6.6 The student will investigate and understand the properties of air and the structure and dynamics of Earth’s atmosphere. Key concepts include
air as a mixture of gaseous elements and compounds
pressure, temperature, and humidity
atmospheric changes with altitude
natural and human-caused changes to the atmosphere and the importance of protecting and maintaining air quality
the relationship of atmospheric measures and weather conditions
basic information from weather maps, including fronts, systems, and basic measurements
Air is a mixture of gaseous elements and compounds. These include
nitrogen, oxygen, water, argon and carbon dioxide. Nitrogen makes up
the largest proportion of air.
Air exerts pressure. Air pressure decreases as altitude increases.
Moisture in the air is called humidity.
The atmosphere is made up of layers (troposphere, stratosphere,
mesosphere, and thermosphere) that have distinct characteristics.
Temperature decreases as altitude increases in the lowest layer of the
atmosphere
Most of the air that makes up the atmosphere is found in the troposphere
(the lowest layer). Virtually all weather takes place there.
Forest fires and volcanic eruptions are two natural processes that affect
Earth’s atmosphere. Many gaseous compounds and particles are
released into the atmosphere by human activity. All of the effects of
these materials are not yet fully understood.
The amounts of thermal energy and water vapor in the air and the
pressure of the air largely determine what the weather conditions are.
Clouds are important indicators of atmospheric conditions. Clouds are
found at various levels within the troposphere. Three major types of
clouds are cumulus, stratus, and cirrus.
Ozone, a form of oxygen, can form near the surface when exhaust
pollutants react with sunlight. This pollutant can cause health problems.
Naturally occurring ozone is also found in the upper atmosphere and
helps to shield Earth from ultraviolet radiation.
Maintaining good air quality is a crucial goal for modern society, and it
is everyone’s responsibility to work toward it.
Weather maps show much useful information about descriptive air
measurements, observations, and boundaries between air masses
(fronts). The curved lines showing areas of equal air pressure and
temperature are key features of weather maps. Weather maps are
important for understanding and predicting the weather.
comprehend and apply basic terminology related to air and the
atmosphere.
identify the composition and physical characteristics of the
atmosphere.
analyze and interpret charts and graphs of the atmosphere in terms of
temperature and pressure.
measure and record air temperature, air pressure, and humidity, using
appropriate units of measurement and tools.
analyze and explain some of the effects that natural events and human
activities may have on weather, atmosphere, and climate.
evaluate their own roles in protecting air quality.
design an investigation to relate temperature, barometric pressure, and
humidity to changing weather conditions.
compare and contrast cloud types and relate cloud types to weather
conditions.
compare and contrast types of precipitation.
compare and contrast weather-related phenomena, including
thunderstorms, tornadoes, hurricanes, and drought.
interpret basic weather maps and make forecasts based on the
information presented.
map the movement of cold and warm fronts and interpret their effects
on observable weather conditions.