Weather and Atmosphere

Weather Systems and Patterns



Lessons and Activities

Real World Data

Background Information

Imagine our weather if Earth were completely motionless, had a flat dry landscape and an un-tilted axis.

This of course is not the case, if it were, the weather would be much different. The local weather that impacts our daily lives results from large global patterns in the atmosphere caused by the interactions of solar radiation, Earth's large ocean, diverse landscapes and motion in space.

Satellite image of storm
Satellite image of winter storm that impacted parts of the Southeastern United States , GOES-13 , 2014.02.10.

Global Winds

Earth’s orbit around the sun and its rotation on a tilted axis results in some parts of Earth to receive more solar radiation than others. This uneven heating produces global circulation patterns. For example, the abundance of energy reaching the equator produces hot humid air that rises high into the atmosphere. A low pressure area forms at the surface and a region of clouds forms at altitude. The air eventually stops rising and spreads north and south towards the Earth's poles. About 2000 miles from the equator, the air falls back to Earth's surface blowing towards the pole and back to the equator. Six of these large convection currents cover the Earth from pole to pole.

Air Masses

These global wind patterns drive large bodies of air called air masses. Each of these large bodies of air extends across large areas of the Earth and is thousands of feet thick. The location over which an air mass forms will determine its characteristics. For example, air over the tropical ocean becomes exceptionally hot and humid. Air over a high latitude continent may become cold and dry. You have probably noticed the temperature rapidly dropping on a nice warm day as a cold air mass pushed a warm one out the way.


The location where two air masses meet is called a front. They can be indirectly observed using current weather maps, which can be used to track them as the move across the Earth. Cold fronts, generally shown in blue, occur where a cold air mass is replacing a warm air mass. Warm fronts, shown in red, occur where warm air replaces cold air.

Jet Streams

The local weather conditions that we experience at the Earth's surface are related to these air masses and fronts. However the environment far above us impacts their movement. High in the atmosphere, narrow bands of strong wind, such as the jet streams, steer weather systems and transfer heat and moisture around the globe.

Coriolis Effect

As they travel across the Earth, air masses and global winds do not move in straight lines. Similar to a person trying to walk straight across a spinning Merry-Go-Round, winds get deflected from a straight-line path as they blow across the rotating Earth. In the Northern Hemisphere air veers to the right and in the Southern Hemisphere to the left. This motion can result in large circulating weather systems, as air blows away from or into a high or low pressure area. Hurricanes and nor'easters are examples of these cyclonic systems.

Education Connection

Students should understand that weather events that they experience do not just occur at random but are dependent upon scientific principles and processes. The clouds, temperature, precipitation, winds and storms that you and your students observe are dependent on interactions between global systems and your local conditions such as geography, latitude, moisture levels and solar energy absorption. This Collection provides real-world and real-time resources to help educators develop students' understanding of the interactions of these Earth Systems.

Introductory text compiled from resources provided by NOAA's National Weather Service

Page Last Updated 2/14/2011

High altitude weather research plane
High-tech NOAA Jet Gives Winter Storm Forecasts a Boost

February 2011 (NOAA)
The NOAA Gulf Stream jet is out here in Japan because Japan is a long way upstream of the severe weather that's going to form and cross the Pacific Ocean and eventually impact the U.S.... Read More

Satellite image of a nor'easter storm
Know the Dangers of Noreasters

January 2011 (NOAA)
A nor'easter is a cyclonic storm that moves along the east coast of North America. It's called "nor'easter" because the winds over coastal areas blow from a northeasterly direction.... Read More

Satellite image of rivers of moisture in the atmosphere
Atmospheric Rivers

February 2011 (NOAA)
Atmospheric rivers come in many shapes and sizes, those that contain the largest amounts of water vapor and the strongest winds can create extreme rainfall and floods.... Read More