Oceans and Coasts

Hurricanes

Resources

Multimedia

Lessons and Activities

Real World Data

Background Information

Career Profiles

The term “hurricane” has its origin in the religions of past civilizations. The Mayan storm god was named Hunraken and a god considered evil by the Taino people of the Caribbean was called Huracan. Hurricanes may not be considered evil but they are one of nature's most powerful storms. Their potential for loss of life and destruction of property is tremendous.

Hurricane Sandy makes landfall
A GOES East image of Hurricane Sandy as she approaches the East Coast on October 29, 2012. (Photo Credit: NOAA)

Hurricanes are only one type of tropical cyclone. Tropical cyclones are warm-core, low pressure systems without any "front" attached, that develop over the tropical or subtropical waters, and have an organized circulation. Depending upon location, tropical cyclones have different names around the world. In the:

  • Atlantic & Eastern Pacific Oceans they are called Hurricanes.
  • Western Pacific they are called Typhoons.
  • Indian Ocean they are called Cyclones.

Regardless of what they are called, tropical cyclones are powered by heat from the sea. They are products of a warm tropical ocean and a warm, moist atmosphere. Hurricanes are typically steered by easterly winds, generally south of 25° North latitude and by high-level westerly winds north of 25° North latitude. There are several favorable environmental conditions that must be in place before a tropical cyclone can form. They are:

  • Warm ocean waters (at least 80°F / 27°C) throughout a depth of about 150 ft. (46 m).
  • An atmosphere which cools fast enough with height such that it is potentially unstable to moist convection.
  • Relatively moist air near the mid-level of the troposphere (16,000 ft. / 4,900 m).
  • Generally a minimum distance of at least 300 miles (480 km) from the equator.
  • A pre-existing near-surface disturbance.
  • Low values (less than about 23 mph / 37 kph) of vertical wind shear between the surface and the upper troposphere. Vertical wind shear is the change in wind speed with height.

Storm Surge

Although hurricanes are well known for their strong and destructive winds, a hurricane’s storm surge is by far the greatest threat to life and property along the immediate coast. Storm surge is simply water that is pushed toward the shore by the force of the winds swirling around the storm. This advancing surge combines with the normal tides to create the hurricane storm tide, which can increase the mean water level 15 feet or more. In addition, wind driven waves are superimposed on the storm tide. This rise in water level can cause severe flooding in coastal areas, particularly when the storm tide coincides with the normal high tides. Because much of the United States' densely populated Atlantic and Gulf Coast coastlines lie less than 10 feet above mean sea level, the danger from storm tides is tremendous.

Education Connection
As the climate changes and the strength and paths of hurricanes also change, it is increasingly important for students to understand hurricanes. This collection provides educators and students with resources to explore how hurricanes form, their potential effects to humans and ecosystems, ways to prepare for hurricanes, and even a citizen science project to classify hurricanes from satellite imagery.

Adapted from NOAA Jetstream, Storm Surge and Hurricanes… Unleashing Natures Fury

Page last updated: 3/19/2013

Features
Images Before and After Hurricane Sandy
Aerial Photos of Hurricane Sandy Damage

November 7, 2012 (NOAA)
Emergency responders and members of the public can now get a birds-eye view of some of the destruction caused by Hurricane Sandy. Photographs were taken by teams of NOAA aviators flying above the disaster area at 5,000 feet aboard NOAA's King Air and NOAA's Twin Otter aircraft-planes equipped with specialized remote-sensing cameras... Read More

Hurricane Sandy forecast image
Polar-Orbiting Satellite Pinpoints Sandy's Track

December 11, 2012 (NOAA)
According to a new study by the European Centre for Medium-Range Weather Forecasts (ECMWF), the NOAA forecasts of Hurricane Sandy's track could have been hundreds of miles off without information from polar-orbiting satellites. Rather than identifying the New Jersey landfall location within 30 miles five-days before landfall, the models would have shown Sandy remaining at sea... Read More

NOAA Hurrican Hunter aircraft
Destination: The Storm's Eye

August 8, 2012 (NOAA)
Despite the dangers, NOAA's Hurricane Hunters are ready to take on tropical cyclones. These highly trained men and women fly directly into storms in sensor-packed planes to gather data forecasters need to monitor hurricanes and predict their path. Even though hurricane season is only six months long, it takes year-round preparation... Read More