Basic info on layers of atmosphere & atmospheric science Ch 17.
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Transcript of Basic info on layers of atmosphere & atmospheric science Ch 17.
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Basic info on layers of atmosphere & atmospheric science
Ch 17
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The Composition of the Atmosphere• Volcanic eruptions probably played a major role in
forming the early atmosphere.– Carbon dioxide– Sulfur dioxide– Water vapor– Nitrogen– ****no oxygen
• Oxygen probably 1st formed when sunlight split water vapor into hydrogen & oxygen– Amount increased significantly as early organisms
(producers) carried out photosynthesis.
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The Composition of the Atmosphere
All other gasses: Ar, CO2, Methane, etc.
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• % of nitrogen & oxygen fairly constant through atmosphere up to ~80 km (~mesopause)
• Amounts of some gases can vary from place to place & time to time– Ex. water vapor varies w/ location, season, time of day• Highest near surface & decreases rapidly w/ altitude
– Ex. carbon dioxide varies w/ seasons• Lowest in summer (more p’syn, uses more CO2)• Highest in winter (less p’syn, uses less CO2)
• Atmosphere also contains dust particles (rock, dirt, pollen, salt from sea spray, soot, etc.)
The Composition of the Atmosphere
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Recycling of Atmospheric Materials
• Earth’s 4 spheres are constantly recycling elements & compounds they contain.–Maintains an overall balance (in = out)• through cycles– Carbon–Oxygen–Water
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Carbon Cycle
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A Delicate Balance• The balance of gases in the atmosphere may be disrupted
by natural & human influences.– Ex. CO2 levels have risen steadily in recent years
• Primarily due to human activities– Burning of fossil fuels
» Coal» Gasoline» Natural gas
• Suspected of contributing to global warming
• There is also a balance in energy.– Amount of sun’s energy entering = to amount of energy
reflected, absorbed, & reradiated• Keeps Earth’s temperature at a level that makes life possible.
– Can be disrupted» Global warming (or cooling)
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• Energy from the sun reaches Earth in 3 ways:– ________ is the transfer of energy through empty
space.• visible light, UV, & other electromagnetic (EM) waves
– __________ is the transfer of energy (mostly in solids) by collisions of molecules or atoms.• Air touching warm ground, feet touching cold floor
– __________ is the transfer of energy by currents moving through liquids or gases (caused by density differences).• Convection cells in magma, water boiling, air rising
RADIATION
CONDUCTION
CONVECTION
How Heat Energy Moves
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Convection
Conduction
Radiation
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Heat and Temperature• Temperature is a measure of the average kinetic
energy (or energy of motion) of the atoms or molecules in a substance.– Higher kinetic energy higher temperature– Lower kinetic energy lower temperature
• Heat is the total kinetic energy of a particular substance.– Large cup of tea more heat than small cup at same
temperature
• Heat flows from object of higher temperature to lower temperature
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Structure of the Atmosphere• The temperature of the atmosphere changes
dramatically at varying altitudes (heights).– Used to divide the atmosphere into 4 layers• Troposphere• Stratosphere• Mesosphere• Thermosphere
• Try• Smiling• Many• Times
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• Troposphere– Lowest layer, up to ~15 km above surface– Temperature decreases with altitude
• Earth absorbs solar radiation & transfers heat to atm– Air at surface warmest
– 78% nitrogen, 21% oxygen– 80% mass of atm (b/c of high density)– Contains most of the water vapor in atm
• where weather occurs
– The “trouble sphere”
• Tropopause (~15 km)– Boundary btw troposphere & stratosphere– Altitude varies with latitude
• Lower at poles, higher at equator
Structure of the Atmosphere
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• Stratosphere– 2nd layer, 15-50 kilometers above surface– Clear, dry– Temperature increases with altitude• Due to presence of ozone (O3)
– O3 absorbs UV radiation & releases some of it as heat
• Stratopause (~50 km)– Boundary btw stratosphere & mesosphere
Structure of the Atmosphere
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• Mesosphere– 3rd layer, 50-90 km above surface– Temperature decreases with altitude• Due to very little ozone
• Mesopause (~90 km)– Boundary between mesosphere & thermosphere
Structure of the Atmosphere
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• Thermosphere– 4th layer, >90 km above surface– Extremely thin– Temperature increase with altitude (1000+ °C)
• Due to intense solar radiation– Separated into layers of different gases
• Heavier gases on bottom lighter gases on top– Nitrogen, oxygen, helium (~2400 km), hydrogen (thins into space)
– Ionosphere• Part of thermosphere from 90-500 km
– Affected by solar events» Ionized (charged) particles deflected by Earth’s magnetic field to poles
& interact to form auroras (colorful light)
Structure of the Atmosphere
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Insolation and the Atmosphere• As insolation (incoming solar radiation) enters the
atmosphere, the different gases absorb, reflect, or scatter particular wavelengths (colors) of light.– Red light is absorbed the least= red sunsets– Blue light is scattered by air molecules all over sky= blue
sky– Ultraviolet light is absorbed by ozone= protects skin
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• A global heat budget model represents the overall flow of energy into & out of the atmosphere.– In balance fairly constant temperatures– Out of balance global warming or cooling
Insolation and the Atmosphere
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Insolation and the Atmosphere
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Heat Budget of Earth & the Atmosphere
• Much of the solar radiation that is absorbed by Earth’s surface is radiated back into the atmosphere as infrared radiation (heat).– Excess water vapor & carbon dioxide absorb this IR,
preventing it from radiating directly back into space.• Greenhouse effect
– a little = good, a lot = bad
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Local Temperature Variations• What causes the temperature to vary from
location to location?–The sun heats Earth unevenly. Due to:• Time of day• Latitude• Time of year
–The characteristics of a material also affect how much energy is absorbed, which affects temperature.
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Intensity of Insolation• Intensity of insolation depends on the angle at which the
sun’s rays hit Earth’s surface– Highest angle (90°) = maximum intensity– Lowest angle (0°) = minimum intensity
• Time of day– Sun’s rays closest to vertical at noon max. intensity
• Latitude– Earth’s rounded shape causes variations
• Equator higher angle of insolation greater intensity• Poles lower angle of insolation lower intensity
• Time of Year– Tilt of Earth affects insolation
• Towards sun max. intensity• Away from the sun min. intensity
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A. (Direct Rays) = MORE concentrated solar energy transferred to Earth.
B. (Diffused Rays) = LESS concentrated solar energy transferred to Earth.
HOTCOOL
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INSOLATION CHANGES
EastWest
DAILY 1. Noon - more direct rays.
2. Pm/Am less direct (diffused) rays.
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Summer in the Northern Hemisphere
SUN
Most of the sun’s direct rays hit the Northern Hemisphere
Diffused rays hit the Southern Hemisphere
EQUATOR
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EQUATOR
Diffused rays hit the Northern Hemisphere
Most of the sun’s direct rays hit the Southern
Hemisphere
SUN
Winter in the Northern Hemisphere
Sunlight & Seasons Visualization
Path of Sun Latitude, Time, Season
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Latitude0˚ to 30˚ ray
0˚ to 30˚ ray
45˚ to 60˚ ray
45˚ to 60˚ ray
90˚ direct ray
Diffused Ray
Diffused Ray
DirectLight
Concentrated
Light Spread out.
Light Spread out.
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Cloud Cover
• Clouds reflect more sunlight, so clear days are warmer than cloudy days.
• Clouds trap more heat that is reradiated from the Earth, so cloudy nights are warmer than clear nights.
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Heating of Water and Land• Land heats and cools faster than water.– Heat/insolation penetrates deeper into water and spreads
more easily by convection– Some heat is used in evaporating water– Water has a higher specific heat than land (specific heat = the
amt of heat needed to raise 1 g of a substance by 1° C)• Water takes more energy to heat up than land• Water loses energy more slowly than land
• Land has more drastic temp. differences than water.– This is why water has a moderating effect on temperature.
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• Different types of land also absorb (and reflect) heat differently.– Dark absorb more energy• heat up more
– Light reflect more energy (absorb less)• heat up less
– Rough absorb more energy• Heat up more
– Smooth reflect more energy (absorb less)• Heat up less
Heating of Water and Land
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Temperature Maps• Where are warmest temperatures in relation to:– time of year? land & water?
• Why???
• Isotherm:– Line connecting places with the same temperature
• Iso = equal• Therm =
heat