Transcript Slide 1

Climate Change 1020
Lecture Oct 16, 2006
Lis Cohen
Today’s Lecture
• Weather
– What makes weather?
• Is energy from the sun evenly distributed?
– Sun heating the earth
– Deficits and Excess
• How does this energy move to create less of a
gradient (difference over space)?
– One cell vs. Three cell model
– Pressure Gradient Force, Coriolis, Friction
• What moves the energy?
– Mid latitude storms
What makes weather?
• Unequal heating of the Earth!!!
– This unequal energy is moved and distributed
to other places on Earth.
Although, Energy in = Energy out,
the distribution of energy with latitude is uneven.
Tropics have a surplus of energy and the
poles a deficit. A net poleward transport of
energy is therefore required.
ENERGY
http://teacherresourceexchange.org/science/coriolis/index.php
http://teacherresourceexchange.org/science/coriolis/index.php
Our atmosphere is a three cell model.
These three cells transport energy to the poles.
http://teacherresourceexchange.org/science/coriolis/index.php
Other planets show evidence of multiple cell atmospheres…
How does the energy (heat)
move from equator to the poles?
Vertical winds and
horizontal winds
transport the energy!
Winds Patterns
Balance of 3 forces
1. The pressure gradient force causes wind
to blow from high pressure toward low
pressure.
2. The coriolis force causes wind to be
deflected to the right of the motion in the
northern hemisphere.
3. Friction which slows the wind.
Pressure Gradient Force
http://ww2010.atmos.uiuc.edu/(Gh)/guides/mtr/fw/pgf.rxml
If the earth was not spinning,
air would move directly from high
to low pressure areas.
http://teacherresourceexchange.org/science/coriolis/index.php
Winds Patterns are a
balance of 3 forces
1. The pressure gradient force causes wind
to blow from high pressure toward low
pressure.
2. The coriolis force causes wind to be
deflected to the right of the motion in the
northern hemisphere.
3. Friction which slows the wind.
Coriolis Effect
Coriolis Videos
• Video 1 of the Coriolis Effect
Coriolis
(Northern Hemisphere- air moves to the right of
the initial motion)
Direction of initial motion
Coriolis
(Northern Hemisphere- air moves to the right of
the initial motion)
• Highs – clockwise rotation
• Lows – counterclockwise rotation
(cyclonic)
• Northern Hemisphere Surface map
• Northern Hemisphere Satellite map
• Northern Hemisphere Wind map
Coriolis
(Southern Hemisphere - Air moves to the left of the
initial motion)
Direction of initial motion
Coriolis
(Southern Hemisphere - Air moves to the left of the
initial motion)
• Highs- counterclockwise rotation
• Lows- clockwise rotation
• Southern Hemisphere Satellite
• Southern Hemisphere Winds
• Southern Hemisphere Pressure
Coriolis
(earth turns underneath the slower wind)
Direction of initial motion
Coriolis Effect
http://teacherresourceexchange.org/science/coriolis/index.php
Winds Patterns are a
balance of 3 forces
1. The pressure gradient force causes wind
to blow from high pressure toward low
pressure.
2. The coriolis force causes wind to be
deflected to the right of the motion in the
northern hemisphere.
3. Friction which slows the wind.
Pressure Gradient and Coriolis
H
L
Initial
Motion
Pressure Gradient and Coriolis
and Friction
H
L
Initial
Motion
Pressure Gradient and Coriolis
and Friction
H
L
New Motion
The poleward transport of energy occurs in the fronts
and low pressure systems of the middle latitudes.
Warm Fronts
COLD
AIR
COLD
AIR
Transport warm air and water vapor
(energetic water) from the equator, to the
poles.
Warm Fronts
COLDER
AIR
WARM
AIR
Cold Fronts
COLD
AIR
Cold fronts usually
transport colder
and drier air
(less energetic air)
towards the
equator.
WARM
AIR
Energy Emitted by the Earth
Most is absorbed by atmosphere
Atmospheric Window:
Important to the
energy balance of the
planet. A body at 288
K (Earth) temperature
emits most of its
energy in this
wavelength region.
IR satellites use
this window to
see the
temperature of
the cloud tops.
Meteo 1020 Lecture 3
Weather and Climate
Satellite images in this
band are from
reflected sunlight
This figure shows the
transparency of various
wavelength bands importan
to absorption of energy in
the earth’s atmosphere
Atmospheric Window Wavelength region of infrared
satellite images- responds to the
temperature of the cloud tops.
The atmospheric window is also important to the
energy balance of the planet. A body at 288 K
temperature (the earth’s average surface
temperature) emits most of its energy in this
wavelength region.