1. 17 Atmosphere 17.1 The Atmosphere in Balance
CHAPTER
Atmosphere
EXIT CHAPTER
17.1 The Atmosphere in Balance
17.2 Heat and the Atmosphere
17.3 Local Temperature Variations
17.4 Human Impact on the Atmosphere
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2. 17.1 The Atmosphere in the Balance
CHAPTER
Atmosphere
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17.1 The Atmosphere in the Balance
Earth’s atmosphere contains nitrogen and oxygen, with small amounts of other gases and dust particles. Gases, including water vapor, move between the atmosphere and other parts of the Earth system, yet the composition of the atmosphere remains fairly constant.
H2O O2
CO2
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3. 17.1 The Atmosphere in the Balance
CHAPTER
Atmosphere
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17.1 The Atmosphere in the Balance
Earth’s atmosphere contains nitrogen and oxygen, with small amounts of other gases and dust particles. Gases, including water vapor, move between the atmosphere and other parts of the Earth system, yet the composition of the atmosphere remains fairly constant.
Local events can change the composition of the atmosphere, with global consequences.
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4. 17.2 Heat and the Atmosphere
CHAPTER
Atmosphere
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17.2 Heat and the Atmosphere
VOCABULARY
Heat moves by radiation, convection, and conduction.
radiation
conduction
120
110
100 80 70 60 50 40 30 20 10 90
-120
-100
-80
-60
-40
-20
THERMOSPHERE
Mesopause
MESOPHERE
Stratopause
STRATOSPHERE
Tropopause
TROPOSPHERE
Height above ground (kilometers)
COLDER
WARMER
convection
The atmosphere is divided into layers based on temperature.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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5. 17.2 Heat and the Atmosphere
CHAPTER
Atmosphere
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17.2 Heat and the Atmosphere
VOCABULARY
Earth’s heat budget represents the flow of energy into and out of Earth’s atmosphere.
radiation
conduction
convection
100 units of insolation
A total of 64 units radiated back into space via the atmosphere
6 units radiate to space from Earth’s surface
15 units radiate from surface to atmosphere
Conduction and convection
transfer 7 units to atmosphere
Evaporation
transfers
23 units to
atmosphere
30 units reflected or scattered back to space
Atmosphere absorbs 19 units
Earth’s surface
absorbs 51 units
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
An imbalance in Earth’s heat budget changes Earth’s mean temperature.
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6. 17
CHAPTER
Atmosphere
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VOCABULARY
radiation
conduction
radiation
convection
The transfer of energy through space by electromagnetic waves.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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7. 17 Atmosphere conduction
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
conduction
convection
The transfer of heat or another form of energy from one particle of a substance to another.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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8. 17 Atmosphere convection
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
convection
convection
The transfer of heat energy in a liquid or gas through the circulation of currents of heated particles within the substance.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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9. 17 Atmosphere temperature
CHAPTER
Atmosphere
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VOCABULARY
radiation
conduction
temperature
convection
The measure of the average kinetic energy of the atoms or molecules in a substance.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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10. 17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
heat
convection
The total kinetic energy of all of the particles of a substance.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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11. 17 Atmosphere troposphere
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
troposphere
convection
The lowest layer of Earth’s atmosphere, characterized by decreasing temperature with altitude.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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12. 17 Atmosphere stratosphere
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
stratosphere
convection
The layer of the Earth’s atmosphere that extends from the troposphere to the mesosphere; concentrations of ozone cause temperatures within the stratosphere to increase with altitude.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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13. 17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
ozone
convection
A molecule of oxygen that consists of three oxygen atoms.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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14. 17 Atmosphere mesosphere
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
mesosphere
convection
The layer of the Earth’s atmosphere that extends from the stratosphere to the thermosphere, characterized by decreasing temperatures.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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15. 17 Atmosphere thermosphere
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
thermosphere
convection
The layer of the Earth’s atmosphere above the mesosphere, characterized by increasing temperature with altitude.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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16. 17 Atmosphere ionosphere
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
ionosphere
convection
The portion of the thermosphere between about 90 and 500 kilometers above Earth, where the air is highly ionized due to the effects of the sun’s ultraviolet rays.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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17. 17 Atmosphere insolation The solar radiation that reaches Earth.
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
radiation
conduction
insolation
convection
The solar radiation that reaches Earth.
temperature
heat
troposphere
stratosphere
ozone
mesosphere
thermosphere
ionosphere
insolation
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18. 17.3 Local Temperature Variations
CHAPTER
Atmosphere
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17.3 Local Temperature Variations
VOCABULARY
The intensity of insolation depends upon the angle at which sunlight strikes Earth’s surface. The intensity is greatest at low latitudes,
isotherm
during the summer,
and around noon.
Equator
The angle of sunlight varies with latitude.
SUN’S
RAYS
New
Orleans
Equator
June 21
Dec. 21
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19. 17.3 Local Temperature Variations
CHAPTER
Atmosphere
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17.3 Local Temperature Variations
VOCABULARY
Cloud cover can affect how much energy moves through the atmosphere.
isotherm
Land heats and cools more readily than water. Isotherms shift with the seasons, more dramatically over land than over water.
Mean sea-level temperatures in January
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20. 17.3 Local Temperature Variations
CHAPTER
Atmosphere
CHAPTER HOME
17.3 Local Temperature Variations
VOCABULARY
Cloud cover can affect how much energy moves through the atmosphere.
isotherm
Land heats and cools more readily than water. Isotherms shift with the seasons, more dramatically over land than over water.
Mean sea-level temperatures in July
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21. 17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
isotherm
isotherm
A line drawn on a weather map through places having the same atmospheric temperature at a given time.
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22. 17.4 Human Impact on the Atmosphere
CHAPTER
Atmosphere
CHAPTER HOME
17.4 Human Impact on the Atmosphere
VOCABULARY
air pollutant
temperature
inversion
Human activities produce pollutants that are released into the air and affect the atmosphere.
Common Air Pollutants
Major Sources
Some Effects
Carbon monoxide (CO)
Nitrogen dioxide (NO2)
Sulfur dioxide (SO2) …
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23. 17.4 Human Impact on the Atmosphere
CHAPTER
Atmosphere
CHAPTER HOME
17.4 Human Impact on the Atmosphere
VOCABULARY
air pollutant
temperature
inversion
Pollutants can react with water vapor to form acid precipitation, be trapped by temperature inversions to cause thick smog, reduce the amount of ozone in the ozone layer, and contribute to global warming.
Ozone hole, October 1999
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24. 17 Atmosphere air pollutant
CHAPTER
Atmosphere
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VOCABULARY
air pollutant
temperature
inversion
air pollutant
Any airborne gas or particle that occurs at a concentration capable of harming living things or disrupting the functioning of the environment.
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25. temperature inversion17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
air pollutant
temperature
inversion
temperature inversion
An increase in temperature with an increase in altitude; occurs when a layer of cold air is trapped beneath a layer of warm air.
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26. I. The Atmosphere in Balance17
CHAPTER
Atmosphere
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I. The Atmosphere in Balance
A. The Composition of the Atmosphere
B. Recycling of Atmospheric Materials
C. A Delicate Balance
KEY IDEA SUMMARY

27. II. Heat and the Atmosphere17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
II. Heat and the Atmosphere
radiation
A. How Heat Energy Moves
conduction
B. Heat and Temperature
convection
C. Structure of the Atmosphere
temperature
1. The Troposphere
heat
2. The Stratosphere
troposphere
3. The Mesosphere and Thermosphere
stratosphere
4. The Ionosphere
ozone
D. Insolation and the Atmosphere
mesosphere
1. Heat Budget of Earth and the Atmosphere
thermosphere
ionosphere
insolation
KEY IDEA SUMMARY

28. III. Local Temperature Variations17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
III. Local Temperature Variations
isotherm
A. Intensity of Insolation
1. Time of Day
2. Latitude
3. Time of Year
4. Cloud Cover
B. Heating of Water and Land
C. Temperature Maps
KEY IDEA SUMMARY

29. IV. Human Impact on the Atmosphere17
CHAPTER
Atmosphere
CHAPTER HOME
VOCABULARY
IV. Human Impact on the Atmosphere
air pollutant
A. Common Air Pollutants
temperature
inversion
B. Acid Rain
C. Smog
D. Ozone Depletion
E. Global Warming
KEY IDEA SUMMARY

30. Common Air Pollutants EXIT Common Air Pollutants Major Sources
Some Effects
Carbon monoxide (CO)
Reduces delivery of oxygen to body tissues, impairs vision and reflexes
automobile exhaust
Nitrogen dioxide (NO2)
burning of fossil fuels in power plants and automobiles
Irritates lungs and lowers resistance to respiratory infections; contributes to acid rain and smog
Sulfur dioxide (SO2)
burning of fossil fuels in power plants, oil refineries, paper mills, volcanoes
Irritates respiratory system; contributes to acid rain
Particulates (dust, smoke, soot, ash)
factories, paper mills, oil refineries, power plants, volcanoes
Contributes to respiratory problems; linked to some cancers
Lead (Pb)
smelters, battery plants
Damages nervous and digestive systems
Ozone (O3)
reactions of nitrogen oxides and hydrocarbons in the presence of sunlight
Reduces lung function and causes inflammation

31. 17
CHAPTER
Atmosphere
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