A) energy.
B) centrifugal force.
C) velocity.
D) angular momentum.
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34
Which of the following is responsible for heating the bulk of the very hot intercloud gas?

A) High-energy radiation from stars
B) Supernovae
C) Young O and B stars
D) The heating is an even mix of all three sources.
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35
Sitting in a 100°F hot tub feels much hotter than standing outside on a 100°F day.This analogy illustrates why

A) interstellar dust is dark at optical wavelengths but bright in the infrared.
B) supernovae can heat their shells to such high temperatures.
C) an astronaut would feel cold in the 106 K intercloud gas.
D) the Solar System is immersed in a hot bubble of gas.
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36
A surprising fact about a <strong>A surprising fact about a protostar is that,even though nuclear reactions have not yet started in their cores,they are __________ than the Sun.</strong> A) hotter B) rotating faster C) denser D) more luminous protostar is that,even though nuclear reactions have not yet started in their cores,they are __________ than the Sun.

A) hotter
B) rotating faster
C) denser
D) more luminous
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37
If the temperature inside a protostar were to suddenly increase,the protostar would

A) expand.
B) contract.
C) remain the same size.
D) explode.
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38
We detect neutral gas in the interstellar medium by looking for radiation at 21 cm that arises when

A) an electron moves from the <strong>We detect neutral gas in the interstellar medium by looking for radiation at 21 cm that arises when</strong> A) an electron moves from the to state in a hydrogen atom. B) an electron is ionized from a hydrogen atom. C) carbon monoxide (CO)gas is excited by stellar radiation. D) the spin of an electron flips and aligns with the spin of a proton in a hydrogen atom. to <strong>We detect neutral gas in the interstellar medium by looking for radiation at 21 cm that arises when</strong> A) an electron moves from the to state in a hydrogen atom. B) an electron is ionized from a hydrogen atom. C) carbon monoxide (CO)gas is excited by stellar radiation. D) the spin of an electron flips and aligns with the spin of a proton in a hydrogen atom. state in a hydrogen atom.
B) an electron is ionized from a hydrogen atom.
C) carbon monoxide (CO)gas is excited by stellar radiation.
D) the spin of an electron flips and aligns with the spin of a proton in a hydrogen atom.
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39
The entire process of star formation is really just an evolving balance between

A) heat and rotation.
B) core temperature and surface temperature.
C) pressure and gravity.
D) radiation and heat.
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40
In the interstellar medium,molecules survive only in regions with

A) low temperatures.
B) high densities.
C) lots of dust.
D) All of the above
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41
The H- ion is very important in protostars because it

A) acts as a temperature regulator.
B) undergoes fusion and produces energy.
C) reacts with oxygen to produce water.
D) reduces angular momentum.
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42
Why do many stars form from a single molecular cloud?
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43
Which of the following stars spend the longest time on their Hayashi tracks?

A) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars stars
B) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars stars
C) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars stars
D) <strong>Which of the following stars spend the longest time on their Hayashi tracks?</strong> A) stars B) stars C) stars D) stars stars
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44
What happens as a protostar contracts?

A) Its density rises.
B) Its temperature rises.
C) Its pressure rises.
D) All of the above are true.
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45
At what wavelength are H II regions most clearly visible,and why do H II regions mark the regions where new stars are currently being formed?
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46
Brown dwarfs are considered failed stars because

A) fusion never begins in their cores.
B) they never reach masses larger than 50 Jupiter masses.
C) convection never plays a role in their energy transport.
D) they primarily shine at infrared wavelengths.
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47
The source of energy for a contracting protostar comes from

A) gravitational potential energy.
B) kinetic energy.
C) thermonuclear energy.
D) radiation energy.
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48
Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . star was probably close to

A) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . .
B) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . .
C) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . .
D) <strong>Given the low efficiency of the star formation process,the initial mass of a molecular cloud fragment that formed a star was probably close to</strong> A) . B) . C) . D) . .
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49
The most common types of stars in our galaxy are

A) high-mass stars.
B) low-mass stars.
C) an equal mix of high- and low-mass stars.
D) We do not yet know which types of stars are most common in our galaxy.
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50
In the densest molecular clouds,the average density is approximately In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , . .If a cube of molecular cloud gas with this density contained In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , . of material (the amount needed to make a In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , . star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , . ,the mass of a hydrogen atom is In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , . , In the densest molecular clouds,the average density is approximately .If a cube of molecular cloud gas with this density contained of material (the amount needed to make a star),what would be the length of a side of the cube in units of AU? For reference,the mass of the Sun is ,the mass of a hydrogen atom is , . .
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51
How long does it typically take for a protostar to form a <strong>How long does it typically take for a protostar to form a star?</strong> A) B) C) 3,000 years D) 300 years star?

A) <strong>How long does it typically take for a protostar to form a star?</strong> A) B) C) 3,000 years D) 300 years
B) <strong>How long does it typically take for a protostar to form a star?</strong> A) B) C) 3,000 years D) 300 years
C) 3,000 years
D) 300 years
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52
Why is it possible for self-gravity to dominate pressure in molecular clouds but not in most interstellar clouds?
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53
Why do stars form most often within molecular clouds?
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54
A __________ is a failed star that shines primarily because of energy derived from its gravitational collapse.

A) black hole
B) brown dwarf
C) protostar
D) T Tauri star
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55
Why does the surface temperature of a protostar remain nearly constant as its core contracts?
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56
Why can we see dust in the interstellar medium better at far-infrared wavelengths than we can at optical wavelengths?
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57
Compare the volume of the Sun with the volume of interstellar space it occupies.Is the occupied percentage large or small? (Note: the radius of the Compare the volume of the Sun with the volume of interstellar space it occupies.Is the occupied percentage large or small? (Note: the radius of the ;the nearest star is 4.6 light-years away; ;the nearest star is 4.6 light-years away; Compare the volume of the Sun with the volume of interstellar space it occupies.Is the occupied percentage large or small? (Note: the radius of the ;the nearest star is 4.6 light-years away;
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58
A protostar's evolutionary "track" in the H-R diagram traces out

A) only how the protostar's radius changes with time.
B) how the protostar's luminosity,temperature,and radius change with time.
C) only how the protostar's luminosity changes with time.
D) only how the protostar's spectral type changes with time.
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59
The Hayashi track of a low-mass protostar in the H-R diagram is a path of approximately constant

A) mass.
B) luminosity.
C) temperature.
D) radius.
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60
If a <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . ,what is its approximate radius?

A) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . .
B) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . .
C) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . .
D) <strong>If a protostar starts out on the Hayashi track with a temperature of 3,300 K and a luminosity of ,what is its approximate radius?</strong> A) . B) . C) . D) . .
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61
What is the energy source that powers brown dwarf stars?
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62
How are Herbig-Haro objects related to T Tauri stars?
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63
Why do some theories of star formation hypothesize that massive stars that form in a molecular cloud may influence the number and mass of the lower mass stars that form in the cloud?
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64
When a When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K. protostar forms,it starts out at the top of the Hayashi track with a luminosity of When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K. and a temperature of 3,600 K.What is its radius at this point (give the answer in units of When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K. ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about When a protostar forms,it starts out at the top of the Hayashi track with a luminosity of and a temperature of 3,600 K.What is its radius at this point (give the answer in units of ),and how many times larger is it at this stage compared to its radius as a main-sequence star,which is about ? For reference,the Sun's temperature is 5,800 K. ? For reference,the Sun's temperature is 5,800 K.
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65
Why can't very bright protostars be seen in visible light?
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66
Why does a protostar continue to collapse as it is forming?
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67
Some molecular clouds have so much internal pressure that it exceeds their self-gravity.What keeps them from expanding and dissipating?
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