Weather Patterns and Severe Storms PDF

Summary

This document presents a detailed overview of weather patterns and severe storms. It explains concepts such as air masses, fronts, thunderstorms, and hurricanes, and provides information about their characteristics, formation, and impact. The document uses various diagrams and maps to illustrate its points.

Full Transcript

Weather Patterns and Severe Storms Air Masses  Large bodies of air  1600 kilometers (1000 miles) or more across  Perhaps several kilometers thick  Similar temperature at any given altitude  Similar moisture at any given altitude  Move and affect a large p...

Weather Patterns and Severe Storms Air Masses  Large bodies of air  1600 kilometers (1000 miles) or more across  Perhaps several kilometers thick  Similar temperature at any given altitude  Similar moisture at any given altitude  Move and affect a large portion of a continent Invasion of Frigid Air Air Masses  Source region – the area where an air mass acquires its properties Air Masses  Classification of an air mass  By source region  By nature of surface in source region Air Masses  Polar (P)  High latitudes  Cold  Tropical (T)  Low latitudes  Warm Air Masses  Continental (c)  Form over land  Likely to be dry  Maritime (m)  Form over water  Humid air Air Masses  Four basic types of air masses  Continental polar (cP)  Continental tropical (cT)  Maritime polar (mP)  Maritime tropical (mT) Air-Mass Source Regions for North America Air Masses and Weather North America – cP and mT air masses – most important, especially east of the Rockies Air Masses and Weather  North America (east of Rocky Mountains)  Continental polar (cP)  Responsible for lake-effect snows  cP air mass crosses the Great Lakes  Air picks up moisture from the lakes  Snow occurs on the leeward shores of the lakes  From northern Canada and interior of Alaska  Winter – brings cold, dry air  Summer – brings cool relief Lake Effect Snow Air Masses and Weather  North America (east of the Rocky Mountains)  Maritime tropical (mT)  From the Gulf of Mexico and the Atlantic Ocean  Warm, moist, unstable air  Brings precipitation to the eastern United States Air Masses and Weather Continental tropical (cT) Southwest and Mexico Hot, dry Seldom important outside the source region Air Masses and Weather  Maritime polar (mP)  Brings precipitation to the western mountains  Occasional influence in the northeastern United States causes the “Nor’easter” in New England with its cold temperatures and snow Fronts  Boundaries that separate air masses of different densities  Air masses retain their identities  Warmer, less dense air forced aloft  Cooler, denser air acts as wedge Fronts  Warm front  Warm air replaces cooler air  Shown on a map by a red line with semicircles  Small slope (1:200)  Clouds become lower as the front nears  Slow rate of advance  Light-to-moderate precipitation Warm Front Fronts  Cold front  Cold air replaces warm air  Shown on a map by a line with triangles  Twice as steep (1:100) as warm fronts  Advances faster than a warm front Fronts  Cold front  Associated weather is more violent than a warm front  Intensity of precipitation is greater  Duration of precipitation is shorter  Weather behind the front is dominated by  Cold air mass  Subsiding air  Clearing conditions Cold Front Fronts  Stationary front  Flow of air on both sides of the front is almost parallel to the line of the front  Surface position of the front does not move Fronts  Occluded front  Active cold front overtakes a warm front  Cold air wedges the warm air upward  Weather is often complex  Precipitation is associated with warm air being forced aloft Formation of an Occluded Front Thunderstorms  Features  Cumulonimbus clouds  Heavy rainfall  Lightning  Occasionally feature hail Thunderstorms  Occurrence  2000 in progress at any one time  100,000 per year in the United States  Mostfrequent in Florida and eastern Gulf Coast region Average Number of Days per Year with Thunderstorms Thunderstorms  All thunderstorms require Warm air Moist air Instability (lifting) High surface temperatures Most common in the afternoon and early evening Thunderstorms  Require continuous supply of warm air and moisture  Each surge causes air to rise higher  Updrafts and downdrafts form  Eventually precipitation forms  Most active stage  Gusty winds, lightning, hail  Heavy precipitation  Cooling effect of precipitation marks the end of thunderstorm activity Thunderstorm Development Doppler Radar Hurricanes  Wind speed in excess of 119 kilometers (74 miles) per hour  Rotary cyclonic circulation  Form between the latitudes of 5 degrees and 20 degrees Regions Where Hurricanes Form Hurricanes  Known as  Typhoons in the western Pacific  Cyclones in the Indian Ocean  North Pacific has the greatest number per year Hurricanes  Parts of a hurricane  Eye wall  Near the center  Rising air  Intense convective activity  Wall of cumulonimbus clouds  Greatest wind speeds  Heaviest rainfall Hurricanes  Parts of a hurricane  Eye  At the very center  About 20 kilometers (12.5 miles) diameter  Precipitation ceases  Winds subsides  Air gradually descends and heats by compression  Warmest part of the storm Super Typhoon Jangmi Cross Section of a Hurricane Hurricanes  Wind speeds reach 300 km/hr  Generate 50 foot waves at sea Hurricanes  Hurricane formation and decay  Form in all tropical waters except the  South Atlantic and  Eastern South Pacific  Energy comes from condensing water vapor  Developmost often in late summer when warm water temperatures provide energy and moisture Sea Surface Temperatures Hurricanes  Initial stage is not well understood  Tropicaldepression – winds do not exceed 61 kilometers (38 miles) per hour  Tropicalstorm – winds between 61 to 119 kilometers (38 and 74 miles) per hour  Name is given at this stage Hurricanes  Hurricane formation and decay  Diminish in intensity whenever  They move over cooler ocean water  They move onto land  The large-scale flow aloft is unfavorable Hurricane Fran Hurricanes  Destruction from a hurricane  Factors that affect amount of hurricane damage  Strength of storm (the most important factor)  Size and population density of the area affected  Shape of the ocean bottom near the shore  Saffir-Simpson scale ranks the relative intensities of hurricanes Hurricanes  Categories of hurricane damage  Storm surge – large dome of water 65 to 80 kilometers (40 to 50 miles) wide sweeps across the coast where eye makes landfall  Wind damage  Inland flooding from torrential rains Storm Surge Destruction

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