atmospheric circulation and weather systems
DESCRIPTION
Atmospheric Circulation and Weather Systems. Take-Away Points. Weather is driven by unequal solar heating and cooling Air motions are affected by the Coriolis Effect and “centrifugal” force High and Low Pressure Systems Air flows parallel to pressure contours (Geostrophic winds) - PowerPoint PPT PresentationTRANSCRIPT
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Atmospheric Circulation and Weather Systems
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Take-Away Points1. Weather is driven by unequal solar heating and
cooling2. Air motions are affected by the Coriolis Effect and
“centrifugal” force3. High and Low Pressure Systems4. Air flows parallel to pressure contours (Geostrophic
winds)5. Air masses meet along sharp boundaries or fronts6. Weather is inherently chaotic and that limits our
ability to forecast it
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The Seasons
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Heat Lag
1. Weather is driven by unequal solar heating and cooling
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Heat Lag
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Atmospheric Circulation
1. Weather is driven by unequal solar heating and cooling
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Atmospheric Circulation
1. Weather is driven by unequal solar heating and cooling
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Asymmetric Earth
1. Weather is driven by unequal solar heating and cooling
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Asymmetric Earth
1. Weather is driven by unequal solar heating and cooling
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Atmospheric Circulation
1. Weather is driven by unequal solar heating and cooling
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Zonal and Meridional Flow
1. Weather is driven by unequal solar heating and cooling
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Semi-Permanent Features, January
1. Weather is driven by unequal solar heating and cooling
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Semi-Permanent Features, July
1. Weather is driven by unequal solar heating and cooling
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Rotation Effects
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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The Coriolis Effect
• Due to moving on a rotating earth
• Things on equator are moving faster than points near poles
• Affects:–Winds–Ocean Currents– Tides
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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The Coriolis Effect
• Things moving toward the equator are deflected west
• Things moving poleward are deflected east
• Deflected to Right in Northern Hemisphere
• Deflected to Left in Southern Hemisphere
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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The Coriolis Effect
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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The Coriolis Effect
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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The Coriolis Effect
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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Inertial Circles
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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“Centrifugal” Force ?
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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Or No Force?
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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“Centrifugal” Force Does Not Exist• When anything turns, the only forces that
act are in the direction of the turn• These forces are called centripetal (center-
seeking) force• “Centrifugal” force is an illusion• “Centrifugal” force is due to inertia and
centripetal force opposing each other
2. Air motions are affected by the Coriolis Effect and “centrifugal” force
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High Pressure Systems
3. High and Low Pressure Systems
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High Pressure Systems• Air flows out from center• Spin clockwise in Northern Hemisphere• No air mixing• Stable, fair weather• Sinking Air, few clouds• Long duration can result in inversions,
pollution• Winter: often extreme cold– Cold Air is Dense– Clear Skies and Radiational Cooling
3. High and Low Pressure Systems
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Low Pressure Systems
3. High and Low Pressure Systems
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Why Counterclockwise?
3. High and Low Pressure Systems
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Low Pressure Systems• Air flows in toward center• Spin counter-clockwise in Northern
Hemisphere• Mixes air of different properties• Associated with fronts• Stormy, sometimes violent weather• Passage often results in sharp change in
weather conditions
3. High and Low Pressure Systems
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Geostrophic Winds• As air flows in or out of pressure cells, Coriolis
Effect deflects it• At surface, friction limits the deflection.– Winds blow about 45 degree angles to isobars
• Aloft, friction not a factor– Deflection continues until limited by pressure
gradient (winds can’t go against pressure)– Winds blow parallel to contours– This is called geostrophic flow
4. Air flows parallel to pressure contours (Geostrophic winds)
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Geostrophic Flow
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Geostrophic Flow
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Geostrophic Flow
4. Air flows parallel to pressure contours (Geostrophic winds)
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1905 Weather Map of US
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First U.S. Weather Map With Fronts
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Fronts and Low Pressure Systems
5. Air masses meet along sharp boundaries or fronts
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Fronts
5. Air masses meet along sharp boundaries or fronts
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Warm Fronts
5. Air masses meet along sharp boundaries or fronts
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Warm Fronts
• Gradual Onset• Warm Air over Cool Air• Little Turbulence• Weather Rarely Violent
5. Air masses meet along sharp boundaries or fronts
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Cold Fronts
5. Air masses meet along sharp boundaries or fronts
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Cold Fronts
• Abrupt Onset• Cold Air Lifting Warm Air• Considerable Turbulence• Weather Sometimes Violent• Thunderstorms Common• Can Spawn Tornadoes
5. Air masses meet along sharp boundaries or fronts
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Old Low Pressure Systems
5. Air masses meet along sharp boundaries or fronts
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Occluded Fronts
5. Air masses meet along sharp boundaries or fronts
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Occluded Fronts• Two fronts merge• Any two types of front can occlude• Most common: Cold Front overtakes Warm
Front• Starts off like a warm front, finishes like a
cold front
5. Air masses meet along sharp boundaries or fronts
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Weather Prediction
5. Air masses meet along sharp boundaries or fronts
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Weather Prediction
5. Air masses meet along sharp boundaries or fronts
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Weather Prediction
5. Air masses meet along sharp boundaries or fronts
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Chaos
x
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Chaos Theory
Does Not Mean:• Cloned Dinosaurs will run amok• Systems do not follow physical laws• Systems behave with wild unpredictability• Systems do not have limits• Phenomena cannot be predicted
6. Weather is inherently chaotic and that limits our ability to forecast it
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Chaos Theory
Does Mean:• Small differences compound over time• There are limits to how accurately
phenomena can be predicted• Examples:–Weather– The Planets– Traffic
6. Weather is inherently chaotic and that limits our ability to forecast it