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Deck 11: Heating the Atmosphere

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Question
The fraction of the total radiation that is reflected by a surface is ________.

A)its albedo
B)a larger proportion than is absorbed by the surface
C)the same no matter what Earth material we examine
D)immediately scattered by the atmosphere
Use Space or
up arrow
down arrow
to flip the card.
Question
Energy from the Sun reaches Earth through ________.

A)convection
B)conduction
C)radiation
D)gravity
Question
The tops of tall mountains are much colder than surrounding lowlands. This is evidence of ________.

A)solar heating
B)global warming
C)the environmental lapse rate
D)ozone depletion
Question
How is climate different from weather?

A)Climate is "average weather."
B)Climate is the sum of all statistical weather information that helps describe a region.
C)Climate cannot change, but weather changes frequently.
D)They are the same thing.
Question
Air is best described as ________.

A)an element
B)a compound
C)a mixture of gases, with solid particles and liquid droplets in it
D)a mixture of gases only
Question
Which of the following locations would have the lowest average air pressure?

A)Summit of Mount Everest, tallest mountain on Earth
B)Dead Sea, Israel, lowest point on Earth's land surface
C)Challenger Deep, Mariana Trench, lowest point in the ocean
D)Sea level, anywhere on the planet
Question
Weather is ultimately driven by ________.

A)geothermal heat
B)energy input from the Sun
C)radioactive decay
D)environmental lapse rate
Question
________ is the agent of atmospheric temperature change.

A)Heat
B)Starlight
C)Gravity
D)Pressure
Question
<strong> Examine the figure. Which of the four lettered positions depicts the Northern Hemisphere winter solstice?</strong> A)A B)B C)C D)D <div style=padding-top: 35px>
Examine the figure. Which of the four lettered positions depicts the Northern Hemisphere winter solstice?

A)A
B)B
C)C
D)D
Question
Imagine you are in a flying aircraft. You note the presence of clouds and storms at your same altitude. What layer of the atmosphere must the aircraft be traveling through?

A)troposphere
B)stratosphere
C)ionosphere
D)mesosphere
Question
In total, Earth receives about 7% more energy from the Sun during ________ relative to ________.

A)aphelion; perihelion
B)perihelion; aphelion
C)fall equinox; summer solstice
D)winter solstice; spring equinox
Question
Even though ground-level ozone is a health hazard, the "ozone layer" in the stratosphere is a health benefit because ________.

A)it stops global warming
B)it reduces thunderstorms
C)it screens out some harmful solar radiation
D)it absorbs certain wavelengths of infrared radiation that are emitted by Earth's surface
Question
Water vapor levels in Earth's atmosphere ________.

A)vary from place to place and time to time
B)range between 0% and 4%
C)are a major mechanism of transport of latent heat
D)all of the above
Question
Solar radiation is ________, as compared to the ________ emitted by Earth.

A)long-wave radiation; short-wave radiation
B)short-wave radiation; long-wave radiation
C)infrared radiation; visible light
D)heat; electromagnetic radiation
Question
Dust in the atmosphere is responsible for which of the following?

A)reflection of solar energy
B)acting as a nucleus for condensation and cloud formation
C)optical phenomena such as a red sky at sunset
D)Atmospheric dust does all of these.
Question
Sea salts from breaking waves, fine soil blown into the air, smoke and soot from wildfires, pollen and microorganisms lifted by the wind, and ash from volcanic eruptions are all examples of ________.

A)greenhouse gases
B)aerosols
C)elements
D)radiosondes
Question
Which one of the following is the most abundant gas in the atmosphere?

A)carbon dioxide
B)ozone
C)oxygen
D)nitrogen
Question
If it were December and you wanted to travel to "the land of the midnight Sun," where would you have to go?

A)anywhere north of 66 1/2° N latitude
B)anywhere between 23 1/2° N latitude and 66 1/2° N latitude
C)anywhere between 23 1/2° S latitude and 66 1/2° S latitude
D)anywhere south of 66 1/2° S latitude
Question
The lowest layer of the atmosphere is the ________.

A)troposphere
B)stratosphere
C)ionosphere
D)mesosphere
Question
Approximately how many kilometers (miles)above Earth's surface does the atmosphere end and outer space begin?

A)47 kilometers (30 miles)
B)82 kilometers (52 miles)
C)145 kilometers (90 miles)
D)There is no clearly defined upper limit to the atmosphere; it gradually fades into space.
Question
The storage of heat in the lower layer of the atmosphere due to certain gases absorbing heat is called ________.

A)adiabatic cooling
B)radiosonde
C)scattering
D)the greenhouse effect
Question
Solar radiation may be absorbed, transmitted, or redirected (reflected or scattered)by the atmosphere.
Question
A field covered with several inches of freshly-fallen snow has a high albedo.
Question
Fairbanks, Alaska has more hours of daylight in June than Miami, Florida.
Question
Because stratospheric ozone occurs at 10 to 50 kilometers elevation (6 to 31 miles above Earth's surface), it is not vulnerable to human influence.
Question
Human beings have no effect on climate.
Question
The seasonal shift of isotherms is greater over the continents than over the ocean.
Question
Climate scientists predict that an effect of human-caused climate change is ________.

A)stronger tropical storms
B)more earthquakes
C)the death of every human being
D)all of the above
Question
Visible light makes up about one-half of the electromagnetic spectrum.
Question
The variation in distance between Earth and the Sun is the cause of the temperature variations that cause the seasons.
Question
If it were not for the inclination of Earth's axis, there would be no well-defined seasons.
Question
By adding the daily maximum and minimum temperatures and then dividing by two, the daily range is calculated.
Question
A city located along a windward coast will probably have ________.

A)warmer summer temperatures than an inland location at the same latitude
B)summer temperatures that are very similar to an inland location at the same latitude
C)cooler summer temperatures than an inland location at the same latitude
D)the season of summer, while inland locations don't experience summer
Question
As you increase in latitude, for example going from the equator to the Tropic of Cancer, you would expect annual temperature range to increase.
Question
Climate data can predict the weather.
Question
The annual temperature range at most latitudes in the Southern Hemisphere is much smaller than that in the Northern Hemisphere. The reason for this is that ________.

A)Earth is closest to the Sun during the Southern Hemisphere summer
B)rainfall and cloudiness are greater in the Southern Hemisphere
C)there is a greater percentage of water surface in the Southern Hemisphere
D)a greater proportion of the land surface is mountainous in the Southern Hemisphere
Question
Conduction is a form of heat transfer that involves the movement of a mass or substance.
Question
More solar energy is reflected back to space (30%)than is absorbed directly by the atmosphere (20%).
Question
Which of the following can influence temperature?

A)position on a landmass
B)altitude
C)cloud cover
D)all of the above
Question
Weather is just another word for climate.
Question
Above the stratosphere is a layer called the ________ where temperatures decrease with an increase in altitude.
Question
On a map, lines connecting points of equal temperature are ________.
Question
Identify and label each of the layers and boundaries in Earth's atmosphere.
Identify and label each of the layers and boundaries in Earth's atmosphere. <div style=padding-top: 35px>
Question
Ozone is concentrated in the middle part of the ________.
Question
Closely spaced isotherms indicate a high ________.
Question
Compare and contrast weather and climate.
Question
The form of oxygen that combines three atoms of oxygen into each molecule is ________.
Question
The most important elements of weather and climate (quantities or properties that are measured regularly)are (1)air temperature, (2)________, (3)type and amount of cloudiness, (4)type and amount of precipitation, (5)air ________, and (6)the speed and direction of the wind.
Question
A day of the year when the length of the night is equal to the length of the day is known as a(n)________.
Question
Examine the figure and use it as a basis for discussing the role the greenhouse effect plays in the atmospheres of (a)the Moon, (b)Earth, and (c)Venus.<div style=padding-top: 35px>
Examine the figure and use it as a basis for discussing the role the greenhouse effect plays in the atmospheres of (a)the Moon, (b)Earth, and (c)Venus.
Question
The concentration of the atmospheric gas ________ is shown in this graph.<div style=padding-top: 35px>
The concentration of the atmospheric gas ________ is shown in this graph.
Question
Match the items in the first column with the correct descriptions in the second column.

A)electromagnetic energy that has been scattered by the atmosphere
B)a package of instruments attached to a balloon
C)a generalization of the weather conditions that are typical of a place
D)the state of the atmosphere at a particular time and place
E)liquid droplets or solid particles in the atmosphere
F)a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
G)the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
H)the change in temperature over changes in altitude in the atmosphere
1)air
2)environmental lapse rate
3)weather
4)diffused light
5)radiosonde
6)aerosols
7)infrared radiation
8)climate
Question
The monthly ________ temperature is calculated by adding together the daily means for each day of the month and dividing by the number of days in the month.
Question
On this graph, one of the monthly mean temperature lines (red or blue)represents the coastal city of San Francisco, California. The other represents Urbana, Illinois, a city on the same latitude as San Francisco, but located deep in the interior of the North American continent. The red line therefore most likely represents ________.<div style=padding-top: 35px>
On this graph, one of the monthly mean temperature lines (red or blue)represents the coastal city of San Francisco, California. The other represents Urbana, Illinois, a city on the same latitude as San Francisco, but located deep in the interior of the North American continent. The red line therefore most likely represents ________.
Question
Located adjacent to red on the electromagnetic spectrum, and having a longer wavelength, is ________ radiation, which we cannot see but which we can detect as heat. This is an important wavelength for the greenhouse effect, because its wavelength is blocked by greenhouse gases.
Question
All places at the same ________ have identical Sun angles and lengths of daylight.
Question
________ is the most abundant gas in Earth's atmosphere.
Question
Carbon dioxide and ________ are the most important heat absorbing gases in the lower atmosphere.
Question
Explain the discrepancy between someone who looks at the Sun at noon and goes blind as a result, and another person in the same spot, who watches the sunset a few hours later with satisfaction and a sense of relaxation, and no ill effects whatsoever.
Question
Reflected light bounces back from a surface at the same angle at which it strikes that surface and with the same ________.
Question
Imagine you are hired by NASA to help plan for a new "rover" mission to Mars. Your supervisors learn that you have been trained in Earth science, and they ask you to consider solar panels as a source of energy for many of the rover's instruments while it is on the Martian surface. Using your knowledge of seasons and temperatures here on Earth as a model, briefly outline the factors what would influence solar radiation on the Martian surface.
Question
Compare and contrast the two maps showing the global distribution of temperatures in January and July. Explain the differences as fully as possible.<div style=padding-top: 35px>
Compare and contrast the two maps showing the global distribution of temperatures in January and July. Explain the differences as fully as possible.
Question
Examine the graph. Note that the explanatory label indicates that during the Northern Hemisphere summer, CO₂ concentrations decrease because plants consume that gas during photosynthesis. But when it is summer in the Northern Hemisphere, it is winter in the Southern Hemisphere. When it is winter in the Northern Hemisphere, it is summer in the Southern Hemisphere. Why doesn't the Southern Hemisphere summer show this same CO₂ drawdown?<div style=padding-top: 35px>
Examine the graph. Note that the explanatory label indicates that during the Northern Hemisphere summer, CO₂ concentrations decrease because plants consume that gas during photosynthesis. But when it is summer in the Northern Hemisphere, it is winter in the Southern Hemisphere. When it is winter in the Northern Hemisphere, it is summer in the Southern Hemisphere. Why doesn't the Southern Hemisphere summer show this same CO₂ drawdown?
Question
Explain how the events/processes depicted in this photo might influence climate.<div style=padding-top: 35px>
Explain how the events/processes depicted in this photo might influence climate.
Question
Match between columns
Premises:
Responses:
electromagnetic energy that has been scattered by the atmosphere
air
electromagnetic energy that has been scattered by the atmosphere
environmental lapse rate
electromagnetic energy that has been scattered by the atmosphere
weather
electromagnetic energy that has been scattered by the atmosphere
diffused light
electromagnetic energy that has been scattered by the atmosphere
radiosonde
electromagnetic energy that has been scattered by the atmosphere
aerosols
electromagnetic energy that has been scattered by the atmosphere
infrared radiation
electromagnetic energy that has been scattered by the atmosphere
climate
a package of instruments attached to a balloon
air
a package of instruments attached to a balloon
environmental lapse rate
a package of instruments attached to a balloon
weather
a package of instruments attached to a balloon
diffused light
a package of instruments attached to a balloon
radiosonde
a package of instruments attached to a balloon
aerosols
a package of instruments attached to a balloon
infrared radiation
a package of instruments attached to a balloon
climate
a generalization of the weather conditions that are typical of a place
air
a generalization of the weather conditions that are typical of a place
environmental lapse rate
a generalization of the weather conditions that are typical of a place
weather
a generalization of the weather conditions that are typical of a place
diffused light
a generalization of the weather conditions that are typical of a place
radiosonde
a generalization of the weather conditions that are typical of a place
aerosols
a generalization of the weather conditions that are typical of a place
infrared radiation
a generalization of the weather conditions that are typical of a place
climate
the state of the atmosphere at a particular time and place
air
the state of the atmosphere at a particular time and place
environmental lapse rate
the state of the atmosphere at a particular time and place
weather
the state of the atmosphere at a particular time and place
diffused light
the state of the atmosphere at a particular time and place
radiosonde
the state of the atmosphere at a particular time and place
aerosols
the state of the atmosphere at a particular time and place
infrared radiation
the state of the atmosphere at a particular time and place
climate
liquid droplets or solid particles in the atmosphere
air
liquid droplets or solid particles in the atmosphere
environmental lapse rate
liquid droplets or solid particles in the atmosphere
weather
liquid droplets or solid particles in the atmosphere
diffused light
liquid droplets or solid particles in the atmosphere
radiosonde
liquid droplets or solid particles in the atmosphere
aerosols
liquid droplets or solid particles in the atmosphere
infrared radiation
liquid droplets or solid particles in the atmosphere
climate
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
air
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
environmental lapse rate
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
weather
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
diffused light
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
radiosonde
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
aerosols
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
infrared radiation
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
climate
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
air
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
environmental lapse rate
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
weather
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
diffused light
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
radiosonde
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
aerosols
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
infrared radiation
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
climate
the change in temperature over changes in altitude in the atmosphere
air
the change in temperature over changes in altitude in the atmosphere
environmental lapse rate
the change in temperature over changes in altitude in the atmosphere
weather
the change in temperature over changes in altitude in the atmosphere
diffused light
the change in temperature over changes in altitude in the atmosphere
radiosonde
the change in temperature over changes in altitude in the atmosphere
aerosols
the change in temperature over changes in altitude in the atmosphere
infrared radiation
the change in temperature over changes in altitude in the atmosphere
climate
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Deck 11: Heating the Atmosphere
1
The fraction of the total radiation that is reflected by a surface is ________.

A)its albedo
B)a larger proportion than is absorbed by the surface
C)the same no matter what Earth material we examine
D)immediately scattered by the atmosphere
A
2
Energy from the Sun reaches Earth through ________.

A)convection
B)conduction
C)radiation
D)gravity
C
3
The tops of tall mountains are much colder than surrounding lowlands. This is evidence of ________.

A)solar heating
B)global warming
C)the environmental lapse rate
D)ozone depletion
C
4
How is climate different from weather?

A)Climate is "average weather."
B)Climate is the sum of all statistical weather information that helps describe a region.
C)Climate cannot change, but weather changes frequently.
D)They are the same thing.
Unlock Deck
Unlock for access to all 65 flashcards in this deck.
Unlock Deck
k this deck
5
Air is best described as ________.

A)an element
B)a compound
C)a mixture of gases, with solid particles and liquid droplets in it
D)a mixture of gases only
Unlock Deck
Unlock for access to all 65 flashcards in this deck.
Unlock Deck
k this deck
6
Which of the following locations would have the lowest average air pressure?

A)Summit of Mount Everest, tallest mountain on Earth
B)Dead Sea, Israel, lowest point on Earth's land surface
C)Challenger Deep, Mariana Trench, lowest point in the ocean
D)Sea level, anywhere on the planet
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7
Weather is ultimately driven by ________.

A)geothermal heat
B)energy input from the Sun
C)radioactive decay
D)environmental lapse rate
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k this deck
8
________ is the agent of atmospheric temperature change.

A)Heat
B)Starlight
C)Gravity
D)Pressure
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9
<strong> Examine the figure. Which of the four lettered positions depicts the Northern Hemisphere winter solstice?</strong> A)A B)B C)C D)D
Examine the figure. Which of the four lettered positions depicts the Northern Hemisphere winter solstice?

A)A
B)B
C)C
D)D
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10
Imagine you are in a flying aircraft. You note the presence of clouds and storms at your same altitude. What layer of the atmosphere must the aircraft be traveling through?

A)troposphere
B)stratosphere
C)ionosphere
D)mesosphere
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11
In total, Earth receives about 7% more energy from the Sun during ________ relative to ________.

A)aphelion; perihelion
B)perihelion; aphelion
C)fall equinox; summer solstice
D)winter solstice; spring equinox
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12
Even though ground-level ozone is a health hazard, the "ozone layer" in the stratosphere is a health benefit because ________.

A)it stops global warming
B)it reduces thunderstorms
C)it screens out some harmful solar radiation
D)it absorbs certain wavelengths of infrared radiation that are emitted by Earth's surface
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13
Water vapor levels in Earth's atmosphere ________.

A)vary from place to place and time to time
B)range between 0% and 4%
C)are a major mechanism of transport of latent heat
D)all of the above
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14
Solar radiation is ________, as compared to the ________ emitted by Earth.

A)long-wave radiation; short-wave radiation
B)short-wave radiation; long-wave radiation
C)infrared radiation; visible light
D)heat; electromagnetic radiation
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15
Dust in the atmosphere is responsible for which of the following?

A)reflection of solar energy
B)acting as a nucleus for condensation and cloud formation
C)optical phenomena such as a red sky at sunset
D)Atmospheric dust does all of these.
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16
Sea salts from breaking waves, fine soil blown into the air, smoke and soot from wildfires, pollen and microorganisms lifted by the wind, and ash from volcanic eruptions are all examples of ________.

A)greenhouse gases
B)aerosols
C)elements
D)radiosondes
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17
Which one of the following is the most abundant gas in the atmosphere?

A)carbon dioxide
B)ozone
C)oxygen
D)nitrogen
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18
If it were December and you wanted to travel to "the land of the midnight Sun," where would you have to go?

A)anywhere north of 66 1/2° N latitude
B)anywhere between 23 1/2° N latitude and 66 1/2° N latitude
C)anywhere between 23 1/2° S latitude and 66 1/2° S latitude
D)anywhere south of 66 1/2° S latitude
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19
The lowest layer of the atmosphere is the ________.

A)troposphere
B)stratosphere
C)ionosphere
D)mesosphere
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20
Approximately how many kilometers (miles)above Earth's surface does the atmosphere end and outer space begin?

A)47 kilometers (30 miles)
B)82 kilometers (52 miles)
C)145 kilometers (90 miles)
D)There is no clearly defined upper limit to the atmosphere; it gradually fades into space.
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21
The storage of heat in the lower layer of the atmosphere due to certain gases absorbing heat is called ________.

A)adiabatic cooling
B)radiosonde
C)scattering
D)the greenhouse effect
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22
Solar radiation may be absorbed, transmitted, or redirected (reflected or scattered)by the atmosphere.
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23
A field covered with several inches of freshly-fallen snow has a high albedo.
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24
Fairbanks, Alaska has more hours of daylight in June than Miami, Florida.
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25
Because stratospheric ozone occurs at 10 to 50 kilometers elevation (6 to 31 miles above Earth's surface), it is not vulnerable to human influence.
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26
Human beings have no effect on climate.
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27
The seasonal shift of isotherms is greater over the continents than over the ocean.
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28
Climate scientists predict that an effect of human-caused climate change is ________.

A)stronger tropical storms
B)more earthquakes
C)the death of every human being
D)all of the above
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29
Visible light makes up about one-half of the electromagnetic spectrum.
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30
The variation in distance between Earth and the Sun is the cause of the temperature variations that cause the seasons.
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31
If it were not for the inclination of Earth's axis, there would be no well-defined seasons.
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32
By adding the daily maximum and minimum temperatures and then dividing by two, the daily range is calculated.
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33
A city located along a windward coast will probably have ________.

A)warmer summer temperatures than an inland location at the same latitude
B)summer temperatures that are very similar to an inland location at the same latitude
C)cooler summer temperatures than an inland location at the same latitude
D)the season of summer, while inland locations don't experience summer
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34
As you increase in latitude, for example going from the equator to the Tropic of Cancer, you would expect annual temperature range to increase.
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35
Climate data can predict the weather.
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36
The annual temperature range at most latitudes in the Southern Hemisphere is much smaller than that in the Northern Hemisphere. The reason for this is that ________.

A)Earth is closest to the Sun during the Southern Hemisphere summer
B)rainfall and cloudiness are greater in the Southern Hemisphere
C)there is a greater percentage of water surface in the Southern Hemisphere
D)a greater proportion of the land surface is mountainous in the Southern Hemisphere
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37
Conduction is a form of heat transfer that involves the movement of a mass or substance.
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38
More solar energy is reflected back to space (30%)than is absorbed directly by the atmosphere (20%).
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39
Which of the following can influence temperature?

A)position on a landmass
B)altitude
C)cloud cover
D)all of the above
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40
Weather is just another word for climate.
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41
Above the stratosphere is a layer called the ________ where temperatures decrease with an increase in altitude.
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42
On a map, lines connecting points of equal temperature are ________.
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43
Identify and label each of the layers and boundaries in Earth's atmosphere.
Identify and label each of the layers and boundaries in Earth's atmosphere.
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44
Ozone is concentrated in the middle part of the ________.
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45
Closely spaced isotherms indicate a high ________.
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46
Compare and contrast weather and climate.
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47
The form of oxygen that combines three atoms of oxygen into each molecule is ________.
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48
The most important elements of weather and climate (quantities or properties that are measured regularly)are (1)air temperature, (2)________, (3)type and amount of cloudiness, (4)type and amount of precipitation, (5)air ________, and (6)the speed and direction of the wind.
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49
A day of the year when the length of the night is equal to the length of the day is known as a(n)________.
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50
Examine the figure and use it as a basis for discussing the role the greenhouse effect plays in the atmospheres of (a)the Moon, (b)Earth, and (c)Venus.
Examine the figure and use it as a basis for discussing the role the greenhouse effect plays in the atmospheres of (a)the Moon, (b)Earth, and (c)Venus.
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51
The concentration of the atmospheric gas ________ is shown in this graph.
The concentration of the atmospheric gas ________ is shown in this graph.
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52
Match the items in the first column with the correct descriptions in the second column.

A)electromagnetic energy that has been scattered by the atmosphere
B)a package of instruments attached to a balloon
C)a generalization of the weather conditions that are typical of a place
D)the state of the atmosphere at a particular time and place
E)liquid droplets or solid particles in the atmosphere
F)a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
G)the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
H)the change in temperature over changes in altitude in the atmosphere
1)air
2)environmental lapse rate
3)weather
4)diffused light
5)radiosonde
6)aerosols
7)infrared radiation
8)climate
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53
The monthly ________ temperature is calculated by adding together the daily means for each day of the month and dividing by the number of days in the month.
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54
On this graph, one of the monthly mean temperature lines (red or blue)represents the coastal city of San Francisco, California. The other represents Urbana, Illinois, a city on the same latitude as San Francisco, but located deep in the interior of the North American continent. The red line therefore most likely represents ________.
On this graph, one of the monthly mean temperature lines (red or blue)represents the coastal city of San Francisco, California. The other represents Urbana, Illinois, a city on the same latitude as San Francisco, but located deep in the interior of the North American continent. The red line therefore most likely represents ________.
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55
Located adjacent to red on the electromagnetic spectrum, and having a longer wavelength, is ________ radiation, which we cannot see but which we can detect as heat. This is an important wavelength for the greenhouse effect, because its wavelength is blocked by greenhouse gases.
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56
All places at the same ________ have identical Sun angles and lengths of daylight.
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57
________ is the most abundant gas in Earth's atmosphere.
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58
Carbon dioxide and ________ are the most important heat absorbing gases in the lower atmosphere.
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59
Explain the discrepancy between someone who looks at the Sun at noon and goes blind as a result, and another person in the same spot, who watches the sunset a few hours later with satisfaction and a sense of relaxation, and no ill effects whatsoever.
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60
Reflected light bounces back from a surface at the same angle at which it strikes that surface and with the same ________.
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61
Imagine you are hired by NASA to help plan for a new "rover" mission to Mars. Your supervisors learn that you have been trained in Earth science, and they ask you to consider solar panels as a source of energy for many of the rover's instruments while it is on the Martian surface. Using your knowledge of seasons and temperatures here on Earth as a model, briefly outline the factors what would influence solar radiation on the Martian surface.
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62
Compare and contrast the two maps showing the global distribution of temperatures in January and July. Explain the differences as fully as possible.
Compare and contrast the two maps showing the global distribution of temperatures in January and July. Explain the differences as fully as possible.
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63
Examine the graph. Note that the explanatory label indicates that during the Northern Hemisphere summer, CO₂ concentrations decrease because plants consume that gas during photosynthesis. But when it is summer in the Northern Hemisphere, it is winter in the Southern Hemisphere. When it is winter in the Northern Hemisphere, it is summer in the Southern Hemisphere. Why doesn't the Southern Hemisphere summer show this same CO₂ drawdown?
Examine the graph. Note that the explanatory label indicates that during the Northern Hemisphere summer, CO₂ concentrations decrease because plants consume that gas during photosynthesis. But when it is summer in the Northern Hemisphere, it is winter in the Southern Hemisphere. When it is winter in the Northern Hemisphere, it is summer in the Southern Hemisphere. Why doesn't the Southern Hemisphere summer show this same CO₂ drawdown?
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64
Explain how the events/processes depicted in this photo might influence climate.
Explain how the events/processes depicted in this photo might influence climate.
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66
Match between columns
Premises:
Responses:
electromagnetic energy that has been scattered by the atmosphere
air
electromagnetic energy that has been scattered by the atmosphere
environmental lapse rate
electromagnetic energy that has been scattered by the atmosphere
weather
electromagnetic energy that has been scattered by the atmosphere
diffused light
electromagnetic energy that has been scattered by the atmosphere
radiosonde
electromagnetic energy that has been scattered by the atmosphere
aerosols
electromagnetic energy that has been scattered by the atmosphere
infrared radiation
electromagnetic energy that has been scattered by the atmosphere
climate
a package of instruments attached to a balloon
air
a package of instruments attached to a balloon
environmental lapse rate
a package of instruments attached to a balloon
weather
a package of instruments attached to a balloon
diffused light
a package of instruments attached to a balloon
radiosonde
a package of instruments attached to a balloon
aerosols
a package of instruments attached to a balloon
infrared radiation
a package of instruments attached to a balloon
climate
a generalization of the weather conditions that are typical of a place
air
a generalization of the weather conditions that are typical of a place
environmental lapse rate
a generalization of the weather conditions that are typical of a place
weather
a generalization of the weather conditions that are typical of a place
diffused light
a generalization of the weather conditions that are typical of a place
radiosonde
a generalization of the weather conditions that are typical of a place
aerosols
a generalization of the weather conditions that are typical of a place
infrared radiation
a generalization of the weather conditions that are typical of a place
climate
the state of the atmosphere at a particular time and place
air
the state of the atmosphere at a particular time and place
environmental lapse rate
the state of the atmosphere at a particular time and place
weather
the state of the atmosphere at a particular time and place
diffused light
the state of the atmosphere at a particular time and place
radiosonde
the state of the atmosphere at a particular time and place
aerosols
the state of the atmosphere at a particular time and place
infrared radiation
the state of the atmosphere at a particular time and place
climate
liquid droplets or solid particles in the atmosphere
air
liquid droplets or solid particles in the atmosphere
environmental lapse rate
liquid droplets or solid particles in the atmosphere
weather
liquid droplets or solid particles in the atmosphere
diffused light
liquid droplets or solid particles in the atmosphere
radiosonde
liquid droplets or solid particles in the atmosphere
aerosols
liquid droplets or solid particles in the atmosphere
infrared radiation
liquid droplets or solid particles in the atmosphere
climate
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
air
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
environmental lapse rate
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
weather
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
diffused light
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
radiosonde
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
aerosols
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
infrared radiation
a mixture of many discrete gases, including water vapor, as well as variable components like dust and small liquid droplets
climate
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
air
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
environmental lapse rate
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
weather
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
diffused light
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
radiosonde
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
aerosols
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
infrared radiation
the form of energy re-radiated by Earth's surface, after being absorbed as visible light from the Sun
climate
the change in temperature over changes in altitude in the atmosphere
air
the change in temperature over changes in altitude in the atmosphere
environmental lapse rate
the change in temperature over changes in altitude in the atmosphere
weather
the change in temperature over changes in altitude in the atmosphere
diffused light
the change in temperature over changes in altitude in the atmosphere
radiosonde
the change in temperature over changes in altitude in the atmosphere
aerosols
the change in temperature over changes in altitude in the atmosphere
infrared radiation
the change in temperature over changes in altitude in the atmosphere
climate
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