Earth Exploration Toolbook Chapters
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Analyzing Plate Motion Using EarthScope GPS Data
DATA: EarthScope GPS Data. TOOLS: Spreadsheet, Google Maps. SUMMARY: Learn how GPS monuments make precise measurements of Earth's surface. Graph motion data and map velocity vectors to explore tectonic motion and surface deformation in the Pacific Northwest.
Discover Clues from a Colder Climate with GeoMapApp
DATA: Global Digital Elevation Model (DEM) TOOLS: GeoMapApp, Spreadsheet SUMMARY: Use GeoMapApp to search for evidence of glacial expansion and retreat. Produce a research report of your findings modeled on peer-reviewed papers in the field of glaciology.
Global Change in Local Places
DATA: SHALDRIL Core Data; NOAA Pollen data TOOL: GeoMapApp SUMMARY: Import Antarctic sediment core data files into GeoMapApp to create maps and graphs. Use data to infer past climate conditions based on current vegetation distributions.
Investigating Earthquakes with ArcExplorer GIS
DATA: Recent and Historical Earthquake Data. TOOL: ArcExplorer Java Edition for Education GIS. SUMMARY: Explore earthquake data and import them into a Geographic Information System (GIS). Analyze the data to predict where the next big earthquake will occur.
Looking into Earth with GIS
DATA: Seismic Wave Model Output. TOOLS: My World GIS, Microsoft Excel. SUMMARY: Examine seismic wave data in a Geographic Information System (GIS). Analyze wave velocities to infer the depth of the crust-mantle boundary.
Tsunami Run-up Prediction for Seaside, Oregon with ArcExplorer GIS
DATA: NGDC Historical Tsunami Data, Digital Elevation Model (DEM) Data. TOOLS: Geobrain Online Analysis System (GeOnAS) DEM Explorer, ArcExplorer Java Edition for Education (AEJEE) GIS, & Excel. SUMMARY: Download and examine global, historical tsunami run-up patterns. Acquire DEM contours and import them into AEJEE GIS. Then visualize the potential sea-level rise that could occur during a tsunami run-up event near Seaside, Oregon.