Atmosphere Characteristics
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Transcript Atmosphere Characteristics
Warm Up 3/4/08
1. True or False: The seasons are caused by
changes in Earth’s distance from the sun.
False
2. Does land or water heat more rapidly?
Land heats more rapidly
3. If you move from sea level to a location in
the mountains, how will the temperature
change?
It will get colder
Atmosphere Characteristics
Chapter 17, Section 1
Weather
No other planet in our solar system has an
atmosphere with the exact mixture of gases or the
moisture conditions and heat needed to sustain life as
we know it
Weather is constantly changing, and it refers to the
state of the atmosphere at any given time and place
Climate is based on observations of weather that have
been collected over many years
Climate helps describe a place or region
The most important measurable properties of weather
and climate are air temperature, humidity, type and
amount of precipitation, air pressure, and the speed
and direction of wind
Weather
Concept Check
How does weather differ from climate?
Weather changes constantly, but climate is
based on patterns of weather that have
been observed over years. Climate helps
describe a place or region.
Composition of the Atmosphere –
Major Components
The composition of the atmosphere has
changed dramatically over Earth’s nearly 4.6
billion year history
The atmosphere is thought to have started
from gases that were emitted during
volcanic eruptions
Air is a mixture of different gases and
particles, each with its own physical
properties
Two gases—nitrogen and oxygen—make up
99% of the volume of clean, dry air
Gases Composing Clean, Dry Air
Composition of the Atmosphere – Variable Components
Important materials that vary in the air from time to
time and place to place include water vapor, dust
particles, and ozone
Water vapor is the source of all clouds and
precipitation.
Movements of the atmosphere allow a large quantity
of solid and liquid particles to be suspended within it
Ozone – a form of oxygen which combines three
oxygen atoms into each molecule (O3)
We breath oxygen which has two atoms per molecule
(O2)
Ozone is concentrated 10 to 50 kilometers above
Earth’s surface
If ozone did not filter most UV radiation and all of the
sun’s UV rays reached the surface of Earth, our planet
would be uninhabitable for many living organisms
Composition of the Atmosphere –
Human Influence
Air pollutants are airborne particles and gases that
occur in concentrations large enough to endanger
the health of organisms
Primary pollutants, are emitted from identifiable
sources
Secondary pollutants are not emitted directly into
the air, they form in the air when reactions take
place among primary pollutants and other
substances
Reactions triggered by strong sunlight are called
photochemical reactions
Primary Pollutants
What They Are
Sulfur
Oxides
16%
Particulates
Volatile
Organics
14%Nitrogen
Oxides
15%
6%
Carbon
Monoxide
49%
Where They Come From
Solid
Industrial Waste
Processes Disposal
3%
15%
Stationary
Source
Fuel
Combusti
on
27%
Misc.
9%
Transporta
tion
46%
Concept Check
What are secondary pollutants?
Secondary pollutants are pollutants that
form when reactions take place among
primary pollutants and other substances.
Height and Structure of the
Atmosphere
The atmosphere thins as you travel away from
Earth until there are too few gas molecules to
detect
Atmospheric Pressure – weight of the air above
(~1000 millibars at sea level)
The higher you go in the atmosphere, the less air
pressure there will be
The atmosphere can be divided vertically into four
layers based on temperature (troposphere,
stratosphere, mesosphere, and thermosphere)
Atmospheric
Pressure
Variation with
Altitude
Layers of the Atmosphere
Troposphere – bottom layer of atmosphere,
temperature decreases with an increase in altitude
(~0-12 kilometers)
This layer essentially has all the weather phenomenon
Stratosphere – temperatures gradually increase due
to concentration of ozone (~12-50 km)
Mesosphere – temperatures again decrease with
altitude, going as low as -90ºC (~50-80 km)
Thermosphere – no well defined boundary,
temperatures increase, due to short-wave solar
radiation being absorbed
Thermal Structure of the Atmosphere
Earth-Sun Relationships
Solar energy is not evenly distributed over
Earth’s surface, but varies with latitude, time
of day, and season of the year
It is this unequal distribution of heat which
creates winds and drives the ocean’s
currents
Seasonal changes occur because Earth’s
axial position relative to the sun continually
changes as it travels along its orbit
If the axis were not tilted, we would not have
seasonal changes
Summer and Winter Solstice occur when
Earth’s tilt is pointed away from the sun
The Autumnal and Spring Equinoxes occur
when the sun’s vertical rays strike the
equator (Earth not tilted towards or away
from the sun)
The length of daylight compared to darkness
also is determined by Earth’s position in
orbit
Sun Rays Striking Earth
Earth-Sun Relationships
Solstices and Equinoxes
Concept Check
In which direction does Earth’s axis point?
Earth’s axis points toward the North Star.
Assignment
Read Chapter 17 (pg. 476-493)
Do Chapter 17 Assessment #1-30 (pg. 499500)
Print out “Investigation 17A – Determining
How Temperature Changes with Altitude”
Cool Down
1. Why do seasonal changes occur?
Seasonal changes occur because Earth’s axis is
tilted. Earth’s orientation to the sun continuously
changes as it travels along its orbit.
2. Explain what would happen to air temperatures
in the troposphere if carbon dioxide were
removed from air.
Because carbon dioxide absorbs heat from Earth
efficiently, air temperatures would decrease if it
were removed from the troposphere.
3. What is one new thing you learned today?
Explain.