Transcript Chapter04a

Atmospheric Moisture
Recap: daily temperature variations
• During
the day, the Earth’s surface and air above will continue to
warm as long as incoming energy (mainly sunlight) exceeds outgoing
energy from the surface.
• Atradiation
night, the Earth’s surface cools, mainly by giving up more infrared
than it receives – a process called radiational cooling.
• The
coldest nights of winter occur when the air is calm, fairly dry
(low water-vapor content), and cloud free.
• The
highest temperatures during the day and the lowest
temperatures at night are normally observed at the Earth’s surface.
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Therefore, the greatest daily variation in air temperature also occurs
at the surface.
Radiation inversions exist usually at night when the air near the
ground is colder than the air above.
Both the diurnal and annual ranges of temperatures are greater in dry
climates than in humid ones.
Even though two cities may have similar average annual temperatures,
the range and extreme of their temperatures can differ greatly.
How cold the wind makes us feel is usually expressed as a wind-chill
index (WCI).
Wind-Chill Index
Wind-Chill Equivalent Temperatures
TEMPERATURE
WIND CHILLS
WINDS
DEPARTURE
FROM NORMAL
Water, Water Vapor and Weather
PRECIPITATION
CLOUDS
SNOW COVER
WATER VAPOR
Phase Changes
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The Hydrological Cycle
Different phases of water and phase transitions:
♦ solid (ice), liquid (water), gas (water vapor).
♦ melting, evaporation, sublimation;
condensation, freezing, deposition.
The hydrological cycle.
Advection
latent heat
released
Ep -> Ek
Convection
latent heat
absorbed
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Evaporation
The amount of water in the air is controlled by the process of
evaporation, condensation and transportation of H2O molecules.
Saturated water vapor: the number of evaporating H2O molecules is
exactly equal to the number of condensing H2O molecules.
The effect of T (P constant): warm
water evaporates more readily.
The effect of pressure (T=const):
water evaporates easier at a lower
pressure.
♦ Food takes longer to cook in the
mountains (see focus section)
The effect of the wind (advection):
it enhances evaporation by blowing
away the water vapor molecules
already in the air, allowing additional water molecules to evaporate
♦ Wind chill effect
Vapor Pressure and Boiling
•At P=1 bar water boils at T=100 C
•At high altitudes (lower P) boiling
occurs at lower T.
•At P=750 mbar T(boiling)=92 C
•At T=92 C it takes longer for food
to cook.
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Condensation
Condensation occurs when the air is cooled. In the atmosphere, H2O
molecules condense on small particles (nuclei), cold or open water surfaces.
• Condensation nuclei: bits of dust, smoke, salt, ice, and other particles.
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The effect of T
♦ Warm molecules move too
fast -> bounce off the nuclei and
do not stick to them
♦ Cold air -> molecules move slower
and are more likely to stick and
condense to the nuclei
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Humidity
Humidity: the amount of water in the air.
Absolute humidity: the mass of water vapor in a unit
volume of air.
AH 
mass of water vapor
volume of air
• compared to the total mass of the air parcel.
Specific humidity: the mass of the water vapor
SH 
mass of water vapor
total mass of air
• Water (mass) mixing ratio: The mass of water vapor
compared to the mass of the rest of the air parcel.
MR 
mass of water vapor
mass of dry air
Specific Humidity/Latitudes
• (equator, tropics) have
Warm latitudes
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higher specific
humidity.
Cold latitudes (polar
regions) have low
specific humidity.
Vapor pressure
• Partial pressure: the pressure of each
gaseous component in a mixture of gases.
• Dalton’s law of partial pressure: the total
pressure of a mixture of gases is the sum of the partial
pressures of each gas component.
P  P1  P2  P3  ...
P  P( N2 )  P(O2 )  P( Ar)  ...  P( H 2O)  ...
• Vapor pressure: the partial pressure of H O vapor.
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♦ What is the H2O vapor pressure if 1% of the air is H2O and
the total air pressure is 1bar?
• The
pressure of a gas is proportional to the number of molecules
and to the temperature of the gas.
P  nT
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Saturation Vapor Pressure
What is it?
♦ This is the partial pressure of H2O when the air is
saturated.
♦ This is the maximum H2O partial pressure before
the H2O molecules condense out.
Supersaturation: P(H2O)>Ps
♦ It is an unstable condition
♦ It occurs in the absence of condensation nuclei.
Saturation Vapor
Pressure
• The saturation vapor
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pressure Ps, depends on
the temperature. It
increases with
temperature.
Ps over water is larger
than it is over an ice
surface at the same
temperature.