Geomorphology Teaching Activities

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Subject: Geomorphology
Geoscience > Geology > Geomorphology > Landforms/Processes

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Unit 3: Static GPS/GNSS Methods part of High Precision Positioning with Static and Kinematic GPS
The application of Global Navigation Satellite Systems (GNSS) in the earth sciences has become commonplace. GNSS data can produce high-accuracy, high-resolution measurements in common reference frames. Static GNSS ...

Subject: Geomorphology: Geoscience:Geology:Geomorphology:GIS/Mapping/Field Techniques, Geoscience:Geology:Geophysics:Geodesy, Geography:Geospatial, Geoscience:Geology:Geomorphology:Landforms/Processes:Mass Movement, Geoscience:Geology:Geomorphology:Landforms/Processes
GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Unit 3: Understanding landslide factors part of Surface Process Hazards
How do slope characteristics and magnitude of forces dictate whether or not a slope will fail? Can environmental and built characteristics change the magnitude of these forces? In this unit, students qualitatively ...

Subject: Geomorphology: Environmental Science:Natural Hazards:Mass Wasting, Geoscience:Geology:Geophysics:Geodesy, Geoscience:Geology:Geomorphology:Landforms/Processes, Landforms/Processes:Mass Movement
On the Cutting Edge Exemplary Collection This activity is part of the On the Cutting Edge Exemplary Teaching Activities collection.
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GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Unit 2: Reading the landscape part of Surface Process Hazards
How do geologic, hydrologic, biologic, and built-landscape features manifest themselves on maps? In this unit, students will use topographic maps, hillshade maps, and aerial imagery to learn to recognize a variety ...

Subject: Geomorphology: Geoscience:Geology:Geophysics:Geodesy, Geoscience:Geology:Geomorphology:Landforms/Processes, Geoscience:Geology:Environmental Geology, Geography, Geoscience:Geology:Geomorphology
On the Cutting Edge Exemplary Collection This activity is part of the On the Cutting Edge Exemplary Teaching Activities collection.
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GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Unit 3: Monitoring groundwater storage with GPS vertical position part of Measuring Water Resources
This unit shows how GPS records of surface elevation can be used to monitor groundwater changes. Students calculate secular trends in the GPS time series and then use the original and detrended records to identify ...

Subject: Geomorphology: Geoscience:Geology:Environmental Geology, Geoscience:Hydrology:Ground Water:Geology of groundwater occurrence, Geoscience:Geology:Geomorphology:Geomorphology as applied to other disciplines, Landforms/Processes, Geoscience:Atmospheric Science:Meteorology:Extreme weather, Geoscience:Geology:Geophysics:Geodesy, Geoscience:Hydrology:Ground Water:Water cycle/groundwater-surface water interface, Groundwater flow, Environmental Science:Natural Hazards:Subsidence, Extreme Weather:Drought, Environmental Science:Water Quality and Quantity:Groundwater , Geoscience:Hydrology:Ground Water:Water and society, policy, and management, Water supply/water resource evaluation, Well hydraulics, Geography:Geospatial, Geoscience:Hydrology:Ground Water: Unsaturated zone/recharge
On the Cutting Edge Exemplary Collection This activity is part of the On the Cutting Edge Exemplary Teaching Activities collection.
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GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Unit 3.2 - Landforms and Remote Sensing part of Critical Zone Science
In this unit, geomorphic environments and the processes that can move and shape them are explored to learn about the links between landforms, soils, and the Critical Zone. The fundamentals of geomorphology are ...

Subject: Geomorphology: Geoscience:Geology:Geomorphology:Weathering/Soils, Landforms/Processes
InTeGrate Developed This material was developed and reviewed through the InTeGrate curricular materials development process.
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Unit 5: Summative assessment project part of Analyzing High Resolution Topography with TLS and SfM
Unit 5 is the summative assessment for the module. This final exercise takes eight to ten hours. The exercise evaluates students' developed skills in survey design, execution of a geodetic survey, and simple ...

Subject: Geomorphology: Geoscience:Geology:Sedimentary Geology:Stratigraphy, Depositional environments:Continental, Geoscience:Geology:Sedimentary Geology:Facies and Facies Models, Sedimentary Structures, Geoscience:Geology:Geophysics:Geophysics in other disciplines, Geography:Geospatial, Geoscience:Geology:Historical Geology, Geophysics:Geodesy, Geoscience:Geology:Geomorphology:GIS/Mapping/Field Techniques, Landforms/Processes, Geoscience:Paleontology:Preservation and Taphonomy, Field Techniques , Environmental Science:Natural Hazards, Geoscience:Geology:Environmental Geology, Tectonics, Geomorphology:Landscape Evolution, Tectonic Geomorphology, Geomorphology as applied to other disciplines, Geography:Physical, Geoscience:Geology:Structural Geology:Folds/Faults/Ductile Shear Zones
On the Cutting Edge Exemplary Collection This activity is part of the On the Cutting Edge Exemplary Teaching Activities collection.
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GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Weathering and Sedimentary Processes in Google Streetview part of GET Spatial Learning:Teaching Activities
This exercise uses Google Streetview, in combination with 360 degree immersive photographs, to show students real-world examples of the sedimentary rocks, sedimentary structures, and weathering processes that they ...

Subject: Geomorphology: Geoscience:Geology:Sedimentary Geology:Weathering, Depositional environments, Sedimentary Structures, Sediment Transport and Deposition, Sediments and Sedimentary Rocks, Geoscience:Geology:Geomorphology:Weathering/Soils, Landforms/Processes, Geoscience:Geology:Sedimentary Geology:Sedimentary Textures , Geoscience

Unit 3: How to see an earthquake from space (InSAR) part of Imaging Active Tectonics
How can we tell what style of faulting was responsible for a particular earthquake? Especially in cases where there is limited instrumentation in a region, or where geologists have difficulty accessing the affected ...

Subject: Geomorphology: Geoscience:Geology:Structural Geology:Stress/Strain/Strain Analysis, Regional Structural/Tectonic Activity, Folds/Faults/Ductile Shear Zones, Geoscience:Geology:Geophysics:Seismology, Geography:Geospatial, Geoscience:Geology:Geophysics:Geodynamics, Geoscience:Geology:Structural Geology:Geophysics and Structural Geology, Geoscience:Geology:Geomorphology:Landforms/Processes, Environmental Science:Natural Hazards:Earthquakes, Physics:Oscillations & Waves:Instruments, Geoscience:Geology:Tectonics, Geomorphology:Geomorphology as applied to other disciplines, Landscape Evolution, Tectonic Geomorphology, Geography:Physical, Geoscience:Geology:Geophysics:Geodesy
On the Cutting Edge Exemplary Collection This activity is part of the On the Cutting Edge Exemplary Teaching Activities collection.
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GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Unit 4: The phenomenology of earthquakes from InSAR data part of Imaging Active Tectonics
How are different types of earthquakes represented in InSAR data? How can we obtain detailed information on the earthquake source from InSAR data? How well can we resolve those details? In this unit, students ...

Subject: Geomorphology: Geoscience:Geology:Geomorphology:Landforms/Processes, Geoscience:Geology:Structural Geology:Geophysics and Structural Geology, Geoscience:Geology:Geomorphology:Landscape Evolution, Modeling/Physical Experiments, Geomorphology as applied to other disciplines, Tectonic Geomorphology, Geoscience:Geology:Structural Geology:Regional Structural/Tectonic Activity, Modeling Structural Processes, Geoscience:Geology:Geophysics:Geodesy, Computer Modeling, Geodynamics, Seismology, Geoscience:Geology:Structural Geology:Stress/Strain/Strain Analysis, Folds/Faults/Ductile Shear Zones, Geoscience:Geology:Tectonics, Environmental Science:Natural Hazards:Earthquakes, Geography:Physical
GETSI Developed This material was developed and reviewed through the GETSI curricular materials development process.
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Google Earth Investigation of Pleistocene Flood Deposits Across the Pacific Northwest part of Teach the Earth:Teaching Activities
In this activity, students use Google Earth Pro to examine and measure sedimentary and geomorphic structures related to the late Pleistocene draining of glacial Lake Missoula and Lake Bonneville.

Subject: Geomorphology: Geoscience:Geology:Sedimentary Geology:Sediments and Sedimentary Rocks, Geoscience:Geology:Geomorphology:Landforms/Processes, Geoscience:Geology:Sedimentary Geology:Sediment Transport and Deposition