Transcript Week 11
Stability and Severe Storms
AOS 101 Discussion Sections 302 and 303
What is a Severe Thunderstorm?
NWS Severe Thunderstorm
Definition
Hail of 1 inch diameter or larger
And/or
Wind gusts 58 mph or greater
A tornado
Warnings typically last one
hour
What is required to create
thunderstorms?
Stability
Rock on a Hill
Rock in the Ditch
Unstable
Stable
An Air Parcel
An invisible, imaginary, and infinitely elastic container
Usually a cubic meter in size (1 m3)
It is used to “test” the atmosphere
It does not actually occur in nature
Can be used to determine how a portion of the atmosphere
evolves
Can be roughly shown with weather balloons
Shows atmospheric instability
Extremely useful when studying heat and energy exchange in
the atmosphere
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Air Parcel Stability
Stability
Rock on a Hill
Rock in the Ditch
Unstable
Stable
Tp > Te
Tp < Te
If Tp = Te then the parcel is neutral
Absolutely Stable
Absolutely Stable – Temperature Inversion
Absolute Instability
Conditionally Unstable
How to “Test” the Atmosphere
Lift the parcel along the
dry adiabat
Once the parcel reaches
dew point it becomes
saturated and rises along
moist adiabat
Parcel Reaches Saturation
– Lifting Condensation
Level (LCL)
Level of Free Convection
Equilibrium Level (EL)
Example Skew-T
Dew Point – Green
Temp – Red
Parcel – Yellow
Dew Point Trace – Blue
LCL – Lifting
Condensation Level
LFC – Level of Free
Convection
EL – Equilibrium Level
When and Why Do Thunderstorms Occur?
During the spring and summer,
certain atmospheric conditions
can be set up which drive severe
convective storms:
Conditionally unstable atmosphere
Moisture
Upward vertical motion (“Lifting”)
Wind shear
Moisture
Since a conditionally unstable atmosphere is only
unstable with respect to an saturated air parcel, some
moisture source is required to create severe weather
Vertical Lifting
An unstable atmosphere
will only generate severe
weather when it is given
a “push”
Unstable air parcels can
be lifted by the following
mechanisms:
Convection
Convergence
Frontal forcing
Topography
Convection
Convergence
Frontal Forcing: Cold Fronts
Frontal Forcing: Warm Fronts
Topography
Wind Shear
Wind shear is a term which
describes how the speed
and direction of the wind
change with height
Critically important for the
formation of severe weather
Wind shear will keep upward
motion and downward motion
in the storm separated, allowing
the storm to survive
Directional Wind Shear
Wind changes direction with height
Wind is backing if the wind direction rotates
counterclockwise with height
Wind is veering if the wind direction rotates clockwise
with height
Generally, severe weather will only be found if the wind is
veering with height
Life Cycle of a Storm
Building block for any thunderstorm is a thunderstorm
cell
Typical thunderstorm lasts approx. 30 minutes
Three stages
Developing stage
Mature Cumulus stage
Dissipating Stage
Developing Stage
Warm, humid air rises and
develops an updraft
Air parcels saturate and form a
towering cumulus cloud
Little or no rainfall
Lasts near 10 minutes
No severe weather yet
Mature Cumulus Phase
Precipitation begins to fall, creating
downward motion (downdraft)
When downdraft hits the ground, it
spreads out and creates a “gust
front”
Storm develops overshooting
(“anvil”) top
Lasts an average of 10-20 minutes.
Most likely time for severe weather
(large hail, gusty winds, tornadoes)
Dissipating Phase
Downdraft dominates and
shuts off the updraft
Gust front moves out ahead
of the storm and cuts off
inflow of warm, moist air
Severe weather threat
diminished
Lightning still a threat
Other storms may develop
along outflow boundary
Hail
Hail forms from a large updraft and collisioncondensation
Lightning
Lightning is a result of cloud ionization discharging with
the ground
Thunder comes from the extreme heating from a
lightning strike creating a sonic boom
VIDEO
Types of Thunderstorms
Ordinary Cell
Multi-cell Cluster
Multi-cell Line (aka Squall line)
Supercell thunderstorm
Supercell Thunderstorm
Tornadoes
A tornado is defined as “a violently rotating column of air
descending from a thunderstorm and IN CONTACT with
the ground.” -NWS
Can sometimes last for more than an hour and travel
several miles
Most violent tornadoes are capable of tremendous
destruction with wind speeds of 250 mph or more
Tornadoes in the winter and early spring are often
associated with strong frontal systems that form in the
Central US and move east
How are tornadoes formed?
Before thunderstorms develop, a change in wind shear
creates an invisible, horizontal spinning effect near the
surface.
How are tornadoes formed?
Rising air within the thunderstorm updraft tilts the
rotating air from horizontal to vertical
How are tornadoes formed?
An area of rotation, 2-6 miles wide, now extends through
much of the storm.
Most strong and violent tornadoes form within this area
of strong rotation
Tornado Video
Tornado Time Lapse Video