Teaching Activities
Earth education activities from across all of the sites within the Teach the Earth portal.
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Resource Type: Activities
- 4 matches General/Other
- Classroom Activity 1 match
- Lab Activity 4 matches
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Geoscience > Atmospheric Science > Climatology > Solar radiation
7 matchesActivity Review
Grade LevelResults 1 - 7 of 7 matches
Unit 4: Daisyworld part of Modeling Earth Systems
Louisa Bradtmiller, Macalester College
Students explore Daisyworld, a model of a self-regulating system incorporating positive and negative feedbacks. Daisyworld is a planet on which black and white daisies are the only things growing. The model ...
Resource Type: Activities: Course Module, Activities
Subject: Environmental Science:Global Change and Climate:Climate Change:Climate feedbacks, Geoscience:Atmospheric Science:Climatology :Climate sensitivity and feedbacks, Geoscience:Atmospheric Science:Climate Change:Climate feedbacks, Environmental Science, Global Change and Climate, Geoscience:Atmospheric Science:Climatology :Solar radiation, Environmental Science:Ecosystems
Activity Review: Peer Reviewed as Exemplary
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Met 101: Basic Weather Processes part of CLEAN Collection
The COMET ProgramThis activity is an overview of basic weather processes, starting with incoming solar radiation and how that establishes basic atmospheric processes.
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Online Readiness: Online Adaptable
Resource Type: Activities: Activities
Subject: Environmental Science:Global Change and Climate, Geoscience:Atmospheric Science:Climatology :Solar radiation, Geoscience:Atmospheric Science:Climatology , Geoscience:Oceanography:Ocean-Climate Interactions, Geoscience:Atmospheric Science:Meteorology:Atmospheric circulation, Geoscience:Atmospheric Science:Climatology :Atmospheric and oceanic circulation
Activity Review: Peer Reviewed as Exemplary
Modeling Earth's Energy Balance part of Complex Systems:Teaching Activities
Kirsten Menking, Vassar College
In this exercise, students use the STELLA box modeling software to determine Earth's temperature based on incoming solar radiation and outgoing terrestrial radiation. Starting with a simple black body model, ...
Resource Type: Activities: Activities:Lab Activity
Subject: Geoscience:Atmospheric Science:Meteorology:Energy, heat and temperature, Geoscience:Atmospheric Science:Climatology :Global energy balance, Climate sensitivity and feedbacks, Geoscience:Atmospheric Science:Meteorology:Solar and terrestrial radiation, Geoscience:Atmospheric Science:Climatology :Solar radiation
Activity Review: Peer Reviewed as Exemplary, Passed Peer Review
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Modeling Earth's Energy Balance part of CLEAN Collection
Kirsten Menking, Vassar CollegeIn this activity, learners use the STELLA box modeling software to determine Earth's temperature based on incoming solar radiation and outgoing terrestrial radiation. Starting with a simple ...
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Online Readiness: Online Ready
Resource Type: Activities: Activities
Subject: Geoscience:Atmospheric Science:Climate Change:Climate feedbacks, Geoscience:Atmospheric Science:Climatology , Climatology :Climate sensitivity and feedbacks, Environmental Science:Global Change and Climate:Climate Change:Climate feedbacks, Geoscience:Atmospheric Science:Climate Change:Global change modeling, Environmental Science:Global Change and Climate:Climate Change:Global change modeling, Environmental Science:Global Change and Climate, Geoscience:Atmospheric Science:Climatology :Global energy balance, Solar radiation
Activity Review: Peer Reviewed as Exemplary
Daisyworld Model part of Complex Systems:Teaching Activities
Kirsten Menking, Vassar College
In this exercise, students recreate the classic Daisyworld model of Watson and Lovelock (1983). Daisyworld is a planet covered by two species of daisy, one white and one black, whose growth is determined by ...
Resource Type: Activities: Activities:Lab Activity
Subject: Geoscience:Atmospheric Science:Climatology :Solar radiation, Climate sensitivity and feedbacks
Poleward Heat Transport Jigsaw part of Hurricanes-Climate Change Connection:Activities
E. Christa Farmer, Hofstra University
Based on great plate tectonic exercise by Sawyer et al. (2005 JGE), this small-group exercise with maps of data about earth's energy balance helps students visualize poleward heat transport.
Resource Type: Activities: Activities, Lab Activity, Classroom Activity:Jigsaw
Subject: Geoscience:Atmospheric Science:Climatology :Global energy balance, Solar radiation, Geoscience:Atmospheric Science:Meteorology:Extreme weather, Atmospheric circulation, Energy, heat and temperature, Geoscience:Atmospheric Science:Climatology :Atmospheric and oceanic circulation, Geoscience:Atmospheric Science:Climate Change, Environmental Science:Global Change and Climate:Climate Change, Environmental Science:Natural Hazards:Extreme Weather:Hurricanes, Environmental Science:Energy, Geoscience:Atmospheric Science, Atmospheric Science:Meteorology:Solar and terrestrial radiation, Geoscience:Oceanography:Ocean-Climate Interactions
Activity Review: Peer Reviewed as Exemplary
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Modeling Earth's Temperature part of Quantitative Skills:Activity Collection
Kirsten Menking, Vassar College
Students use the STELLA program to create hierarchies of models of increasing complexity to understand the absorption of solar energy by the Earth and its radiation of that energy back to space.
Resource Type: Activities: Computer Applications, Activities:Lab Activity
Subject: Geoscience:Atmospheric Science:Climatology :Global energy balance, Geoscience:Atmospheric Science:Meteorology:Solar and terrestrial radiation, Geoscience:Atmospheric Science:Climatology :Solar radiation, Atmospheric gases, Environmental Science:Ecosystems:Biogeochemical cycling, Geoscience:Atmospheric Science:Meteorology:Atmospheric structure and composition, Energy, heat and temperature
Activity Review: Passed Peer Review