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Chapter 18: Moisture, Clouds,
and Precipitation
Overview
Water in the Atmosphere
• Precipitation – any form of water that falls from a cloud
• When it comes to understanding atmospheric processes,
water vapor is the most important gas in the atmosphere
Water’s Change of State: Solid to Liquid
• The process of changing state requires that energy is
transferred in the form of heat
• Latent Heat – does not produce a temperature change;
stored energy
Water’s Change of State: Liquid to Gas
• Evaporation – the process
of changing a liquid to a gas
• “evaporation is a cooling
process” means that it
takes incredible energy to
evaporate water, usually it
comes from whatever
object it is evaporating
from (i.e. you!)
• Condensation – the
process where water vapor
changes to the liquid state
• For condensation to occur,
water molecules must
release their stored heat
energy
Water’s Change of State: Solid to Gas
• Sublimation – the
conversion of a solid
directly to a gas, without
passing through the
liquid state
• Deposition – the
conversion of a vapor
directly to a solid
Changes of State
Saturation
• Saturated – the number of vapor molecules returning
to the surface of a body of water equals the amount
leaving
• When saturated, warm air contains more water vapor
than saturated cold air
Relative Humidity
• Relative Humidity – ratio of the air’s actual water-vapor
content compared with the amount of water vapor air
can hold at that temperature and pressure
• Relative humidity can be changed by adding or removing
water vapor from the air
Dew Point
• Dew Point – the
temperature to which a
parcel of air would need
to be cooled to reach
saturation
• High dew-point
temperatures indicate
moist air, and low dewpoint temperatures
indicate dry air
Measuring Humidity
• Hygrometer – device to
measure relative
humidity
• One type of
hygrometer, the
psychrometer, consists
of two identical
thermometers mounted
side to side
Air Compression and Expansion
• Temperature changes that
happen even though heat
isn’t added or subtracted are
called adiabatic temperature
changes
• When air is allowed to
expand, it cools, and when it
is compressed, it warms
• Dry Adiabatic Rate – the rate
of adiabatic warming or
cooling in unsaturated air
(1ºC/100 m)
• Wet Adiabatic Rate – the rate
of adiabatic temperature
change in saturated air; it is
always less than the dry
adiabatic rate
Orographic Lifting
• Four mechanisms that can cause air to rise are
orographic lifting, frontal wedging, convergence, and
localized convective lifting
• Orographic Lifting – mountains acting as barriers to the
flow of air, forcing the air to ascend
Frontal Wedging
• Front – the boundary between two adjoining air masses
having contrasting characteristics
• The cooler denser air acts as a barrier over which the
warmer, less dense air rises
Convergence
• Whenever air in the lower atmosphere flows together,
lifting results, this is called convergence
• This leads to adiabatic cooling and possibly cloud
formation
Localized Convective Lifting
• On warm summer days, unequal heating of Earth’s
surface may cause pockets of air (thermals) to be
warmed more than the surrounding air rising into the
atmosphere
• The process that produces rising thermals is localized
convective lifting
Stability
• Stable air is any air which resists vertical movement
due to density differences
• Stable air tends to remain in its original position, while
unstable air tends to rise
• Air stability is determined by measuring the
temperature of the atmosphere at various heights
• The rate of change of air temperature with height is
called the environmental lapse rate
• Temperature Inversion – a layer where the
temperature increases with height; the most stable
conditions for air
• Clouds associated with the lifting of unstable air are
towering and often generate thunderstorms and
tornados
Condensation
• For any of the forms of
condensation to occur,
the air must be saturated
• Generally, there must be
a surface for water vapor
to condense on
• Condensation Nuclei –
tiny bits of particulate
matter that serve as
surfaces on which water
vapor condenses
Types of Clouds (2)
• Clouds are classified on the basis of their
form and height
• Cirrus clouds are high, white, and thin
• Cumulus clouds consist of rounded
individual cloud masses, they normally
have a flat base and the appearance of
rising domes or towers
• Stratus clouds are sheets or layers that
cover much or all of the sky
• There are three levels of cloud heights:
high, middle, and low
• Three cloud types make up the family of high clouds
(above 6000 meters): cirrus, cirrostratus, and
cirrocumulus
• All high clouds are thin and white and are often made
up of ice crystals
• Clouds that appear in the middle range (~2000-6000
m) have the prefix alto• Middle clouds may cause infrequent light snow and
drizzle
• There are three members in the family of low clouds
(below 2000 m): stratus, stratocumulus, and
nimbostratus
• Nimbostratus clouds are the main precipitation makers
• Vertical development clouds have their bases in the
low height range, but extend through the middle or
high altitudes
• Cumulonimbus may produce rain showers or
thunderstorms
Fog
• Fog is defined as a cloud with its base at or very near
the ground
How Precipitation Forms (2)
• For precipitation to form,
cloud droplets must
grow in volume by
roughly one million
times
• Bergeron Process – a
theory that relates to the
formation of
precipitation to
supercooled clouds,
freezing nuclei, and the
different saturation
levels of ice and liquid
water
• Collision-Coalescence Process – a theory of raindrop
formation in warm clouds (above 0ºC) in which large cloud
droplets collide and join together with smaller droplets to
form a raindrop
Forms of Precipitation
• The type of precipitation that reaches Earth’s
surface depends on the temperature profile in
the lowest few kilometers of the atmosphere
• Temperature profile is the way the air changes
with altitude
• Rain means drops of water that fall from a cloud
and have a diameter of at least 0.5 mm
• At very low temperatures light, fluffy snow made
up of six-sided ice crystals forms
• Sleet, glaze, and hail are all formed from water
becoming supercooled on its trip down to the
surface
Assignment
• Read Chapter 18 (pg. 504 – 522)
• Do Chapter 18 Assessment #1-30 (pg. 527528), # 1-5 pg 529