Subject: Natural Hazardsshowing only Environmental Science > Natural Hazards > Earthquakes Show all Subject: Natural Hazards
Grade Levelshowing only College Lower (13-14) Show all Grade Level
Subject: Natural Hazards Show all Subject: Natural Hazards
Results 1 - 20 of 57 matches
Investigating Earthquakes: GIS Mapping and Analysis (College Level)
This is a college-level adaptation of a chapter from the Earth Exploration Toolbook. The students download global quake data over a time range and use GIS to interpret the tectonic context. -
Whose Fault Is It Anyway?
This game has students simulate the propagation of P and S waves after an earthquake and to use the lag between these to determine where in the simulation the earthquake occurred. -
2004 Asian Earthquake and Tsunami Disaster Project
Students are employees of a unit of the United Nations responsible for coordinating disaster relief after a major disaster (the 2004 Asian Earthquake and Tsunami) occurs. The agency needs to understand the ...
Earthquake location is an interesting and significant aspect of seismology. A number of methods that vary from simple to complex are available for learning about earthquake location. The methods also allow ...
Earthquake! A Term Paper and Presentation Assignment
In this writing and oral presentaion assignment, students are challenged to assess a building site for a fictitious organization, the Society for Earthquake Enthusiasts. Each student must choose a historically ...
This lab allows students to analyze earthquake seismicity from the North Anatolian fault using a variety of methods.
What is Magnitude? Earthquake Magnitude By Analogy
Understanding magnitude scales by analogy to distance. Students use distance as a proxy for understanding how the logarithmic earthquake magnitude scale works. Very simple class or lab exercise for introductory ...
Earthquake Case Study
This activity is a multiple case study analysis of different earthquakes that leads to student interpretation of claims, evidence and prediction/recommendations.
Earthquake Epicenter Location Exercise using Google Earth and OneNote
Students are provided with data from 4 seismograms which are used to plot the epicenter of an earthquake using OneNote to pick the P-S wave arrival gap and Google Earth to plot the circles which intersect at the ...
Downloading Earthquake Data from the USGS Earthquake Hazards Site for Anywhere in the World and Studying it Using ArcGIS
Students download earthquake data from the USGS Earthquake Hazards website and plot and anlyze the earthquakes using ArcMap and ArcScene.
Is the New Madrid Seismic Zone at risk for a large earthquake?
In this lesson we discuss the controversy regarding the extent of seismic risk in the central United States today. We learn how to estimate earthquake recurrence interval using a variety of methods. This lesson ...
Cascadia Great Earthquake and Tsunami Suite
Michael Mayhew and Michelle Hall, Science Education Solutions Summary The Cascadia Earthquakes and Tsunami Suite contains five case studies organized around understanding the potential for large earthquakes and ...
Northridge: A Case Study of an Urban Earthquake
Michael Mayhew and Michelle Hall, Science Education Solutions Summary The 1994 Northridge Earthquake Case Study explores the mystery of how such a major fault could have been missed within a tectonic basin that is ...
Global Earthquakes: Teaching about Earthquakes with Data and 3D Visualizations
In this series of visualizations and accompanying activities, students visualize the distribution and magnitude of earthquakes and explore their distribution at plate boundaries. Earthquakes are visualized on a 3D ...
Visualizing Global Earthquakes Where and Why do Earthquakes Occur?
In this activity students visualize the distribution and magnitude of earthquakes at and below the surface of Earth and how their distribution is related to plate boundaries. Earthquakes are visualized on a 3D ...
Determining Earthquake Recurrence Intervals from Trench Logs
Trench logs of the San Andreas Fault at Pallett Creek, CA are the data base for a lab or homework assignment that teaches about relative dating, radiometric dating, fault recurrence intervals and the reasons for uncertainty in predicting geologic phenomena. Students are given a trench log that includes several fault strands and dated stratigraphic horizons. They estimate the times of faulting based on bracketing ages of faulted and unfaulted strata. They compile a table with the faulting events from the trench log and additional events recognized in nearby trenches, then calculate maximum, minimum and average earthquake recurrence intervals for the San Andreas Fault in this area. They conclude by making their own prediction for the timing of the next earthquake.
The Boxing Day Tsunami
Undergraduate students map data from the National Geophysical Data Center and the United States Geological Survey on Google Earth and study visualizations in order to explore the causes and effects of the Tsunami ...
This demonstration uses an "earthquake machine" constructed from bricks, sand paper, and a winch, to simulate the buildup of elastic strain energy prior to a seismic event and the release of that energy ...
The 2004 Sumatra Earthquake and Tsunami
In this multi-part activity, students study seismograms from different seismic stations recording the Sumatra earthquake of December 26th, 2004 and then determine the epicenter of the quake and track the tsunami it ...
Locating and Measuring Earthquakes Using Real Seismic Data
The objective is to locate an earthquake and measure its Richter magnitude using real data recorded by seismographs.