Transcript Note
Cyclones and Thunderstorms Outline • Mid-latitude cyclones – Definitions, scales – Examples • Thunderstorms – How to form – Associated dangers Mid-latitude Cyclones • Key - rotating air body • At mid-latitudes, these are not hurricanes • Occur over various scales – Blizzards to tornados How do you get a rotating body? • Helped by bends in polar jet stream – Create troughs, ridges Jet Stream Ridges and Troughs • Troughs – Low pressure, form cyclones – Winds flow towards core, rising, cools, rainy weather • Ridges – High pressure, form anti-cyclones – Winds flow down and out over surface, warm dry, windy conditions common Scales of Mid-Latitude Cyclones • Largest: linked to jet stream troughs – Occur on order of 1000 km – Examples in northern U.S. - nor’easters • Mid-level: individual thunderstorms – ~10 km – Higher wind speeds than nor’easters • Small scale: tornados – Even higher wind speeds • Conditions to get a large-scale cyclone Nor’easters • Low pressure system moves along NE coast • CCW circulation draws cold air from north, moisture from Atlantic • Works to feed cyclone to produce blizzards, ice storms Example: 1993 March “White Hurricane” • Covered much of eastern U.S. • 100 mph winds, 238 deaths, over $800 million damage • Why? Very low pressures, jet stream trough, wet western front collide QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. How Low was the Pressure? Blizzards • Winter cyclone • Characterized by low temperatures, strong winds (37 mph+), usually snow • Fatalities come from – Freezing temps – Accidents – Heart attacks Example: 1996 January • Record snowfalls in VA, PA, NJ, WV • 50 mph winds • Blizzard and followup flooding: 187 deaths, $3billion damage Example: 1886 March • • • • 85 mph winds in eastern U.S. Snow in NY - almost 50 inches Snowdrifts to 20 ft ~400 fatalities QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Ice Storms • Frozen precipitation melts as it falls, refreezes when reaches ground • Problem for objects covered in layers of ice (power lines, trees) Common damage from storms: power outages Thunderstorms • Common in many parts of the country • Produce heavy rain, thunder, lightning, hail, strong winds Days per year with t-storms How to Form a Thunderstorm • Need warm, moist air rising – Less dense than surrounding air, rises higher • Passes certain height, condensation occurs to form cloud – Gets extra energy from latent heat of condensation How to Form a Thunderstorm • In U.S., good conditions in – Central, southern U.S. • Warm moist air from Gulf of Mexico meets cold air from north – West-central mountains • Warm Gulf air meets dry desert air When and Why of a Thunderstorm • Common in late afternoon, early evening – Ground, air temperatures are highest • Build thundercloud by continuous updraft of warm, moist air When and Why of a Thunderstorm • Continue updrafts, some precipitation begins • Starts downward flow • Most violent period with rain, thunder, hail When and Why of a Thunderstorm • Dissipates when cold downdrafts damp out updrafts needed for fuel • Cloud evaporates, lighter rain Microbursts • Violent downdrafts during t-storm • Particularly hazardous to planes during take-off and landing – Close to ground, can be slammed to runway • Many instances of fatalities from these events Danger from Thunderstorms • • • • • Heavy rain Flooding Hail Lightning High speed winds Heavy Rain • Good side: add to water supplies • Bad side: happens quickly, high intensity events – Can lead to flash floods Example: Central Texas • 22 inches in 2.75 hours • 32 inches in 12 hours – Flooding killed 215 people • 1972 storm: 12 inches in 1 hour – Local river rose ~28 ft in 2 hours – Flooding killed 17, $18 million damage Hail • Semi-spherical layered ice balls falling during thunderstorms • Requirements: – Large thunderstorms – Upper level cold air (maximum temperature contrasts) • Produce strong updrafts needed to keep hail suspended long enough to add layers of ice, grow in size Where are hailstorms common? Same as t-storms? NO! Why? Need upper level cold air Common in late spring/summer. Migrate northward in summer Local Hailstorm • October 2004 • Tropical air moving northward, mixed with cold front from north • 2-3 inch diameter hailstones recovered – 95 - 120 mph when hitting the ground • Significant financial impact: – $25-30 million citywide Lightning • Discharge of electricity • Occur during thunderstorms, common in summer • Deaths follow common pattern of thunderstorm occurrence Lightning fatalities Highest in Florida, months of June, July, August Electrification of Clouds • • • • Generally upper level of clouds - + charge Mid level - - charge Lower level - mix of charge Why? Transfer of positive ions from warm to cold objects in collisions between ice droplets, water droplets Upper level + Mid level Lower level mix Note positive charge on high objects near cloud negative charges Lightning Strike • Unlike charges attract each other – Negative charges in cloud lead to positive charges on ground – Dense on high objects (trees, poles) • Set up electric potential between cloud and ground • When large enough, current flows lightning Lightning Facts • Several strokes occur over ~1/2 second • Travels over 6,000 miles/second • Can produce very high temperatures (55,000 F) briefly – High temps cause air to expand, produce sound wave (thunder) Deaths • ~143 deaths per year in U.S. • Ways to avoid – Stay inside house, car, truck – Outside, move to low place Winds • Can be straight-line or rotating (tornadoes) • Straight-line winds can be 80-100 mph – Damage structures, trees – Duration can be hours Next Time • Tornadoes