thunderstorms
DESCRIPTION
Thunderstorms. Thunderstorms: Some Key Facts. Produced by cumulonimbus clouds and are accompanied by lightning and thunder. Occurs when the atmosphere becomes unstable—when a vertically displaced air parcel becomes buoyant and rises on its own. - PowerPoint PPT PresentationTRANSCRIPT
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Thunderstorms
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Thunderstorms: Some Key Facts
• Produced by cumulonimbus clouds and are accompanied by lightning and thunder.
• Occurs when the atmosphere becomes unstable—when a vertically displaced air parcel becomes buoyant and rises on its own.
• The ideal conditions include warm, moist air near the surface and a large change in temperature with height (large lapse rate)
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Thunderstorm Amazing Facts
• Some can extend as high as 40,000-65,000 ft!
• The are capable of releases tremendous amounts of energy (equivalent to several hydrogen bombs)
• Some are associated with tornados, heavy rain, and hail.
• Some have winds gusting to over 100 mph!
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Thunderstorms Generally Require Three Ingredients
• Unstable lapse rate of temperature: in other words, a rapid change of temperature with height.– This large lapse rate can be forced by warming
below or cooling above.
• Sufficient low-level moisture• Some lifting to get the parcels started upwards
– Fronts, mountains, sea breeze, etcc.
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Thunderstorm Climatology
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Two Main Types of Thunderstorms
• Air mass thunderstorms—usually harmless and short-lived (less than an hour). The kind we get here!
• Severe thunderstorms – can last for hours and can become very strong. Associated with strong winds, tornadoes and hail. Examples include: supercell storms and squall lines. We rarely get these!
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The Life Cycle of Air Mass Thunderstorms
• We understood very little about the structure and evolution of thunderstorms before the famous Thunderstorm Project of the late 1940s when armored aircraft (P-61) were flown in thunderstorms in Ohio and Florida.
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M
Hail Damage!
P-61 Squadron
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Fig. 10-1, p. 265
Single Cell Air Mass Thunderstorm
Cumulus Mature Dissipating
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Air Mass thunderstorms are SUICIDAL. The cool downdraft kills the updraft…that is why they don’t live long enough to become severe.
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Major Thunderstorm Structures
Cirrus Anvil, Gust Front, Updraft, Downdraft
updraft
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Roll or Arcus Cloud
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Air Mass Thunderstorms
• Can have several cells at various stages in their life cycle
• Updrafts of 2-20 knots
• Cells generally 3-6 miles across
Radar Image of Air MassThunderstorm
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Thunderstorms on the Cascades
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Lightning
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Fig. 10-23, p. 280
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Mean Annual Lightning Strikes
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Lightning Kills!
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Lightning is attracted to this
Lightning Rod
Metal Cleat Shoes…good grounding
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Lightning can occur cloud to cloud, cloud to ground, cloud to air, or within a cloud
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Lightning Facts• The majority of lightning occurs within clouds…only
about 20% between cloud and ground.• The lightning strokes heats a narrow channel to roughly
54,000 F—much hotter than the surface of the sun. Causes air to expand explosively—producing thunder.
• Light from lightning moves at the speed of light (186,000 miles per second), while sound of thunder only moves at 1/5 mile per second.
• Can use the difference to determine how far the lightning stroke is: for every 5 second difference-one mile away
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Benjamin Franklin was the first to suggest that lightning originated in
sparks between static charges.
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Before Lightning Strikes: Development of Areas of Charge in Clouds and Surface
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Charge Separation in Clouds
• NOT WELL UNDERSTOOD!• Charge separation appears to depend on strong updrafts,
ice crystals, and supercooled water.
• Large ice crystals fall rapidly and collect the smaller, slower, supercooled water drops in their path. The drops freeze on the surface of the falling ice crystals, building graupel particles.
• When graupel particles fall through supercooled water and ice crystals, they acquire one charge, and the water-ice mix acquires the opposite charge. Or so we think!
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Typical Cloud to Cloud Lightning Stroke
(a) Negative charge descends the cloud in a series of steps (roughly 50-100 long)—called a “stepped leader”
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Typical Cloud to Cloud Lightning Stroke
(b) As the stepped leader approaches the surface, positive charges moves upwards to meet it. When the potential gradient (volts per meter) increases to about one million volts per meter, the insulating properties of the air begins to break down
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Typical Cloud to Cloud Lightning Stroke (negative lightning)
(c) With break down, a return stroke begins, with negative charge surging downward in the cloud.
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Positive Lightning• Some lightning originates in the cirrus anvil or upper parts near the top of the
thunderstorm, where a high positive charge resides.
• In this case, the descending stepped leader carries a positive charge while its subsequent ground streamers will have a negative charge.
• These bolts are known as "positive lightning" because there is a net transfer of positive charge from the cloud to the ground.
• Positive lightning makes up less than 5% of all strikes. However, positive lightning is particularly dangerous for several reasons.
– Since it originates in the upper levels of a storm, the amount of air it must move through to reach the ground usually much greater. Therefore, its electric field typically is much stronger than a negative strike.
– Its flash duration is longer, and its peak charge and potential can be ten times greater than a negative strike; as much as 300,000 amperes and one billion volts!
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PositiveLightning!
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Lightning Detection Networks
Sensors detect the radio waves emitted by lightning strokes
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Recent Example
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What do you do when lightning is around
• Cars are very safe!
• Stay away from trees!
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Figure 2, p. 282
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A car struck by lightning on the 520 bridge
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What to do?
• No more golf!
• If out in the open go to a low spot and crouch down—the lightning crouch!
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Fig. 10-24, p. 281
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Severe Thunderstorms
• Can last for hours and produce strong winds, large hail, flash flooding, tornadoes.
• Have found the secret of longevity (will reveal later!)
• Most important types are supercell storms, squall lines, and bow echo storms.
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Supercell Thunderstorm
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Supercell Storms
• One giant updraft that can have upward speeds as high as 60-100 mph
• Large size: 30-50 miles in diameter.
• The large updraft is often rotating: called a mesocyclone.
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Fig. 10-37, p. 291
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Fig. 10-35, p. 290
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Fig. 10-4, p. 268
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Tornado Spotters Guidehttp://www.youtube.com/watch?v=ZCztW1xpbA0
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Supercells on Radar
• In weather radars, supercell storms are usually apparent as hooked echos.
• The mesocyclone can be seen with the Doppler winds..
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Fig. 10-36, p. 290
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Origin of rotation in the mesocyclone
Why mesocyclones? Why is wind shear important?
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What is the secret of the strength and longevity for severe thunderstorms?
• They all grow in environments with large vertical instability.
• But they also grow in an environment of large wind shear—wind changing significantly with height. What difference does that make?
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Need to stop the rotation of cold air in front of storm
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Squall Lines
• Long, linear lines of strong thunderstorms
• Strong narrow convective line, followed by a wide region of stratiform precipitation
• Mainly in the central and eastern U.S.
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Fig. 10-6, p. 269
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Squall Line
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Bow Echos
• Can occur when a squall line or group of thunderstorms “bow out”
• Can produce strong (60-100 mph) straight-line (non-rotating) winds.
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Fig. 10-16, p. 273
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Bow Echo Development
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Many Bow Echos Assoiated with Strong Straight-Line Winds
Called Derechos• Winds can reach 85-100 mph
• Can produce extensive damage
• http://www.youtube.com/watch?v=EGJmOeDEBtw
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DC Derecho: June 10, 2013
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Tornado
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Fig. 10-32, p. 288
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Fig. 10-33, p. 289
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Annual Number of Tornadoes per State (upper number)
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Average Number of Tornadoes by Month in US
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Table 10-2, p. 288
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New Enhanced Fujita Scale
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Tornado Videos
http://www.youtube.com/watch?v=xCI1u05KD_s
http://www.youtube.com/watch?v=iJ26HnnUuO0
Joplin Tornado
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Origin of rotation in tornadoes
• Severe thunderstorms associated with mesocyclones (strongest tornadoes)
• Weaker thunderstorms associated with fronts and shear lines (weaker ones)
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Origin of rotation in the mesocyclone
Why mesocyclones? Why is wind shear important?
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Fig. 10-34, p. 289
Stepped Art
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Final Spin-Up: Conservation of Angular Momentum
Angular momentum= mvr=constant
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Fig. 10-40, p. 293
Weaker Tornadoes on Fronts and Shear Lines
Another way to get rotation
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Northwest Tornadoes
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NW F3 Tornado
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A Tornado Almost Took Out Bill Gates!
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Large Hail
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Hail Occurs in Strong Thunderstorms with Very LargeUpward Velocities
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Some Hail Facts
• Range in size from 0.2 to 6 inches in diameter. • Large hailstones are often characterized by
alternating layers of clear and opaque ice, caused by cycles of riming and freezing.
• Hail produces substantial damage to buildings, cars, and crops. Major agricultural problem in areas of the midwest and some overseas locations with strong thunderstorms.
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Car Damage
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Crop Damage
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Average Number of Days with Hail
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Thunderstorm and Cumulus Downbursts/Microbursts: A
Major Threat to Aviation
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Downbursts can be Divided into Downbursts can be Divided into Two Main TypesTwo Main Types
• MACROBURST: A large downburst with its outburst winds extending greater than 2.5 miles horizontal dimension. Damaging winds, lasting 5 to 30 minutes, could be as high as 134 mph.
• MICROBURST: A small downburst with its outburst, damaging winds extending 2.5 miles or less. In spite of its small horizontal scale, an intense microburst could induce damaging winds
as high as 168 mph.
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Fig. 10-14, p. 273
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Research by NCAR and collaborators in the 1980s uncovered the deadly one-two punch of microbursts: aircraft level off when they encounter headwinds, then find themselves pushed to the ground by intense downdrafts and tailwinds.
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Eastern Air Lines 66June 24, 1975
New York – Kennedy Airport
112 killed
12 injured
Crashed while landing
Boeing 727
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Pan Am 759July 9, 1982
New Orleans Airport
145 passenger/crew killed
8 on ground killed
Crashed after takeoff
Boeing 727
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Delta 191
August 2, 1985
Dallas-Fort Worth Airport
Crashed on landing
8 of 11 crew members and 128 of the 8 of 11 crew members and 128 of the 152 passengers killed,152 passengers killed,1 person on ground killed 1 person on ground killed Lockheed L-1011
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USAir 1016July 2, 1994
Charlotte/Douglas Airport
Crashed on landing
37 killed
25 injured
McDonnell Douglas DC-9
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August 1, 1983 the strongest microburst recorded at an airport was observed at Andrews Air Force Base in Washington DC. The wind speeds may have exceeded 150 mph in this microburst. The peak gust was recorded at 211 PM – 7 minutes after Air Force One, with the President on board, landed on the same runway.
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Wisconsin on the 4th of July, 1977, with winds that were estimated to exceed 115 mph, and completely flattening thousands of acres of forest
MacroburstMacroburst
MicroburstMicroburst
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Low Level Windshear Alert System Low Level Windshear Alert System (LLWAS)(LLWAS)