The Atmosphere and the Weather
The Atmosphere
The Earth's atmosphere is a relatively thin
layer of gases that surounds the planet. The atmosphere is retained
by Earth's gravity. The mixture of gases that is found on Earth today
is commonly called air. Beside gases,
the atmosphere also contains very minute quantities of
microscopically small suspended
particles of solid and liquid (called aerosols), which includes things like dust, pollen, and
cloud droplets. Gases are composed of individual molecules that are not
chemically bonded together. The gas molecules and suspended aerosols are
very tiny and have very little mass. Thus, they have very little weight on
Earth compared with the solid and liquid substances that compose the Earth's
ground surface. In essence, the larger and heavier solids and liquids sink to the bottom, and
the gasses (the atmosphere) floats to the top and becomes the outer layer surrounding
the Earth. Not all planets have atmospheres of gas surrounding them; yet many other planets
have much more massive atmospheres than the Earth. Living on the surface of the
Earth (at the bottom of the atmospere), we have become so adapted to our particular
atmosphere that we cannot survive more than a few minutes without it. Just as fish
need to be surrounded in an environment of water to survive, we must be surrounded in an
environment of air. And anywhere we go, e.g., under water, outer space, etc., we
must have air with us.
Meteorology is the study of the atmosphere
and the processes (such as cloud formation, lightning, and the
movement of the wind) that cause what we refer to as the
"weather". Most of the world's weather systems and their related features,
including clouds and rain, develop in the lowest layer of the atmosphere,
called the troposphere. Such weather systems, or patterns of air movement,
develop as a result of the flow of heat from warmer regions of the Earth near the equator
to colder regions nearer the poles. The air, and the heat it carries however,
does not flow in a straight line, because of the Earth's rotation. As a consequence,
the air flow is deflected, forming the swirling patterns of air circulation we observe
on Earth.
If the earth were the size of a basketball,
its atmosphere would be thinner than
a piece of paper. The atmosphere does not have an abrupt, absolutely definable
top. It is most dense at the Earth's solid surface and becomes thinner
and thinner as one moves upward, eventually fading into outer space. For
humans, the habitable atmosphere (where the air is dense enough to breathe)
extends only to about 20,000 ft (~4 miles) above sea level.
Despite its relative thinness, our existance is
completely dependent upon the atmosphere. Essential functions
of the atmosphere include:
- Allows breathing, we cannot live without sufficient oxygen
- Acts as a shield, protecting the surface from harmful ultraviolet (uv)
radiation and other high energy particles from the Sun and space, and
even meteors on a collision course with the Earth.
- The atmosphere transports heat and moisture creating more uniform conditions
around the globe than if there were no atmosphere. Without the atmosphere,
very much larger extremes in
temperature would exist between the Equatorial and Polar regions than are observed.
Without the
atmosphere, much larger extremes in temperature would occur between day and night.
The atmosphere transports water (in the form of water vapor) from oceans to land. This
is essential for life on land to exist.
- The atmosphere keeps the average surface temperature of the Earth much warmer than
if there were no atmosphere through the Greenhouse effect. With no atmosphere, the
average surface temperature of the Earth would be about 0 degrees Fahrenheit. The presence
of the atmosphere keeps the average surface temperature at 59 degrees Fahrenheit.
The atmosphere also influences our existance in several non-life essential ways:
- Propagation of sound. Sound does not travel through empty space (e.g., outer space)
- Provides visual sights such as blue skies, clouds, rainbows, and colorful sunsets
- Sense of smell is also influenced by the atmosphere
The material that makes up the atmosphere is mostly in the form of a gas. A gas is one
of three basic forms of matter.
- Gas - substance in which individual molecules are not chemically bonded together.
Even though many gases are not visible, it does not mean there is nothing there. Gases
are composed of the same molecules that make up liquids and solids. Water vapor is an
example of a type of gas.
We will use the kinetic model concept to help us to understand and visualize how gases
behave. In the kinetic model,
the individual molecules that make up a gas are treated like
tiny spheres, all moving in random directions. As in the atmosphere of Earth,
the gas molecules (spheres) are quite small compared to the average distance
between molecules (spheres). The spheres
collide with each other and any solid or liquid that happens
to be in the way, but they remain separate, i.e., they do
not stick together. More on the kinetic model for gases will follow shortly.
- Liquid - substance in which individual molecules are chemically bonded together, but
the bonds are continuously breaking and reforming, so the substance flows. Liquid water
is an example of a liquid.
- Solid - substance in which individual molecules are tightly bonded togther in an
orderly fashion. Bonds are difficult to break and the substance does not flow. Ice is
an example of a solid.
The atmosphere also contains trace amounts of tiny liquid or solid particles called aerosols
that are suspended above the surface of the Earth. Examples of aerosols are dust, smoke, cloud
droplets, and pollen. Most aerosols are much too small to see individually. However, when concentrations
of aerosols are high, such as the microscopic liquid droplets that make up clouds, they can be seen.