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A collection of nine atmospheric science and geography activities that guide students in developing the skills used to analyze GLOBE environmental data. GLOBE (Global Learning and Observation to Benefit the Environment) is a worldwide, hands-on,... (View More) K-12 school-based science education program. (View Less)
This unit consists of five activities, all of which focus on the response of plant life-cycle events to climate change. Students participate in discussions, field observations, data collection and analyses, plant identification, seed dispersal... (View More) comparisons, and graphing and analyses of plant phenology (timing of life-cycle events). Project BudBurst, a citizen science project which studies the impact of climate change on phenology, is integrated into this unit. The unit is one of four under the Chicago Botanic Garden curriculum entitled, "Climate Change in My Backyard." (View Less)
Materials Cost: 1 cent - $1 per group of students
This curriculum uses an inquiry-based Earth system science approach, and leverages Project BudBurst, a citizen science phenology project, to engage students in authentic research on plant and ecosystem responses to climate change. Students collect... (View More) local data then analyze that data in the context of NASA regional and global data sets and satellite imagery to understand their data in personal, regional, and global contexts. The curriculum is divided into four units: The Earth as a System; Identifying the key changing conditions of the Earth system; Earth system responses to natural and human induced changes; and Predicting the consequences of changes for human civilization. Each unit consists of several activities with accompanying teacher answer sheets. (View Less)
Materials Cost: $1 - $5 per group of students
In this unit, students investigate temperature cycles, tree rings, CO2 records, and the effects of CO2 on temperature, precipitation and cloud cover to determine the impacts of changing climate on forests. After gathering and analyzing local data,... (View More) students examine regional impacts and differences. The unit is one of four under the Chicago Botanic Garden curriculum entitled, "Climate Change in My Backyard." (View Less)
This unit focuses on local plant species; students learn to identify common species and will examine their life cycle characteristics as evidence of climate change. Through the use of the national citizen science project titled Project BudBurst,... (View More) students explore the impacts of climate variation on plant species distribution. The unit is one of four under the Chicago Botanic Garden curriculum entitled, "Climate Change in My Backyard." (View Less)
Designed to help students learn about NASA's missions currently studying the sun and its effects on Earth, this second of two storybooks in the series focuses on the importance of collaboration in data acquisition and analysis. Through a series of... (View More) activities, students mine pre-existing data, find trends and patterns in that data, and collect and share related data. The guide concludes with a data challenge for students to design their own experiment using NASA's Magnetospheric Multiscale (MMS) satellites. The book contains teacher companions/guides with instructions and tips for classroom implementation (see Related & Supplemental URLs). (View Less)
Students work in groups to investigate one of the following factors driving climate change: greenhouse gases, sea level rise and melting sea ice. The investigation involves conducting an experiment, connecting to real-world data and presenting a... (View More) poster summary of their findings. The lesson includes experiment procedures (with pictures), a rubric for poster evaluation, a Powerpoint presentation (incorporating NASA videos), extensions, and additional resources. (View Less)
This is an activity about Earth's magnetic field. Learners will construct a soda bottle magnetometer, collect data, and analyze the results to detect magnetic storm events. Ideally, learners should collect data for at least a month. If several... (View More) months are available for data collection, this is ideal. This is the first activity as part of the iMAGiNETICspace: Where Imagination, Magnetism, and Space Collide educator's guide. Instructions for downloading the iBook educator's guide and the associated Transmedia book student guide are available at the resource link. (View Less)
This is an activity about area and volume. Learners will use fabrication software to determine the optimal size of a satellite which can fit within a given rocket cylinder. To complete this activity, fabrication software is required (an example is... (View More) suggested in the lesson). This is the sixth activity as part of the iMAGiNETICspace: Where Imagination, Magnetism, and Space Collide educator's guide. Instructions for downloading the iBook educator's guide and the associated Transmedia book student guide are available at the resource link. (View Less)
This is an activity about satellite design. Learners will create a satellite model to determine which shape will provide a steady minimum current output from solar panels, given a fixed position light source. After, as a group, they will assess... (View More) whether their satellite model would work in real life and how their actions were similar to what engineers do. This is the fifth activity as part of the iMAGiNETICspace: Where Imagination, Magnetism, and Space Collide curriculum. Instructions for downloading the iBook educator's guide and the associated Transmedia book student guide are available at the resource link. (View Less)