Transcript Airmasses

Air masses and pressure systems
Air Masses
• Air masses take on the
characteristics of the places
where they originally formed.
• These characteristics are
primarily restricted to wet/dry
and hot/cold.
Continental (land) air masses
may form over……..
The polar regions in
which case they are
known as “Continental
Polar - cP” and are dry
and cold…..
or the tropics in which case
they are dry and hot and
are referred to as
“Continental Tropical cT”.
cP
cP
cT
Maritime (ocean) air masses
may form over...
• Polar regions in
which case they are
cold and wet
(Maritime Polar mP)
• or in the tropics in
which case they are
warm and wet
(Maritime Tropical mT).
mP
mT
Maritime
Polar
Continental
Polar
Maritime
Polar
Continental
Polar
Continental
Maritime
Tropical
Tropical
Maritime
Tropical
Pressure Centers
Air pressure..
• Is most simply thought of as the weight of
the overlying column of air.
• This weight or pressure is affected by
factors such as temperature and humidity.
• Cold temperatures lead to low kinetic
energy and closely packed molecules (more
dense = high pressure)
• Warm temperatures lead to high kinetic
energy and widely spaced molecules (less
dense = low pressure)
Air pressure (continued…)
• Since water vapor is a
very light weight gas,
air that has a lot of
water vapor in it (high
humidity) is less dense
and lighter than dry
air.
• Dry air = higher
pressure
• Wet air = lower
pressure
High and Low Pressure Centers
Wind patterns around “Highs and Lows” bring about
different weather.
H
L
High pressure….
• Results as cold air
descends from above,
reaches the ground
and spirals outward in
a clockwise direction.
• High pressure
generally brings cool
dry conditions we
refer to as “Fair
skies”.
Low Pressure
• Results from cool air
from a neighboring
“High” circulating
along the ground and
pushing warmer moist
air spiraling upward in
a counter-clockwise
direction.
• “Lows” generally
bring cloudy warm
weather.
Note how the winds blow from
the “High” into the “Low”.
H
L
The instrument
used to measure air
pressure is called a
“barometer”. The
instrument seen
here is a “Mercury
barometer”. Air
pushing down on a
dish of mercury
forces the liquid
metal up into the
hollow glass tube.
The level to which
the mercury rises
in the tube (in
inches) indicates
how heavy the air
is, or how much air
pressure there is .
“Normal” air
pressure will
support a column
of mercury 29.92
inches high.
Lines
connecting
points of equal
barometric
pressure are
often seen on
weather maps
and are called
“Isobars”
When isobars
are closely
spaced, a rapid
change in air
pressure and a
corresponding
increase in wind
speed is
indicated.
Fronts
Fronts are the result….
• of two air masses of different
characteristics coming into contact with
one another.
• The two air masses will not readily mix
and a boundary forms between the two.
• This boundary is called a front.
• The type of front which develops and the
weather associated with the passage of
this front depends on the types of air
masses involved.
Cold Front
As heavy cold air moves into warm air, it forces the warm air
to rise rapidly causing short periods of heavy thunderstorms.
Simplified diagram of a cold
front.
Warm Front
As warm air moves into heavier cold air, it slowly creeps up and
over the colder air. As the warm air rises, long periods of gentle rain
develop
Occluded
Front
These fronts
develop
when a
cold front
overtakes
a warm
front. The
associated
weather is
therefore a
combination
of long
gentle rain
and heavier
periods of
thunderstorms.