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Quantitative Skills, Thinking, and Reasoning Activities
Resource Type: Activities
Special Interest: Quantitative
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Unit 3: Codorus Creek case study: Measuring and interpreting seismic refraction data
Using seismic refraction data in a case study for urban renewal. Andy Parsekian, University of Wyoming, aparseki@uwyo.edu
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This unit presents an applied Case Study example and the associated concepts related to designing a seismic survey and analyzing the data. Parts of the instrument are discussed and practical experience simulating ...
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Unit 4: The Magic of Geophysical Inversion
Compiled by Lee Slater, Rutgers University Newark (lslater@newark.rutgers.edu)
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This unit introduces the student to the concept of geophysical inversion, which is the process of estimating the geophysical properties of the subsurface from the geophysical observations. The basic mechanics of ...
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Paleoclimate and Ocean Biogeochemistry
Allison Jacobel, Middlebury College
This module guides students through an examination of how surface ocean productivity relates to global climate on glacial-interglacial timescales and how the availability of ocean nutrients can be correlated with ...
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Exploring California's Plate Motion and Deformation with GPS | Lessons on Plate Tectonics
Shelley Olds, EarthScope Consortium
Students analyze data to study the motion of the Pacific and North American tectonic plates. From GPS data, students detect relative motion between the plates in the San Andreas fault zone--with and without earthquakes. To get to that discovery, they use physical models to understand the architecture of GPS, from satellites to sensitive stations on the ground. They learn to interpret time series data collected by stations (in the spreading regime of Iceland), to cast data as horizontal north-south and east-west vectors, and to add those vectors head-to-tail.Students then apply their skills and understanding to data in the context of the strike-slip fault zone of a transform plate boundary. They interpret time series plots from an earthquake in Parkfield, CA to calculate the resulting slip on the fault and (optionally) the earthquake's magnitude.
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Module 4 Polar Ecosystems
Jonathan Cohen, University of Delaware; Matthew Oliver, University of Delaware; Victoria E Simons, University of Delaware
This module follows logically from the previous and gives a biological context to sea ice. Students will review knowledge about seasonal trends in sea ice and learn how this impacts organisms that live in polar ...
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Unit 6: Hydrologic Balance and Climate Change
Kirsten Menking, Vassar College
In this unit, students create a STELLA model of the Owens River chain of lakes in eastern California and then experiment with different climate change scenarios to simulate the Pleistocene history of lake filling ...
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Unit 7: Heat Flow in Permafrost
Kirsten Menking, Vassar College
In this unit, students create a STELLA model of heat flow in the top 1 km of Earth's crust to explore the use of Arctic borehole temperature profiles as recorders of anthropogenic warming. The exercise draws ...
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Unit 8: Thermohaline Circulation
David Bice, Pennsylvania State University-Main Campus
In this module, students first review some background material on density-driven deep currents in the oceans, and then create a STELLA model of the thermohaline circulation in the North Atlantic Ocean. The model ...
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Unit 9: Carbon Cycle and Ocean Chemistry
David Bice, Pennsylvania State University-Main Campus
In this module, students first review some background material on the terrestrial, marine, and anthropogenic processes involved in the storage and transfer of carbon in the Earth system. The students then build a ...
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Summative Assessment: Creating a model
Kirsten Menking, Vassar College; Louisa Bradtmiller, Macalester College; David Bice, Pennsylvania State University-Main Campus
The summative assessment for this course requires students to construct, utilize, and critique a numerical model of a climate-related Earth system of their choosing. The project involves four pieces: creating a ...
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