Ch 20: Weather Patterns and Severe Storms Overview TAKE NOTES ON bullet points!!
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Transcript of Ch 20: Weather Patterns and Severe Storms Overview TAKE NOTES ON bullet points!!
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Ch 20: Weather Patterns and Severe Storms
OverviewTAKE NOTES ON bullet points!!
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Air Masses and Weather• Air Mass – immense body of air that is
characterized by similar temperatures and amounts of moisture at any given altitude
• Because of its size, it may take several days for an air mass to move over an area (giving that area fairly constant weather)
• When an air mass moves out of the region over which it formed, it carries its temperature and moisture conditions with it
• As it moves, the characteristics of an air mass change, and so does the weather in the area over which the air mass moves
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Influence of a Canadian
Air Mass
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Classifying Air Masses• The area over which an air mass gets its characteristic properties of
temperature and moisture is called its source region• Air masses are named according to their source region• Polar (P) air masses (cold air) form at high latitudes, while tropical (T)
air masses (warm air) form at low latitudes• In addition to their overall temperature, air masses are classified
according to the surface over which they form• Continental (c) form over land (dry air) and maritime (m) form over
water (humid air)• The four basic types of air masses in North America:
Continental Polar (cP) – cold and dryContinental Tropical (cT) – warm and dry
Maritime Polar (mP) – cold and moistMaritime Tropical (mT) – warm and moist
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Air Mass Source Regions
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Weather in North America• Much of the weather in North America, especially weather east of
the Rocky Mountains, is influenced by continental polar (cP) and maritime tropical (mT) air masses
• Continental polar air masses are uniformly cold and dry in winter and cool and dry in summer; lake-effect snow is caused when one of these air masses passes over the moisture of the lake and drops the precipitation down on the leeward side of the lake
• Maritime tropical air masses are warm, loaded with moisture, and usually unstable; they are the source of much of the precipitation in the eastern two thirds of the U.S.
• During the winter, maritime polar (mP) masses that affect weather in North America come from the North Pacific
• Continental tropical air masses have the least influence on the weather of North America
• Only occasionally do continental tropical (cT) air masses affect the weather outside their source region
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Continental Polar and Maritime Polar Air Masses
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Formation of Fronts• When two air masses meet, they form a front, which
is a boundary that separates two air masses• Fronts can form between any two contrasting air
masses• In contrast to the vast sizes of air masses, fronts are
narrow (~15-200 km wide)• In the ideal case, the front would move in the same
direction with warmer air overlying cooler air• However, the distribution of pressure across a front
causes one air mass to move faster than the other, causing it to advance into the slow air mass
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Warm Fronts• A warm front forms when warm air moves into an
area formerly covered by cooler air• The surface position of a warm front is shown by a
red line with semi-circles that point toward the cooler air
• The first sign of the approaching warm front is the appearance of cirrus clouds
• Because of their slow rate of movement and very low slope, warm fronts usually produce light-to-moderate precipitation over a large area for an extended period
• A gradual increase in temperature occurs with the passage of a warm front, as does a wind shift from the east to the southeast
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Warm Front
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Cold Fronts• A cold front forms when cold, dense air moves into a
region occupied by warmer air• On a weather map, the surface position of a cold front is
shown by a blue line edged with blue triangles that point toward the warmer air mass
• As a cold front moves in, it becomes steeper and advance more rapidly than warm fronts
• The forceful lifting of air along a cold front can lead to heavy downpours and gusty winds
• As a cold front approaches, towering clouds can often be seen in the distance
• The weather behind a cold front is dominated by a cold air mass, so weather clears shortly after the front has passed
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Cold Front
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Stationary Fronts
• Occasionally, the flow of air on either side of a front is neither toward the cold air mass nor toward the warm air mass, but almost parallel to the line of the front
• The surface position of the front does not move, and a stationary front forms
• On a weather map, stationary fronts are shown by blue triangles on one side of the front and red semicircles on the other
• Sometimes, gentle to moderate precipitation occurs along a stationary front
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Occluded Fronts
• When an active cold front overtakes a warm front, an occluded front forms
• The weather associated with an occluded front is complex: most precipitation is associated with the warm air’s being forced upward
• Remember, fronts, like all aspects of nature, do not always behave as we expect them to
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Formation of an Occluded Front
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Middle-Latitude Cyclones• The main weather producers in the U.S. are middle-
latitude cyclones, denoted by the letter L• Middle-Latitude Cyclones – large centers of low
pressure that generally travel from west to east and cause stormy weather
• The air in these weather systems moves in a counterclockwise direction and in toward the center of the low
• Most middle-latitude cyclones have a cold front, and frequently a warm front, extending from the central area
• Forceful lifting causes the formation of clouds that drop abundant precipitation
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Middle-Latitude Cyclone Model
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Cloud Patterns
Associated With Middle-
Latitude Cyclones
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The Role of Airflow Aloft• Airflow aloft plays an important role in maintaining
cyclonic and anticyclonic circulation• The rotating wind systems are actually generated by
upper-level flow• Surface convergence must be offset by outflow
somewhere higher in the atmosphere• As long as the spreading out of air high up is equal to or
greater than the surface inflow, the low-pressure system can be sustained
• More often than not, air high up in the atmosphere fuels a middle-latitude cyclone
• In an anticyclone, air spreading out at the surface is balanced by air coming together from high up
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Role of Airflow Aloft in Cyclonic Activity
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Thunderstorms• Thunderstorm – a storm that generates lightning and
thunder; frequently produce gusty winds, heavy rain, and hail
• Thunderstorms may be produced by a single cumulonimbus cloud, or it may be associated with clusters of cumulonimbus clouds along a cold front
• At any given time, there are an estimated 2000 thunderstorms in progress on Earth (~45,000 a day and 16 million a year); the U.S. experiences ~100,000 a year
• Thunderstorms form when warm, humid air rises in an unstable environment
• The life span of a single cumulonimbus cell within a thunderstorm is only about an hour or two, but as the storm moves, it is constantly getting fresh supplies of warm, humid air
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U.S. Distribution of Thunderstorms
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Stages in the Development of a Thunderstorm
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Tornadoes• Tornadoes – violent windstorms that take the form of a
rotating column of air called a vortex; the vortex extends downward from a cumulonimbus cloud
• In the U.S., ~770 tornadoes are reported each year; greatest occurrence between April and June
• Most tornadoes form in association with severe thunderstorms
• An important process in the formation of many tornadoes is the development of a mesocyclone (see diagram)
• Pressures within some tornadoes can be as much as 10% lower than the surrounding area, causing air near the ground to be “sucked” into the vortex
• One scale used to measure tornado intensity is the Fujita tornado intensity scale
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Tornado Suction Vortices
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Formation of a Mesocyclone
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U.S. Tornado Incidences
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Hurricanes (2)• Hurricanes – whirling tropical cyclones that produce
winds of at least 119 kilometers per hour (also known as typhoons, cyclones, and tropical cyclones)
• At sea, they can generate 15-meter high waves capable of destruction hundreds of kilometers away
• A hurricane is a heat engine that is fueled by the energy given off when huge quantities of water vapor condense
• Hurricanes develop most often in the late summer when water temperatures are warm enough to provide the necessary heat and moisture to the air
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• Eye Wall – doughnut-shaped wall that surrounds the center of the storm, where the greatest wind speeds and heaviest rainfall occur
• Eye – center of the storm where precipitation ceases and winds subside
• The intensity of a hurricane is described using the Saffir-Simpson scale
• Storm Surge – a dome of water about 65 to 80 km wide that sweeps across the coast where a hurricane’s eye moves onto land
• A hurricane weakens when it moves over cooler ocean water and land
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Hurricane Cross-Section
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Hurricane Katrina
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Assignment
• Read Chapter 20• Do Ch. 20 Assessment – #1-37 (pg. 583-584)– #1-4 (pg. 585)
• Study for Chapter 20 Quiz!