Download Cloud Development and Precipitation Atmospheric Stability

Chapter 5: Cloud
Development and
Precipitation
Atmospheric Stability
Atmospheric Stability
Determining stability
Cloud development and stability
Precipitation processes
Precipitation types
Measuring precipitation
Atmospheric Stability
Determining Stability
stable and unstable equilibria
air parcels
adiabatic process
adiabatic lapse rates
• Stability does not control whether air will rise or sink.
Rather, it controls whether rising air will continue to rise
or whether sinking air will continue to sink.
A Stable Atmosphere
environmental lapse rate
absolute stability
stabilizing processes
subsidence inversions
An Unstable Atmosphere
absolute instability
warming of surface air
destabilizing processes
superadiabatic lapse rates
• Unstable air tends to be
well-mixed.
• Stable air provides excellent conditions for high
pollution levels.
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Conditionally Unstable Air
Cloud Development
and Stability
conditional instability
dry and moist adiabatic lapse rates
Cloud Development and
Stability
surface heating and free convection
uplift along topography
widespread ascent
lifting along weather fronts
Convection and Clouds
thermals
fair weather cumulus
• Fair weather cumulus
provide a visual marker of
thermals.
• Bases of fair-weather
cumulus clouds marks the
lifting condensation level,
the level at which rising air
first becomes saturated.
Topography and Clouds
orographic uplift
rain shadow
Precipitation
Processes
• The rain shadow works for snow too. Due to frequent
westerly winds, the western slope of the Rocky Mountains
receives much more precipitation than the eastern slope.
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Collision and Coalescence
Process
terminal velocity
coalescence
warm clouds
• A typical cloud droplet
falls at a rate of 1
centimeter per second.
At this rate it would take
46 hours to fall one mile.
Stepped Art
Fig. 5-9, p. 116
Ice Crystal Process
cold clouds
supercooled water droplets
saturation vapor pressures over liquid
water and ice
accretion
• The upper portions of
summer thunderstorms are
cold clouds!
Fig. 5-22, p. 124
Cloud Seeding and
Precipitation
cloud seeding
silver iodide
• It is very difficult to determine whether a cloud seeding
attempt is successful. How would you know whether
the cloud would have resulted in precipitation if it hadn’t
been seeded?
Stepped Art
Fig. 5-22, p. 124
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Precipitation in Clouds
Precipitation Types
accretion
ice crystal process
Rain
rain
drizzle
virga
shower
Snow
• Virga is much more commonly observed in the western
US, because the humid climate of the eastern US
reduces the visibility.
• Snowflake shape depends on both temperature and
relative humidity.
Snow Grains and Snow
Pellets
Sleet and Freezing Rain
sleet
freezing rain
rime
snow
fallstreaks
dendrite
blizzard
snow grains
snow pellets
graupel
• Sleet makes a ‘tap tap’ sound when falling on glass.
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Hail
updraft cycles
accretion
• A hailstone can be sliced open to reveal accretion
rings, one for each updraft cycle.
Stepped Art
Fig. 5-35, p. 134
Measuring
Precipitation
Instruments
standard rain gauge
tipping bucket rain gauge
• It is difficult to capture rain in a bucket when the
wind is blowing strongly.
Doppler Radar and
Precipitation
radar
Doppler radar
Stepped Art
Fig. 5-39, p. 135
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