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Deck 5: Light

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Question
The period of a wave is inversely proportional to the frequency of that wave.
Use Space or
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to flip the card.
Question
If the Sun instantaneously stopped giving off light,what would happen on Earth?

A)It would immediately get dark.
B)It would get dark 8 minutes later.
C)It would get dark 27 minutes later.
D)It would get dark 1 hour later.
E)It would get dark 24 hours later.
Question
The emission lines of a given atom occur at the exact same energies as that atom's absorption lines.
Question
The emission spectrum of a helium atom is identical to that of a carbon atom.
Question
Which formula denotes how the speed of light is related to its wavelength and frequency?

A)c = λf
B)c = λ/f
C)c = f/λ
D)c = 1/λf
E)There is no relationship between wavelength and frequency.
Question
Cooler objects radiate more of their total light at shorter wavelengths than hotter objects.
Question
A thin cloud of cool gas on top of a hotter blackbody will radiate an emission spectrum.
Question
A light-year is a unit that is used to measure:

A)time
B)wavelength
C)speed
D)energy
E)distance
Question
If an object is moving toward you,the light you see from it will be blueshifted.
Question
If the wavelength of a beam of light were to double,how would that affect its frequency?

A)The frequency would be four times larger.
B)The frequency would be two times larger.
C)The frequency would be two times smaller
D)The frequency would be four times smaller.
E)There is no relationship between wavelength and frequency.
Question
The fact that the speed of light is constant as it travels through a vacuum means that:

A)photons with longer wavelengths have lower frequencies
B)radio wave photons have shorter wavelengths than gamma ray photons
C)X-rays can be transmitted through the atmosphere around the world
D)ultraviolet photons have less energy than visible photons
E)all of the above are true
Question
An emission line is produced when an atom absorbs a photon of a specific energy.
Question
Your average body temperature is approximately 310 K,thus most of the light you radiate is at ultraviolet wavelengths.
Question
How does the speed of light traveling through a medium (such as air or glass)compare to the speed of light in a vacuum?

A)It is the same as the speed of light in a vacuum.
B)It is always less than the speed of light in a vacuum.
C)It is always greater than the speed of light in a vacuum.
D)Sometimes it is greater than the speed of light in a vacuum,and sometimes it is less,depending on the medium.
E)Light can't travel through a medium,it only can go through a vacuum.
Question
The luminosity of an object is independent of its distance from you.
Question
A radio photon travels slower than a gamma ray photon.
Question
What is the difference between visible light and X-rays?

A)Speed;X-rays go faster than visible light.
B)Speed;X-rays go slower than visible light.
C)Wavelength;X-rays have a shorter wavelength than visible light.
D)Wavelength;X-rays have a longer wavelength than visible light.
E)X-rays are made up of particles,while visible light is made up of waves.
Question
The speed of light was first determined by which scientist?

A)Galileo
B)Newton
C)Kepler
D)Rømer
E)Einstein
Question
The speed of light in a vacuum is:

A)300,000 m/s
B)300,000 mph
C)300,000 km/s
D)300,000,000 mph
E)infinite
Question
If the frequency of a beam of light were to increase,its period would _________ and its wavelength would _________?

A)decrease;increase
B)increase;decrease
C)increase;increase
D)decrease;decrease
E)stay the same;stay the same
Question
Einstein showed that the _________ could be explained if photons carried quantized amounts of energy.

A)warping of space and time
B)Heisenberg uncertainty principle
C)photoelectric effect
D)theory of special relativity
E)Bohr model of the atom
Question
Light with a wavelength of 600 nm has a frequency of:

A)2 × 105 Hz
B)5 × 107 Hz
C)2 × 1010 Hz
D)5 × 1012 Hz
E)5 × 1014 Hz
Question
The n = 5 electronic energy level in a hydrogen atom is 1.5 × 1019 J higher than the n = 3 level.If an electron moves from the n = 5 level to the n = 3 level,then a photon of wavelength:

A)1.3 nm,which is in the ultraviolet region,is emitted
B)1.3 nm,which is in the ultraviolet region,is absorbed
C)1,300 nm,which is in the infrared region,is absorbed
D)1,300 nm,which is in the infrared region,is emitted
E)no light will be absorbed or emitted
Question
Which of the following photons carry the smallest amount of energy?

A)a blue photon of the visible spectrum,whose wavelength is 450 nm
B)an infrared photon,whose wavelength is 105 m
C)a red photon in the visible spectrum,whose wavelength is 700 nm
D)a microwave photon,whose wavelength is 102 m
E)an ultraviolet photon,whose wavelength is 300 nm
Question
How do the wavelength and frequency of red light compare to the wavelength and frequency of blue light?

A)Red light has a longer wavelength and higher frequency than blue light.
B)Red light has a longer wavelength and lower frequency than blue light.
C)Red light has a shorter wavelength and higher frequency than blue light.
D)Red light has a shorter wavelength and lower frequency than blue light.
Question
The Doppler shift can be used to determine the _________ of an object.

A)energy
B)temperature
C)radial velocity
D)color
E)three-dimensional velocity
Question
The color of visible light is determined by its:

A)speed
B)wavelength
C)mass
D)distance from you
E)size
Question
In the quantum mechanical view of the atom,an electron is best thought of as:

A)a cloud that is centered on the nucleus
B)a particle orbiting the nucleus
C)free to orbit at any distance from the nucleus
D)a particle inside the nucleus
E)All of the above are true.
Question
Saying that something is quantized means that it:

A)is a wave
B)is a particle
C)travels at the speed of light
D)can only have discrete quantities
E)is smaller than an atom
Question
A spaceship is traveling toward Earth while giving off a constant radio signal with a wavelength of 1 meter.What will the signal look like to people on Earth?

A)a signal with a wavelength less than 1 m
B)a signal with a wavelength more than 1 m
C)a signal moving faster than the speed of light
D)a signal moving slower than the speed of light
E)a signal with a wavelength of 1 m,moving the normal speed of light
Question
Light is:

A)a wave
B)a particle
C)both a particle and a wave
D)neither a particle nor a wave
Question
A red photon has a wavelength of 650 nm.An ultraviolet photon has a wavelength of 250 nm.The energy of an ultraviolet photon is _________ the energy of a red photon.

A)2.6 times larger than
B)6.8 times larger than
C)2.6 times smaller than
D)6.8 times smaller than
E)the same as
Question
When an electron moves from a higher energy level in an atom to a lower energy level:

A)the atom is ionized
B)a continuous spectrum is emitted
C)a photon is emitted
D)a photon is absorbed
E)the electron loses mass
Question
Which of these objects would emit an absorption spectrum?

A)an incandescent light bulb
B)a fluorescent light bulb
C)an isolated hot gas cloud
D)a hot,solid object
E)a thin,cool gas cloud that lies in front of a hotter blackbody
Question
If you observe an isolated hot cloud of gas,you will see:

A)an absorption spectrum
B)a continuous spectrum
C)an emission spectrum
D)a rainbow spectrum
E)a dark spectrum
Question
What wavelengths of light can the human eye see?

A)3.8 μm to 7.5 μm
B)3.8 nm to 7.5 nm
C)380 cm to 750 cm
D)380 nm to 750 nm
E)3.8 m to 7.5 m
Question
Why is an iron atom a different element than a carbon atom?

A)A carbon atom has fewer neutrons in its nucleus than an iron atom.
B)An iron atom has more protons in its nucleus than a carbon atom.
C)An iron atom has more electrons than a carbon atom.
D)A carbon atom is bigger than an iron atom.
E)All of the above are true.
Question
As wavelength increases,the energy of a photon _________ and its frequency _________.

A)increases;decreases
B)increases;increases
C)decreases;decreases
D)decreases;increases
Question
If you observe a star,you will see:

A)an absorption spectrum
B)a continuous spectrum
C)an emission spectrum
D)a rainbow spectrum
E)a dark spectrum
Question
Which of the following lists different types of electromagnetic radiation in order from the smallest wavelength to the largest wavelength?

A)radio waves,infrared,visible,ultraviolet,X-rays
B)gamma rays,ultraviolet,visible,infrared,radio waves
C)gamma rays,X-rays,infrared,visible,ultraviolet
D)X-rays,infrared,visible,ultraviolet,radio waves
E)radio waves,ultraviolet,visible,infrared,gamma rays
Question
You observe a red star and a blue star and are able to determine that they are the same size.Which star is hotter,and which star is more luminous?

A)The red star is hotter and more luminous.
B)The red star is hotter,and the blue star is more luminous.
C)The blue star is hotter and more luminous.
D)The blue star is hotter,and the red star is more luminous.
E)They have the same luminosities and temperatures.
Question
If you find that the H-alpha line in a star's spectrum occurs at a wavelength of 656.45 nm,what is the star's radial velocity? Note that the rest wavelength of this line is 656.30 nm.

A)150 km/s away from you
B)150 km/s toward you
C)350 km/s toward you
D)70 km/s away from you
E)70 km/s toward you
Question
Star C and star D have the same luminosity.Star C is twice as far away from Earth as star D.How do the brightnesses of stars C and D compare?

A)Star C appears four times as bright as star D.
B)Star C appears twice as bright as star D.
C)Star D appears twice as bright as star C.
D)Star D appears four times as bright as star C.
E)Stars C and D appear equally bright.
Question
At what wavelength does your body radiate the most given that your temperature is approximately that of the Earth,which is 300 K?

A)105 m
B)103 m
C)102 m
D)10 m
E)1,000 m
Question
A black car left in the sunlight becomes hotter than a white car left in the sunlight under the same conditions because:

A)the white car absorbs more sunlight than the black car
B)the white car reflects more sunlight than the black car
C)the black car absorbs only blue photons and reflects red photons,whereas the white car absorbs only red photons and reflects blue photons
D)the atoms in the black car are smaller than the atoms in the white car
Question
As a blackbody becomes hotter,it also becomes _________ and _________.

A)more luminous;redder
B)more luminous;bluer
C)less luminous;redder
D)less luminous;bluer
E)more luminous;stays the same color
Question
If a star has a peak wavelength of 290 nm,what is its surface temperature?

A)1000 K
B)2000 K
C)5000 K
D)10,000 K
E)100,000 K
Question
Why do some stars in the sky appear blue,while other stars appear red?

A)The red stars are hotter on their surfaces than the blue stars.
B)The blue stars are hotter on their surfaces than the red stars.
C)The blue stars are closer to us than the red stars.
D)The red stars are closer to us than the blue stars.
E)The blue stars are moving away from us faster than the red stars.
Question
The Kelvin temperature scale is used in astronomy because:

A)at 0 K an object has absolutely zero energy
B)water freezes at 0 K
C)water boils at 100 K
D)hydrogen freezes at 0 K
E)the highest temperature possible is 1000 K
Question
Star A and star B appear equally bright in the sky.Star A is twice as far away from Earth as star B.How do the luminosities of stars A and B compare?

A)Star A is twice as luminous as star B.
B)Star B is twice as luminous as star A.
C)Star A is four times as luminous as star B.
D)Star B is four times as luminous as star A.
E)Stars A and B have the same luminosity.
Question
Compare two blackbody objects,one at 200 K and one at 400 K.How much larger is the flux from the 400 K object,compared to the flux from the 200 K object?

A)two times larger
B)four times larger
C)eight times larger
D)sixteen times larger
E)They have the same flux.
Question
Which of these stars would have the biggest redshift?

A)a star moving slowly toward you
B)a star moving fast toward you
C)a star moving slowly away from you
D)a star moving fast away from you
E)a star that is not moving away from you or toward you
Question
The average red giant in the night sky is about 1,000 times more luminous than the average main-sequence star.If both kinds of stars have about the same brightness,how much farther away are the red giants compared to the main-sequence stars?

A)32 times farther
B)1,000 times farther
C)65 times farther
D)5.6 times farther
E)The red giants and main sequence stars have approximately the same distances.
Question
Which of these planets would be expected to have the highest average temperature?

A)a light-colored planet close to the Sun
B)a dark-colored planet close to the Sun
C)a light-colored planet far from the Sun
D)a dark-colored planet far from the Sun
E)There is not enough information to know which would be hotter.
Question
At what temperature does water freeze?

A)0 K
B)32 K
C)100 K
D)273 K
E)373 K
Question
You are driving on the freeway when a police officer records a shift of −7 nm when he or she hits you with a radar gun that operates at a wavelength of 0.1 m.How fast were you going?

A)43 mph
B)83 mph
C)21 mph
D)65 mph
E)47 mph
Question
Consider an incandescent light bulb.If you wanted to turn a 10 W light bulb into a 100 W light bulb,how would you change the temperature of the filament inside the bulb?

A)Raise its temperature by a factor of 3.2.
B)Raise its temperature by a factor of 1.8.
C)Raise its temperature by a factor of 10.
D)Lower its temperature by a factor of 2.6.
E)Lower its temperature by a factor of 5.4.
Question
You record the spectrum of a star and find that a calcium absorption line has an observed wavelength of 394.0 nm.This calcium absorption line has a rest wavelength is 393.3 nm;what is the radial velocity of this star?

A)5,000 km/s
B)500 km/s
C)50 km/s
D)5 km/s
E)0.5 km/s
Question
What does it mean to say that an object is in thermal equilibrium?

A)It isn't absorbing any energy.
B)It isn't radiating any energy.
C)It is radiating more energy than it is absorbing.
D)It is absorbing more energy than it is radiating.
E)It is absorbing the same amount of energy that it is radiating.
Question
You observe the spectrum of two stars.A section of these spectra are shown below.The spectra are different because star A is:
<strong>You observe the spectrum of two stars.A section of these spectra are shown below.The spectra are different because star A is: </strong> A)cooler than star B B)farther away from us than star B C)moving toward us faster than star B D)made of different elements than star B E)larger than star B <div style=padding-top: 35px>

A)cooler than star B
B)farther away from us than star B
C)moving toward us faster than star B
D)made of different elements than star B
E)larger than star B
Question
Describe,in your own words,the fundamental problem with the Bohr model of the atom.(That is,why doesn't an electron orbit a nucleus like a planet does the Sun?)
Question
Astronomers have now found a large number of exoplanets,which are planets that orbit around stars other than the Sun.Imagine astronomers found a planet identical to the Earth orbiting a star that had the same radius as the Sun,but with a temperature that is twice the temperature of the Sun.How far would this new planet need to be away from its star to have the same average temperature as the Earth?
Question
Name four physical properties of an object that we can determine by analyzing the radiation that it emits,and briefly describe how these properties are determined.Cite the names of any laws that apply.
Question
How are atoms excited and why do they decay?
Question
Which of the following factors does NOT directly influence the temperature of a planet?

A)the luminosity of the Sun
B)the distance of the planet from the Sun
C)the albedo of the planet
D)the size of the planet
E)the atmosphere of the planet
Question
If you were driving down a deserted country road and you saw a light in the distance,what would you need to measure or know about it in order to calculate how far away it was?
Question
The difference in energy between the n = 2 and n = 1 electronic energy levels in the hydrogen atom is 1.6 × 10<sup>−</sup><sup>18</sup> J.If an electron moves from the n = 1 level to the n = 2 level,will a photon be emitted or absorbed? What will its energy be,and what type of electromagnetic radiation is it? Use the electromagnetic spectrum shown above to answer this question.<div style=padding-top: 35px>
The difference in energy between the n = 2 and n = 1 electronic energy levels in the hydrogen atom is 1.6 × 1018 J.If an electron moves from the n = 1 level to the n = 2 level,will a photon be emitted or absorbed? What will its energy be,and what type of electromagnetic radiation is it? Use the electromagnetic spectrum shown above to answer this question.
Question
If you want a blackbody's peak wavelength to be cut in half,by how much do you need to increase its temperature?
Question
Suppose you observe a star emitting a certain emission line of helium at 584.8 nm.The rest wavelength of this line is 587.6 nm.How fast is the star moving? Is it moving toward you or away from you?
Question
If Saturn has a semimajor axis of 10 AU and an albedo of 0.7,what is its expected temperature?

A)130 K
B)15 K
C)35 K
D)170 K
E)65 K
Question
Compare and contrast the wavelengths,frequencies,speeds,and energies of red and blue photons.
Question
For a star that lies in the plane of Earth's orbit around the Sun,how does the observed wavelength of the hydrogen absorption line at 656.28 nm in its spectrum change in wavelength (if at all)with the time of year?
Question
Imagine you observed three different stars: a red star,a blue star,and a yellow star.You are able to determine that each of these stars has the same radius.Answer each question below and explain how you know.
A: Which star is hottest?
B: Which star is the most luminous?
C: Which star is the brightest?
Question
How can the average temperature of the Earth stay approximately constant,even though the Earth is always getting energy from the Sun?
Question
Why do we see black lines in an absorption spectrum if the absorbed photons are (almost)instantaneously reemitted by the atoms in the cloud?
Question
A spaceship approaches Earth at 0.9 times the speed of light and shines a powerful searchlight onto Earth.How fast will the photons from this searchlight be moving when they hit Earth?
Question
An asteroid with an albedo of 0.1 and a comet with an albedo of 0.6 are orbiting at roughly the same distance from the Sun.How do their temperatures compare?

A)They both have the same temperature.
B)The comet is hotter than the asteroid.
C)The asteroid is hotter than the comet.
D)You must know their sizes to compare their temperatures.
E)You must know their compositions to compare their temperatures.
Question
Imagine you see a streetlamp that is 100 meters away from you and is 10,000 times more luminous than a firefly.How close would you have to be to the firefly to make it look as bright as the streetlamp?
Question
How much would you have to change the temperature of an object if you wanted to increase its flux by a factor of 100?
Question
Imagine a satellite is orbiting a planet as shown in the image below.This satellite gives off radio waves with a constant wavelength of 1 meter.An observer on Earth then measures the signal from the satellite when it is at the locations labeled A-D.For each of these locations,how does the wavelength received compare to the wavelength that the satellite gave off?Imagine a satellite is orbiting a planet as shown in the image below.This satellite gives off radio waves with a constant wavelength of 1 meter.An observer on Earth then measures the signal from the satellite when it is at the locations labeled A-D.For each of these locations,how does the wavelength received compare to the wavelength that the satellite gave off? <div style=padding-top: 35px>
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Deck 5: Light
1
The period of a wave is inversely proportional to the frequency of that wave.
True
2
If the Sun instantaneously stopped giving off light,what would happen on Earth?

A)It would immediately get dark.
B)It would get dark 8 minutes later.
C)It would get dark 27 minutes later.
D)It would get dark 1 hour later.
E)It would get dark 24 hours later.
It would get dark 8 minutes later.
3
The emission lines of a given atom occur at the exact same energies as that atom's absorption lines.
True
4
The emission spectrum of a helium atom is identical to that of a carbon atom.
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5
Which formula denotes how the speed of light is related to its wavelength and frequency?

A)c = λf
B)c = λ/f
C)c = f/λ
D)c = 1/λf
E)There is no relationship between wavelength and frequency.
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6
Cooler objects radiate more of their total light at shorter wavelengths than hotter objects.
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7
A thin cloud of cool gas on top of a hotter blackbody will radiate an emission spectrum.
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8
A light-year is a unit that is used to measure:

A)time
B)wavelength
C)speed
D)energy
E)distance
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9
If an object is moving toward you,the light you see from it will be blueshifted.
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k this deck
10
If the wavelength of a beam of light were to double,how would that affect its frequency?

A)The frequency would be four times larger.
B)The frequency would be two times larger.
C)The frequency would be two times smaller
D)The frequency would be four times smaller.
E)There is no relationship between wavelength and frequency.
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11
The fact that the speed of light is constant as it travels through a vacuum means that:

A)photons with longer wavelengths have lower frequencies
B)radio wave photons have shorter wavelengths than gamma ray photons
C)X-rays can be transmitted through the atmosphere around the world
D)ultraviolet photons have less energy than visible photons
E)all of the above are true
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12
An emission line is produced when an atom absorbs a photon of a specific energy.
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13
Your average body temperature is approximately 310 K,thus most of the light you radiate is at ultraviolet wavelengths.
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k this deck
14
How does the speed of light traveling through a medium (such as air or glass)compare to the speed of light in a vacuum?

A)It is the same as the speed of light in a vacuum.
B)It is always less than the speed of light in a vacuum.
C)It is always greater than the speed of light in a vacuum.
D)Sometimes it is greater than the speed of light in a vacuum,and sometimes it is less,depending on the medium.
E)Light can't travel through a medium,it only can go through a vacuum.
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15
The luminosity of an object is independent of its distance from you.
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16
A radio photon travels slower than a gamma ray photon.
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17
What is the difference between visible light and X-rays?

A)Speed;X-rays go faster than visible light.
B)Speed;X-rays go slower than visible light.
C)Wavelength;X-rays have a shorter wavelength than visible light.
D)Wavelength;X-rays have a longer wavelength than visible light.
E)X-rays are made up of particles,while visible light is made up of waves.
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18
The speed of light was first determined by which scientist?

A)Galileo
B)Newton
C)Kepler
D)Rømer
E)Einstein
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19
The speed of light in a vacuum is:

A)300,000 m/s
B)300,000 mph
C)300,000 km/s
D)300,000,000 mph
E)infinite
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20
If the frequency of a beam of light were to increase,its period would _________ and its wavelength would _________?

A)decrease;increase
B)increase;decrease
C)increase;increase
D)decrease;decrease
E)stay the same;stay the same
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21
Einstein showed that the _________ could be explained if photons carried quantized amounts of energy.

A)warping of space and time
B)Heisenberg uncertainty principle
C)photoelectric effect
D)theory of special relativity
E)Bohr model of the atom
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k this deck
22
Light with a wavelength of 600 nm has a frequency of:

A)2 × 105 Hz
B)5 × 107 Hz
C)2 × 1010 Hz
D)5 × 1012 Hz
E)5 × 1014 Hz
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23
The n = 5 electronic energy level in a hydrogen atom is 1.5 × 1019 J higher than the n = 3 level.If an electron moves from the n = 5 level to the n = 3 level,then a photon of wavelength:

A)1.3 nm,which is in the ultraviolet region,is emitted
B)1.3 nm,which is in the ultraviolet region,is absorbed
C)1,300 nm,which is in the infrared region,is absorbed
D)1,300 nm,which is in the infrared region,is emitted
E)no light will be absorbed or emitted
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24
Which of the following photons carry the smallest amount of energy?

A)a blue photon of the visible spectrum,whose wavelength is 450 nm
B)an infrared photon,whose wavelength is 105 m
C)a red photon in the visible spectrum,whose wavelength is 700 nm
D)a microwave photon,whose wavelength is 102 m
E)an ultraviolet photon,whose wavelength is 300 nm
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25
How do the wavelength and frequency of red light compare to the wavelength and frequency of blue light?

A)Red light has a longer wavelength and higher frequency than blue light.
B)Red light has a longer wavelength and lower frequency than blue light.
C)Red light has a shorter wavelength and higher frequency than blue light.
D)Red light has a shorter wavelength and lower frequency than blue light.
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26
The Doppler shift can be used to determine the _________ of an object.

A)energy
B)temperature
C)radial velocity
D)color
E)three-dimensional velocity
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27
The color of visible light is determined by its:

A)speed
B)wavelength
C)mass
D)distance from you
E)size
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28
In the quantum mechanical view of the atom,an electron is best thought of as:

A)a cloud that is centered on the nucleus
B)a particle orbiting the nucleus
C)free to orbit at any distance from the nucleus
D)a particle inside the nucleus
E)All of the above are true.
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29
Saying that something is quantized means that it:

A)is a wave
B)is a particle
C)travels at the speed of light
D)can only have discrete quantities
E)is smaller than an atom
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30
A spaceship is traveling toward Earth while giving off a constant radio signal with a wavelength of 1 meter.What will the signal look like to people on Earth?

A)a signal with a wavelength less than 1 m
B)a signal with a wavelength more than 1 m
C)a signal moving faster than the speed of light
D)a signal moving slower than the speed of light
E)a signal with a wavelength of 1 m,moving the normal speed of light
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31
Light is:

A)a wave
B)a particle
C)both a particle and a wave
D)neither a particle nor a wave
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32
A red photon has a wavelength of 650 nm.An ultraviolet photon has a wavelength of 250 nm.The energy of an ultraviolet photon is _________ the energy of a red photon.

A)2.6 times larger than
B)6.8 times larger than
C)2.6 times smaller than
D)6.8 times smaller than
E)the same as
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33
When an electron moves from a higher energy level in an atom to a lower energy level:

A)the atom is ionized
B)a continuous spectrum is emitted
C)a photon is emitted
D)a photon is absorbed
E)the electron loses mass
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34
Which of these objects would emit an absorption spectrum?

A)an incandescent light bulb
B)a fluorescent light bulb
C)an isolated hot gas cloud
D)a hot,solid object
E)a thin,cool gas cloud that lies in front of a hotter blackbody
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35
If you observe an isolated hot cloud of gas,you will see:

A)an absorption spectrum
B)a continuous spectrum
C)an emission spectrum
D)a rainbow spectrum
E)a dark spectrum
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36
What wavelengths of light can the human eye see?

A)3.8 μm to 7.5 μm
B)3.8 nm to 7.5 nm
C)380 cm to 750 cm
D)380 nm to 750 nm
E)3.8 m to 7.5 m
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37
Why is an iron atom a different element than a carbon atom?

A)A carbon atom has fewer neutrons in its nucleus than an iron atom.
B)An iron atom has more protons in its nucleus than a carbon atom.
C)An iron atom has more electrons than a carbon atom.
D)A carbon atom is bigger than an iron atom.
E)All of the above are true.
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38
As wavelength increases,the energy of a photon _________ and its frequency _________.

A)increases;decreases
B)increases;increases
C)decreases;decreases
D)decreases;increases
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39
If you observe a star,you will see:

A)an absorption spectrum
B)a continuous spectrum
C)an emission spectrum
D)a rainbow spectrum
E)a dark spectrum
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40
Which of the following lists different types of electromagnetic radiation in order from the smallest wavelength to the largest wavelength?

A)radio waves,infrared,visible,ultraviolet,X-rays
B)gamma rays,ultraviolet,visible,infrared,radio waves
C)gamma rays,X-rays,infrared,visible,ultraviolet
D)X-rays,infrared,visible,ultraviolet,radio waves
E)radio waves,ultraviolet,visible,infrared,gamma rays
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41
You observe a red star and a blue star and are able to determine that they are the same size.Which star is hotter,and which star is more luminous?

A)The red star is hotter and more luminous.
B)The red star is hotter,and the blue star is more luminous.
C)The blue star is hotter and more luminous.
D)The blue star is hotter,and the red star is more luminous.
E)They have the same luminosities and temperatures.
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42
If you find that the H-alpha line in a star's spectrum occurs at a wavelength of 656.45 nm,what is the star's radial velocity? Note that the rest wavelength of this line is 656.30 nm.

A)150 km/s away from you
B)150 km/s toward you
C)350 km/s toward you
D)70 km/s away from you
E)70 km/s toward you
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43
Star C and star D have the same luminosity.Star C is twice as far away from Earth as star D.How do the brightnesses of stars C and D compare?

A)Star C appears four times as bright as star D.
B)Star C appears twice as bright as star D.
C)Star D appears twice as bright as star C.
D)Star D appears four times as bright as star C.
E)Stars C and D appear equally bright.
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44
At what wavelength does your body radiate the most given that your temperature is approximately that of the Earth,which is 300 K?

A)105 m
B)103 m
C)102 m
D)10 m
E)1,000 m
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45
A black car left in the sunlight becomes hotter than a white car left in the sunlight under the same conditions because:

A)the white car absorbs more sunlight than the black car
B)the white car reflects more sunlight than the black car
C)the black car absorbs only blue photons and reflects red photons,whereas the white car absorbs only red photons and reflects blue photons
D)the atoms in the black car are smaller than the atoms in the white car
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46
As a blackbody becomes hotter,it also becomes _________ and _________.

A)more luminous;redder
B)more luminous;bluer
C)less luminous;redder
D)less luminous;bluer
E)more luminous;stays the same color
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47
If a star has a peak wavelength of 290 nm,what is its surface temperature?

A)1000 K
B)2000 K
C)5000 K
D)10,000 K
E)100,000 K
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48
Why do some stars in the sky appear blue,while other stars appear red?

A)The red stars are hotter on their surfaces than the blue stars.
B)The blue stars are hotter on their surfaces than the red stars.
C)The blue stars are closer to us than the red stars.
D)The red stars are closer to us than the blue stars.
E)The blue stars are moving away from us faster than the red stars.
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49
The Kelvin temperature scale is used in astronomy because:

A)at 0 K an object has absolutely zero energy
B)water freezes at 0 K
C)water boils at 100 K
D)hydrogen freezes at 0 K
E)the highest temperature possible is 1000 K
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50
Star A and star B appear equally bright in the sky.Star A is twice as far away from Earth as star B.How do the luminosities of stars A and B compare?

A)Star A is twice as luminous as star B.
B)Star B is twice as luminous as star A.
C)Star A is four times as luminous as star B.
D)Star B is four times as luminous as star A.
E)Stars A and B have the same luminosity.
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51
Compare two blackbody objects,one at 200 K and one at 400 K.How much larger is the flux from the 400 K object,compared to the flux from the 200 K object?

A)two times larger
B)four times larger
C)eight times larger
D)sixteen times larger
E)They have the same flux.
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52
Which of these stars would have the biggest redshift?

A)a star moving slowly toward you
B)a star moving fast toward you
C)a star moving slowly away from you
D)a star moving fast away from you
E)a star that is not moving away from you or toward you
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53
The average red giant in the night sky is about 1,000 times more luminous than the average main-sequence star.If both kinds of stars have about the same brightness,how much farther away are the red giants compared to the main-sequence stars?

A)32 times farther
B)1,000 times farther
C)65 times farther
D)5.6 times farther
E)The red giants and main sequence stars have approximately the same distances.
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54
Which of these planets would be expected to have the highest average temperature?

A)a light-colored planet close to the Sun
B)a dark-colored planet close to the Sun
C)a light-colored planet far from the Sun
D)a dark-colored planet far from the Sun
E)There is not enough information to know which would be hotter.
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55
At what temperature does water freeze?

A)0 K
B)32 K
C)100 K
D)273 K
E)373 K
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56
You are driving on the freeway when a police officer records a shift of −7 nm when he or she hits you with a radar gun that operates at a wavelength of 0.1 m.How fast were you going?

A)43 mph
B)83 mph
C)21 mph
D)65 mph
E)47 mph
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57
Consider an incandescent light bulb.If you wanted to turn a 10 W light bulb into a 100 W light bulb,how would you change the temperature of the filament inside the bulb?

A)Raise its temperature by a factor of 3.2.
B)Raise its temperature by a factor of 1.8.
C)Raise its temperature by a factor of 10.
D)Lower its temperature by a factor of 2.6.
E)Lower its temperature by a factor of 5.4.
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58
You record the spectrum of a star and find that a calcium absorption line has an observed wavelength of 394.0 nm.This calcium absorption line has a rest wavelength is 393.3 nm;what is the radial velocity of this star?

A)5,000 km/s
B)500 km/s
C)50 km/s
D)5 km/s
E)0.5 km/s
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59
What does it mean to say that an object is in thermal equilibrium?

A)It isn't absorbing any energy.
B)It isn't radiating any energy.
C)It is radiating more energy than it is absorbing.
D)It is absorbing more energy than it is radiating.
E)It is absorbing the same amount of energy that it is radiating.
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60
You observe the spectrum of two stars.A section of these spectra are shown below.The spectra are different because star A is:
<strong>You observe the spectrum of two stars.A section of these spectra are shown below.The spectra are different because star A is: </strong> A)cooler than star B B)farther away from us than star B C)moving toward us faster than star B D)made of different elements than star B E)larger than star B

A)cooler than star B
B)farther away from us than star B
C)moving toward us faster than star B
D)made of different elements than star B
E)larger than star B
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61
Describe,in your own words,the fundamental problem with the Bohr model of the atom.(That is,why doesn't an electron orbit a nucleus like a planet does the Sun?)
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62
Astronomers have now found a large number of exoplanets,which are planets that orbit around stars other than the Sun.Imagine astronomers found a planet identical to the Earth orbiting a star that had the same radius as the Sun,but with a temperature that is twice the temperature of the Sun.How far would this new planet need to be away from its star to have the same average temperature as the Earth?
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63
Name four physical properties of an object that we can determine by analyzing the radiation that it emits,and briefly describe how these properties are determined.Cite the names of any laws that apply.
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64
How are atoms excited and why do they decay?
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65
Which of the following factors does NOT directly influence the temperature of a planet?

A)the luminosity of the Sun
B)the distance of the planet from the Sun
C)the albedo of the planet
D)the size of the planet
E)the atmosphere of the planet
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66
If you were driving down a deserted country road and you saw a light in the distance,what would you need to measure or know about it in order to calculate how far away it was?
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67
The difference in energy between the n = 2 and n = 1 electronic energy levels in the hydrogen atom is 1.6 × 10<sup>−</sup><sup>18</sup> J.If an electron moves from the n = 1 level to the n = 2 level,will a photon be emitted or absorbed? What will its energy be,and what type of electromagnetic radiation is it? Use the electromagnetic spectrum shown above to answer this question.
The difference in energy between the n = 2 and n = 1 electronic energy levels in the hydrogen atom is 1.6 × 1018 J.If an electron moves from the n = 1 level to the n = 2 level,will a photon be emitted or absorbed? What will its energy be,and what type of electromagnetic radiation is it? Use the electromagnetic spectrum shown above to answer this question.
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68
If you want a blackbody's peak wavelength to be cut in half,by how much do you need to increase its temperature?
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69
Suppose you observe a star emitting a certain emission line of helium at 584.8 nm.The rest wavelength of this line is 587.6 nm.How fast is the star moving? Is it moving toward you or away from you?
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70
If Saturn has a semimajor axis of 10 AU and an albedo of 0.7,what is its expected temperature?

A)130 K
B)15 K
C)35 K
D)170 K
E)65 K
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71
Compare and contrast the wavelengths,frequencies,speeds,and energies of red and blue photons.
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72
For a star that lies in the plane of Earth's orbit around the Sun,how does the observed wavelength of the hydrogen absorption line at 656.28 nm in its spectrum change in wavelength (if at all)with the time of year?
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73
Imagine you observed three different stars: a red star,a blue star,and a yellow star.You are able to determine that each of these stars has the same radius.Answer each question below and explain how you know.
A: Which star is hottest?
B: Which star is the most luminous?
C: Which star is the brightest?
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74
How can the average temperature of the Earth stay approximately constant,even though the Earth is always getting energy from the Sun?
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75
Why do we see black lines in an absorption spectrum if the absorbed photons are (almost)instantaneously reemitted by the atoms in the cloud?
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76
A spaceship approaches Earth at 0.9 times the speed of light and shines a powerful searchlight onto Earth.How fast will the photons from this searchlight be moving when they hit Earth?
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77
An asteroid with an albedo of 0.1 and a comet with an albedo of 0.6 are orbiting at roughly the same distance from the Sun.How do their temperatures compare?

A)They both have the same temperature.
B)The comet is hotter than the asteroid.
C)The asteroid is hotter than the comet.
D)You must know their sizes to compare their temperatures.
E)You must know their compositions to compare their temperatures.
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78
Imagine you see a streetlamp that is 100 meters away from you and is 10,000 times more luminous than a firefly.How close would you have to be to the firefly to make it look as bright as the streetlamp?
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79
How much would you have to change the temperature of an object if you wanted to increase its flux by a factor of 100?
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80
Imagine a satellite is orbiting a planet as shown in the image below.This satellite gives off radio waves with a constant wavelength of 1 meter.An observer on Earth then measures the signal from the satellite when it is at the locations labeled A-D.For each of these locations,how does the wavelength received compare to the wavelength that the satellite gave off?Imagine a satellite is orbiting a planet as shown in the image below.This satellite gives off radio waves with a constant wavelength of 1 meter.An observer on Earth then measures the signal from the satellite when it is at the locations labeled A-D.For each of these locations,how does the wavelength received compare to the wavelength that the satellite gave off?
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