Featured Resources

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NOAA Climate Stewards Webinar Series
March 6, 2017

NOAA's Climate Stewards Education Project is pleased to welcome Yvonne Thomas and Rebecca Clark Uchenna from the Island Institute as our featured speakers this month....

5th Course Implementation Workshop
March 15, 2017

The AMS, in cooperation with the National Aeronautics and Space Administration (NASA) and the National Oceanic and Atmospheric Administration (NOAA), invites minority-serving institutions to join in providing student access to geosciences courses...

American Meteorological Society Education Program Summer Workshop
July 16, 2017 to July 28, 2017

The Project Atmosphere is a two-week teacher professional development workshop offered by the American Meteorological Society's Education Program. This project is specifically designed for K-12 teachers who teach science courses with...

Virtual Classroom—Distance Learning Opportunity
January 31, 2017

Want to learn how to better communicate climate change to your audiences? This free three-day virtual course includes webex plenary sessions, activities, and group discussions to enable interpreters to develop effective...

Teaching Climate Literacy

  • Climate and energy are complex topics. There are many ways to approach climate and energy depending on the grade level, course topics and instructional method.

Professional Development

Mar
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KELP CAN HELP! Climate Action for Students through Kelp Aquaculture

March 6, at 7:30 pm Eastern Time

National Climate Assessment Teaching Resources

  • Explore a series of guides for educators that focus on the regional chapters of the Assessment Report, helping to unpack the key messages of each region and point to related, high-quality online resources.

Case Studies

Unique and diverse youth programming models and student-driven initiatives that are advancing place-based climate solutions.

See case studies >>

Educational Resources

In this activity, students work through the process of evaluating the feasibility of photovoltaic solar power in 4 different US cities.

This activity is a research project in which students explore and synthesize key paleoceanographic evidence for the Paleocene-Eocene Thermal Maximum (PETM) as found in marine sediment cores collected and analyzed during Ocean Drilling Program Leg 208 (Walvis Ridge).

In this short, hands-on activity, students build simple molecular models of 4 atmospheric gases (O2, N2, C02, and methane), compare their resonant frequencies, and make the connection between resonant frequency and the gas's ability to absorb infrared radiation.

This is a multi-step activity that helps students measure, investigate, and understand the increase in atmospheric CO2 and the utility of carbon offsets.

In this activity, students collect data and analyze the cost of using energy in their homes and investigate one method of reducing energy use.

This 3-activity sequence addresses the question: "To what extent should coastal communities build or rebuild?" The activity uses social science and geoscience data to prepare an evidence-based response to the question, in targeted US coastal communities.

This series of visualizations show the annual Arctic sea ice minimum from 1979 to 2015. The decrease in Arctic sea ice over time is shown in an animation and a graph plotted simultaneously, but can be parsed so that the change in sea ice area can be shown without the graph.

This visualization focuses on public acceptance of climate science. The set of interactive maps illustrates public opinion on a variety of climate beliefs, risk perceptions, and policy support. The data is from the Yale Project on Climate Communication.

This short video illustrates the phenomena of El NiÃo and La NiÃa: their relationships to tradewinds and surface water temperatures, and their effects on precipitation in North America.

This video features residents of Shishmaref, Alaska, plus environmental journalist Elizabeth Kolbert and scientist John Holdren, exploring the human impacts of global climate change.

As a segment in PBS's Coping with Climate Change series, Hari Sreenivasan reports on the actions the city of Chicago is taking to mitigate climate change in an urban landscape.

This classroom resource is a combination of 3 visualizations and accompanying text that illustrate how 3 key natural phenomena - cyclical changes in solar energy output, major volcanic eruptions over the last century, and El Nino/Nina cycles - are insufficient to explain recent global warming.

This visualization focuses on public acceptance of climate science. The set of interactive maps illustrates public opinion on a variety of climate beliefs, risk perceptions, and policy support. The data is from the Yale Project on Climate Communication.

The NOAA Sea Level Trends map illustrates U.S. regional and some international trends in sea level, with arrows representing the direction and magnitude of change. Students can investigate sea level changes around the U.S.

In this lab activity, students investigate how to prepare a biofuel source for conversion to a combustible product. The activity models how raw materials are refined to process liquid fuels.

This visualization is a collection of maps, by continent, that project the impact on coastlines of a 216-foot rise in sea level, which is assumed to be the result of melting all the land ice on Earth.

This applet is an ocean acidification grapher that allows user to plot changes in atmospheric C02 against ocean pH, from 1988 to 2009, in the central North Pacific.

This animation depicts real-time wind speed and direction at selected heights above Earth's surface, ocean surface currents, and ocean surface temperatures and anomalies.

In this lab activity, students investigate how to prepare a biofuel source for conversion to a combustible product. The activity models how raw materials are refined to process liquid fuels.

In this short but effective demonstration/experiment, students investigate how thermal expansion of water might affect sea level.

This is a long-term inquiry activity in which students investigate locations they believe harbor cellulose-digesting microbes, collect samples, isolate them on selective media, and screen them for cellulase activity. These novel microbes may be useful for the production of cellulosic ethanol.

This is a hands-on inquiry activity using zip-lock plastic bags that allows students to observe the process of fermentation and the challenge of producing ethanol from cellulosic sources. Students are asked to predict outcomes and check their observations with their predictions.

This hands-on activity introduces students to the process of fermenting different carbohydrate sources into ethanol. Teachers demonstrate yeasts' inability to metabolize certain food sources.

In this activity, students conduct a life cycle assessment of energy used and produced in ethanol production, and a life cycle assessment of carbon dioxide used and produced in ethanol production.