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El Niño and La Niña are periodic weather patterns resulting from interactions between the ocean and the atmosphere in the Pacific Ocean. Ocean temperatures indicate the presence of El Niño and La Niña, which sometimes lead to extreme weather in many parts of the United States. NOAA climatologists closely track the development of these oscillating systems, which typically last between one to two years. With so much at stake, it’s critical to be able to monitor and forecast when El Niño or La Niña is developing so governments, businesses, and private citizens can prepare.
(Source: DCMP)
The Magic School Bus is an award winning animated children’s television series based on the book series of the same title by Joanna Cole and Bruce Degen. It is notable for its use of celebrity talent and being both highly entertaining and educational. Ms. Frizzle transforms the bus into a weather mobile, so Ralphie can become the meteorological superhero of his dreams. This leads the class on the field trip to make a thunderstorm.
Presents the relationships between climates and biomes and climates and people. Also, describes the six major climate types, and shows how weather extremes play a major role in each climate type.
Learn about the difference between weather and climate. Students investigate how glaciers are formed and where they are located. Part of the "Ice Cores: Unlocking Past Climates" series.
Part of a series that features a wide variety of video footage, photographs, diagrams and colorful, animated graphics and labels. For this particular video, students will focus on the weather conditions needed to spawn tornados. Part of the Science Video Vocab Series.
How is meteorological information interpreted? A team takes a close up look at the methods, devices, and equipment used to generate, transmit, and process the information for the weather forecast. Part of Invisible Science and Technology Surrounding Series.
Often hard-to-understand concepts of air, gases, air pressure, and layers of the atmosphere are plainly explained in this video. Concepts and terminology: oxygen, nitrogen, layers, weather, jet stream, and northern lights.
Host Trace Dominguez discusses the current trends in the number of hurricanes and their strength. He examines weather data collected since 1880 coupled with new models created by NASA. According to the data and weather models, hurricanes are becoming more intense.
The inventions of the 1960s were all about transforming science fiction into fact. Robots, satellites and a trip to the moon help make what was once only fantasy, become a reality. Featured inventions include: the Lunar Lander, weather satellites, video game consoles, Tasers, and industrial robots.
Hurricanes are nature's engines of death and destruction, the costliest natural disaster on earth. Explains how and where hurricanes formed; uses live footage to show the forces of wind, weather, and storm surge, and the damage they can do. Compares current information with historical knowledge and notes how forecasting has greatly improved. Explores how meteorologists work to understand and predict these brutal storms.
For seven days in the Fall of 2012, Hurricane Sandy pounded the Caribbean and the East Coast of the United States with punishing rain, wind, and waves. What happened in the atmosphere that caused this monstrous storm to form? Summer and winter weather conditions collided with extreme forces to form a super storm. Part of the "Danger Zone" series.
Offers a look at what kind of information satellites provide about our world. Satellite imagery has multiple uses: showing crops and pests, monitoring weather in all its forms, following forest fires and air pollutants, and more. Imagery notes climate changes, the ozone layer, and temperature of many things--all designed to predict and protect. These sensors present unusual windows to our world.
Shows how gravity affects erosion. Documents how scientists study erosion and weathering. Highlights the California landslide problem. Surveys the destruction caused by fast erosion. Explains why deforestation and building houses and other structures contribute to erosion.
Meteorologists studying clouds in Europe are learning about the microphysical processes that occur naturally in clouds. This knowledge helps researchers gain new fundamental knowledge that can help improve weather and climate forecast models. Students will discover how scientists study cloud formation by generating artificial clouds in a laboratory. Scientists research how clouds originate and how they react to surrounding natural elements. They will reveal how microwave radiometers, lasers, and satellites are used in researching cloud development.
Coastlines face numerous threats. Hurricanes, tsunamis, and sea level rise are a few of the dangers that keep coastal communities on edge. With over half of the U.S. population living near the coast, it’s critical to collect and share accurate information on the environment during extreme weather events, and NOAA is leading these efforts. Part of the "Danger Zone" series.
Heat waves, cold waves, droughts and floods are all examples of extreme climatic events. These weather extremes are due in part to climatic change and cause society to ask numerous questions related to their impact on human life. How are these extreme events produced? What effects do they have? And how will a new climatic map on a global level affect humans? Chapter 12 of Air: Climate Change Series.
A new generation of smaller, highly capable radar systems in the Dallas/Fort Worth area is able to track with more accuracy the location of tornadoes and other severe weather conditions. These new systems are spaced much closer together than current radar sensors, and the closer proximity is part of the reason the new systems can catch a tornado that could be missed by current radar. Part of the National Science Foundation Series “Science Nation.”
Great weather, abundant harvests, fabulous food, some of the world's most cosmopolitan and romantic cities are all attributes associated with Mediterranean climates. However, these regions are also critical biodiversity hotspots. This episode offers an overview of the world's Mediterranean-climate zones, pointing out their similarities, unique characteristics and importance, while also illuminating the factors that threaten them. Part of the "Mediterranean-Climate Ecosystems" series.
In this episode, groups of citizen scientists use mobile technology to help save lives. Volunteers across North America measure precipitation, and their data is used by emergency managers to issue warnings during extreme weather conditions. In India, a phone app helps officials alert communities about killer heat waves. Citizen scientists also help collect data about Alzheimer's disease. They hope their data will aid the research process and lead to a cure. Part of "The Crowd and the Cloud" series.
NOAA's environmental satellites provide data from space to monitor Earth to analyze coastal waters, relay life-saving emergency beacons, and predict and track tropical storms and hurricanes. NOAA operates three types of satellite systems for the United States: polar-orbiting satellites, geostationary satellites, and deep space satellites. Polar-orbiting satellites circle Earth and provide global information from 540 miles above Earth. Geostationary satellites constantly monitor the Western Hemisphere from around 22,240 miles above Earth. The deep space satellites orbit one million miles from Earth, providing space weather alerts and forecasts while also monitoring the amounts of solar energy absorbed by Earth every day.