Download Thunderstorms Air-Mass Thunderstorms Stages of Development

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Transcript 
11/16/2011
Thunderstorms
Thunderstorms and Tornados
Chapter 10
—
A storm that generates lightning and thunder.
◦ Gusty winds, heavy rain, and hail
◦ Warm humid air rising
– Unstable environment
– Unequal heating of earth’s surface
Air-Mass Thunderstorms
—
Stages of Development
Occur within Maritime Tropical air-masses
◦ Unstable air
◦ Summer days
Stages of Development
—
Cumulus Stage
– Warm humid air rising
– Reaches dew point – Condensation - Clouds
– Addition of latent heat increases development
–
–
–
–
–
Updrafts dominate
Precipitation is generated
Updrafts can’t support precip.
Downdrafts are initiated from precip.
Entrainment – influx of cool dry air
Stages of Development
—
Mature Stage
◦
◦
◦
◦
◦
◦
Equal updrafts and downdrafts
Creates anvil shape
High winds
Lightning
Heavy precip.
Possibly hail
– Causes some precip to evap. (cooling process)
– Downdrafts – Precipitation -Cold
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11/16/2011
Stages of Development
—
Severe Thunderstorms
—
◦ High Winds - 93 km/h
◦ Hail - 1.9 cm diameter
◦ Tornados
Dissipating Stage
◦ Entrainment increases
◦ Downdrafts dominate
Severe Thunderstorms
Wind Shear gives strength
—
10,000 out of 100,000
per year (US)
Severe Thunderstorms
—
◦ Change in wind direction and/or speed between different
heights
—
Criteria (Any one of the followi ng)
Roll Cloud
◦ Spinning occurring between updrafts and downdrafts.
Tilted updrafts
◦ Storm can keep feeding itself
◦ Maintains strength
◦ Builds upward
—
Overshooting top
—
Gust front
◦ Extends in stratosphere
◦ Pushes warm air up
◦ (Mini cold front)
Supercell Thunderstorms
Squall Lines
2,000 – 3,000 per year (US)
— Very large, very dangerous T-storms
— Typically spawn tornados
—
—
—
—
—
—
—
Line of thunderstorms
Occur in the warm section of a cyclone
In front of a cold front
Can form along a dryline
Caused by divergence
aloft
Warm humid air gets forced
upward
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11/16/2011
Squall Lines
—
Mesoscale Convective Complexes
Mammatus Sky
—
◦ Dark cloud rolls
—
—
—
—
—
—
Microburst
—
—
—
—
—
—
Downdrafts or downbursts
Created by evaporative cooling
Cold air – very dense
At surface air pushes outward
160 kph
An example of wind sheer
Many individual T-storms organized into a cluster
100,000 sq. km
Slow moving
Originate as air-mass T-storms
Lots of warm humid air needed
Instable air (rising)
Gust fronts
Lightning and Thunder
—
Sheet lightning
◦ Bright – illuminates the sky
◦ Can’t see bolt
◦ Bolt within the clouds
◦ Change in wind direction
and/or speed between
different heights
Lightning and Thunder
—
Lightning and Thunder
Cloud to Ground Lightning
—
◦ More dangerous
—
What causes lightning?
Meteorologists unsure
◦ Friction between updrafts and downdrafts
◦ Formation of hail
—
Negative charges at
—
Positive charges at
—
Negative charges
◦ Base of cloud
◦ Top of cloud
◦ On ground
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Lightning and Thunder
—
Flash
Lightning and Thunder
—
◦ Bright streak of light
◦ Composed of 3-5 strokes
Step-leader
◦ Ionizes the air
◦ (loses electrons)
◦ Forms path for lightning
– To travel
◦ No lightning yet
Lightning and Thunder
—
Return Stroke
Lightning and Thunder
—
◦ Path gets built upward (like having a wire)
◦ Carries discharge downward (electricity flows)
Additional strokes from these charges
◦ Dart-leaders
Lightning and Thunder
Tornadoes
Lightning superheats air
— 33,000 C
— Air expands explosively and produces thunder
— 5 sec. = 1 mile
—
—
—
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Violent windstorms that take the form of a rotating
column of air (vortex) that extends downward from a
cumulonimbus cloud
Heat lightning – lightning far away
Can’t hear
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11/16/2011
Tornadoes
—
—
—
—
—
Low pressure in the center
Air spirals upward
Air merges with cloud above
Dark color from soil and debris
Up to 300 mph
Multiple Vortex Tornadoes
Multiple tornados grouped together
Each suction vortex may form and die quickly
— Rotates around center
—
—
Mesocyclone
How Tornadoes Form
Vertical cylinder of rotating air
— 3-10km wide
—
—
◦ Changes in wind speed and/or direction
◦ Horizontal rolling motion
—
How Tornadoes Form
—
A) Wind Shear
B) Updraft turns spinning vertical
Wall Cloud
C)Wall cloud forms
◦ Funnel Cloud Forms
◦ Tornado – when it touches ground
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11/16/2011
Funnel Cloud
Tornado
Where Tornadoes Form
Typical Profile of a Tornado
Cold Fronts
— Squall Lines
— Supercell Thunderstorms
—
Diameter 150-600 m
Forward movement 45 kph
— Path – 26 km long
—
—
Tornado Forecasting
Tornado Destruction
—
Fujita Intensity Scale (F-scale)
Very difficult to predict
— Tornado Warning
— Associated with severe weather ◦ Typically there has been a sighting
◦ High probability of danger
— Tornado Watch
—
◦ Conditions are right for a tornado
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11/16/2011
Doppler Radar
Transmits short pulses of electromagnetic energy
— Waves bounce off storm
— Return to radar
— Signal indicates
—
◦ Rainfall intensity
◦ Distance from radar
◦ Increase in frequency
– Storm approaching
◦ Decrease in frequency
– Storm Moving away
Detects motion
— Tornadoes
—
◦ 11 min lead time
7
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