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Weather News

Recent Videos

Atlantic Basin Satellite Loop

This image shows the current satellite image for the Atlantic. This image is taken in the infrared band of light and show relative warmth of objects. Colder objects are brighter and warmer objects are darker. Lower layers of clouds, generally warmer and lower in altitude, are colored gray. Colder and generally higher clouds tops are highlighted in colors. Satellite imagery is useful for determining cloud features both at day and night.

United States Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

Southeast Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

Northeast Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

North Florida Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

South Florida Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

Virginia Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

South Carolina Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

Georgia Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

New York Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

New Hampshire Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

Connecticut Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

Pennsylvania Radar Loop

This map shows the current radar. Radar is used to locate precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Weather radars are capable of detecting the motion in addition to the intensity of the precipitation. Both types of data can be analyzed to determine the structure of storms and their potential to cause severe weather.

National Hurricane Center Atlantic Basin Outlook

This product is updated at approximately 2 AM, 8 AM, 2 PM, and 8 PM EDT from June 1 to November 30, with special outlooks issued at any time as conditions warrant. The graphic displays all currently active tropical cyclones, and disturbances with tropical cyclone formation potential over the next 48 hours.

National Hurricane Center Two-Day Atlantic Basin Outlook

This product is updated at approximately 2 AM, 8 AM, 2 PM, and 8 PM EDT from June 1 to November 30, with special outlooks issued at any time as conditions warrant. The graphic displays all currently active tropical cyclones, and disturbances with tropical cyclone formation potential over the next 48 hours.

National Hurricane Center Five-Day Atlantic Basin Outlook

This product is updated at approximately 2 AM, 8 AM, 2 PM, and 8 PM EDT from June 1 to November 30, with special outlooks issued at any time as conditions warrant. The graphic describes potential new tropical cyclone formation only; currently active cyclones are not shown.

Atlantic Basin Sea Surface Temperatures

Sea surface temperature is the temperature of the top millimeter of the ocean’s surface. Warm ocean water in the main developmental region supports lower surface pressure. Lower pressure promotes tropical cyclone development and intensification.

Atlantic Basin Sea Surface Temperature Anomalies

Sea surface temperature is the temperature of the top millimeter of the ocean’s surface. An anomaly is a departure from average conditions. Warmer than average water temperature supports lower pressure, which favors tropical development.

Atlantic Basin Sea Surface Wind Speed and Direction

This image shows current Atlantic Basin sea surface wind speed and direction. Increased wind shear limits tropical storm development while weaker shear creates an environment more favorable for tropical development.

Atlantic Basin Sea Wave Height and Direction

View current Atlantic Basin wave height and direction.

Atlantic Basin Surface Analysis

This map shows the current radar, frontal boundaries, current tropical systems, and areas of high and low pressure for the United States. Cold fronts are depicted in blue, warm fronts in red, and stationary fronts in alternating blue and red. Occluded fronts are depicted in purple.

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