Teaching Activities
Earth education activities from across all of the sites within the Teach the Earth portal.
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- College Introductory 6 matches
College Lower (13-14)
4 matches General/OtherOnline Readiness
Resource Type: Activities
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Activity Review
Grade LevelResults 1 - 8 of 8 matches
The Changing Geographic Distribution of Malaria with Global Climate Warming part of Quantitative Skills:Activity Collection
Mary Savina, Carleton College; Kendra Murray, The University of Arizona
In this exercise, students analyze climate data to find areas in the southern United States that are now close to having conditions in which the malaria parasite and its mosquito hosts thrive and then attempt to forecast when areas might become climatically suitable.
Resource Type: Activities: Activities
Subject: Geoscience:Atmospheric Science:Climatology , Biology:Ecology:Metabolism
Activity Review: Peer Reviewed as Exemplary, Passed Peer Review
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Using a Mass Balance Model to Understand Carbon Dioxide and its Connection to Global Warming part of Quantitative Skills:Activity Collection
Bob Mackay, Clark College
Students explore the increase in atmospheric carbon dioxide over the past 40 years with an interactive on-line model.
Resource Type: Activities: Activities:Problem Set
Subject: Geoscience:Atmospheric Science:Climate Change:Greenhouse gas emissions, Global change modeling, Environmental Science:Global Change and Climate:Climate Change:Global change modeling, Environmental Science:Global Change and Climate:Climate Change, Geoscience:Atmospheric Science:Climatology :Atmospheric gases, Environmental Science:Global Change and Climate:Climate Change:Greenhouse gas emissions
Activity Review: Peer Reviewed as Exemplary
Learn more about this review process.
Learn more about this review process.
What is the fate of CO2 produced by fossil fuel combustion? part of Quantitative Skills:Activity Collection
Paul Quay
A box model is used to simulate the build up of carbon dioxide in the atmosphere during the industrial era and predict the future increase in atmospheric CO2 levels during the next century.
Resource Type: Activities: Datasets and Tools:Datasets with Tools, Activities:Problem Set
Subject: Geoscience:Atmospheric Science:Climate Change:Global change modeling, Geoscience:Oceanography:Ocean-Climate Interactions, Geoscience:Atmospheric Science:Climate Change:Greenhouse effect, Climate feedbacks, Geoscience:Atmospheric Science:Climatology :Climate sensitivity and feedbacks, Geoscience:Oceanography, Biology, Environmental Science:Global Change and Climate:Climate Change, Climate Change:Global change modeling, Greenhouse effect, Climate feedbacks, Geoscience:Atmospheric Science:Climatology :Atmospheric gases, Atmospheric and oceanic circulation
Activity Review: Passed Peer Review, Peer Reviewed as Exemplary
Learn more about this review process.
Learn more about this review process.
Air-sea Interactions: Activities in Oceanography part of Quantitative Skills:Activity Collection
Steve LaDochy, California State University-Los Angeles
This online set of activities help students learn properties of ocean waves, wind-wave relationships and properties of tsunamis.
Resource Type: Activities: Activities:Lab Activity, Classroom Activity, Assessments, Audio/Visual:Images/Illustrations, Animations/Video
Subject: Geoscience:Oceanography:Physical , Marine Hazards, Geoscience:Atmospheric Science:Climatology , Environmental Science:Natural Hazards:Coastal Hazards:Tsunami
Activity Review: Passed Peer Review
Laboratory Activity: The Sun and Climate part of Quantitative Skills:Activity Collection
Peter Selkin, University of Washington-Tacoma Campus
In this physical geography lab, students examine the relationship between solar altitude, solar declination, and temperature regimes. Using data collected in the field, mathematical relationships, and temperature records available on the Internet, students compare the insolation and climate in their location to that of other locations.
Resource Type: Activities: Activities:Lab Activity
Subject: Geography:Physical, Geoscience:Atmospheric Science:Climatology , Geoscience:Geology, Lunar and Planetary Science
Activity Review: Passed Peer Review
Time Series Analysis of Lehigh Valley Instrumental Climate Records part of Quantitative Skills:Activity Collection
Zicheng Yu, Lehigh University
In this lab activity the students will learn basic statistical and graph skills by analyzing real world climate data sets.
Resource Type: Activities: Activities:Lab Activity
Subject: Geoscience:Atmospheric Science:Climatology
Activity Review: Passed Peer Review
Machines that change climate: Porsche 911 Turbo vs. Toyota Prius part of Quantitative Skills:Activity Collection
Kevin Harrison, McDaniel College
This problem illustrates how consumer decisions can influence carbon dioxide levels in the atmosphere, how to make back-of-the-envelope calculations, and demonstrates the power of exponential growth.
Resource Type: Activities: Activities:Lab Activity, Classroom Activity
Subject: Geoscience:Atmospheric Science:Climatology , Environmental Science:Ecosystems:Biogeochemical cycling, Environmental Science:Policy:Environmental Decision-Making, Geoscience:Atmospheric Science:Climate Change:Greenhouse gas emissions, Biology, Environmental Science:Global Change and Climate:Climate Change:Greenhouse gas emissions, Environmental Science:Energy:Efficiency and Energy Conservation
Genetic and Empirical Approaches to Classifying Climates part of Quantitative Skills:Activity Collection
Charles Dodd, Shoreline Community College
Students (in groups of 3-4) are given a hypothetical planet and create a genetically based climate regionalization. Students then interpret empirical data of various climate phenomena (precipitation, temperature, evapo-transpiration) from different locations on the planet, and apply these to the Koppen system of climate classification.
Resource Type: Activities: Activities:Lab Activity, Classroom Activity
Subject: Geoscience:Atmospheric Science:Climatology :Regional climates