Airflow of cyclones & anticyclones

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Presentation transcript:

Airflow of cyclones & anticyclones aloft = high in the atmosphere p. 539

HIGH pressure cell :) Anticyclone Center of HIGH pressure (“H” in BLUE) Pressure increases toward the center Winds associated with an anticyclone: Outward (divergence) C.W. = Clockwise (opposite in the Southern Hemisphere) subsiding (sinking) air Usually bring "fair" (clear) weather

LOW pressure cell :( Cyclone rising air Bring clouds & precipitation Center of LOW pressure (“L” in RED) Pressure decreases toward the center Winds associated with a cyclone: Inward (convergence) C.C.W. = Counterclockwise (opposite in the Southern Hemisphere) rising air Bring clouds & precipitation

hot air forms near Equator Air masses Large body of air that takes on the characteristics of the area over which it forms. It’s source region determines temperature & humidity. p. 559 Air Masses forms over Land (dry) forms over Water (humid) hot air forms near Equator Continental Tropical (cT) Maritime Tropical (mT) cold air forms near Poles Continental Polar (cP) Maritime Polar (mP)

As seen on p. 560

Fronts Boundary that separates air masses of different densities Air masses retain their identities Warm, less dense air forced to move up Cold, dense air acts as wedge, moving down 4 types:

Warm Front Warm air replaces cooler air Front is very gentle slope & moves slowly Light-to-moderate precipitation

Cold Front Twice as steep and moves faster than warm front Violent weather, very intense, & short duration Weather behind front is cold, sinking air, & clear conditions

Stationary Front When 2 air masses meet but don’t advance Flow of air on both sides of front is parallel Rarely any clouds or heavy precipitation

Occluded Front Occurs when a cold air mass overtakes a warm front Warm air is wedged upward Weather is often complex...at mature stage p. 567