Survey
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Wind • The movement of air caused by differences in air pressure is called wind. • The greater the pressure difference, the faster the wind moves. • When you let air out of a bicycle tube, the air rushes out because the air inside the tube is at a higher air pressure than the air outside the tube. • Differences in air pressure are generally caused by the unequal heating of the Earth. • Areas around the equator have warm, less dense air. This air rises, creating an area of low air pressure. • Areas around the poles have cold, dense air. Cold air sinks, and creates an area of high air pressure. • Cold air flows from the poles toward the equator. Warm air flows from the equator toward the poles. Pressure Belts are Found Every 30 degrees • Air travels in many large, circular patterns called convection cells. • Convection cells are separated by pressure belts, bands of high pressure and low pressure found about every 30 degrees of latitude. Coriolis Effect • Someone explain the Coriolis Effect. • Because of the Coriolis Effect, winds in the Northern Hemisphere traveling north curve to the east; winds traveling south curve to the west. Global Winds • Polar Easterlies The wind belts that extend from the poles to 60° latitude in both hemispheres are called the polar easterlies. The produce snow and freezing weather in the U.S. • Westerlies The wind belts found between 30° and 60° latitude in both hemispheres is called the westerlies. They flow toward the poles from west to east. Global Winds cont’d • Trade Winds In both hemispheres, the winds that blow from east to west from 30° latitude to the equator are called trade winds. The Coriolis effect causes the trade winds to curve to the west in both hemispheres. • The Doldrums The trade winds of the Northern and Southern Hemispheres meet in an area around the equator called the doldrums. Global Winds cont’d • The Horse Latitudes At about 30° north and 30° south latitude, sinking air creates an area of high pressure called the horse latitudes. The winds here are weak. • Jet Streams: Atmospheric Conveyor Belts Jet streams are narrow belts of high-speed winds that blow in the upper troposphere and lower stratosphere. Local Winds • Local winds generally move short distances and can blow from any direction. • Mountain Breezes and Valley Breezes Mountain and valley breezes are two types of local winds caused by an area’s geography. • During the day, the sun warms the air along the mountain slopes. This warm air rises up the mountain slopes, creating a valley breeze. At nightfall, the air along the mountain slopes cool. This cool air moves down the slopes into the valley, producing a mountain breeze.