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In this activity, learners will use the online Space Weather Media Viewer to research answers to a set of questions about space weather, solar flares, coronal mass ejections, and sunspots, and explain their impact on Earth and how Earth's... (View More) magnetosphere serves to protect our planet. (View Less)
In this lesson, students compare different habitats based on satellite imagery and identify land features in the satellite image. This is lesson 3 in a unit on remote sensing that is a companion to an interactive adventure that uses a Landsat mosaic... (View More) of Arizona as the interface. Students need to interpret satellite imagery to receive clues to Echo the Bat's location. As students find Echo, additional content about remote sensing and biodiversity is introduced. (View Less)
In this self-guided lesson, students read and learn about the history of Earth imaging and the Landsat satellite. They develop interpretation skills as they play a game that involves inferring the subjects of various Landsat images.
Remote sensing offers three perspectives on human or physical features: aerial (birds-eye), oblique (angled) and ground-level. Sketching a classroom object from each of the three perspectives provides students with the foundation to then complete... (View More) several activities. Students will match remotely sensed images and photos of historical sites to their locations. Then, assuming the role of geoarchaeologists, students will ground-truth images from an assigned site and log their research. Note that this final activity requires access to computers and the Internet. The URL opens to the investigation directory, with links to teacher and student materials, lesson extensions, resources, teaching tips, and assessment strategies. This is Investigation 3 of three found in the Grades 5-8 Module 4 of Mission Geography. The Mission Geography curriculum integrates data and images from NASA missions with the National Geography Standards. Each of the three investigations in Module 4, while related, can be done independently. (View Less)
Worldwide patterns and sources of aerosols are analyzed and evaluated for potential hazards to aircraft safety. Using aerosol index maps created from data gathered by the TOMS instrument, student groups will analyze and compare aerosol data from... (View More) either eight consecutive or eight random days. Each group will graph the data, rank the hazard level of their study area and analyze the patterns and probable causes of those aerosols. Directions and materials are included for classes with computer access and for those without computer access. The URL opens to the investigation directory, with links to teacher and student materials, lesson extensions, resources, teaching tips, and assessment strategies. Note that this is the last of three investigations found in the Grades 5-8 Module 1 of Mission Geography. The Mission Geography curriculum integrates data and images from NASA missions with the National Geography Standards. Each of the three investigations in Module 1, while related, can be done independently. (View Less)