DATA: Topography, EQs, volcanoes, seafloor ages. TOOL: Browser, Learning with Data CD-ROM. …
DATA: Topography, EQs, volcanoes, seafloor ages. TOOL: Browser, Learning with Data CD-ROM. SUMMARY: Examine and interpret images to write a paper supporting the Theory of Plate Tectonics.
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Formative assessment questions using a classroom response system ("clickers") can be used …
Formative assessment questions using a classroom response system ("clickers") can be used to reveal students' spatial understanding. Students are shown this diagram and instructed to "Click within the layer that is entirely liquid."
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This activity is based around Macintosh software that I wrote to display …
This activity is based around Macintosh software that I wrote to display near real-time seismograms in classrooms with projection systems and internet communications. I use the display in courses at all levels, from large non-science courses to advanced graduate courses in seismology. In my introductory course, I have been fortunate to have a room with two projectors and large screens. That allows me to display the seismic monitor on one screen and use the other for that day's material. In smaller advanced courses I often project the real-time display on one screen while I use the chalk board during that part of the class that I use to cover new material. Although you might think that it's rare that an earthquake would occur during any given class, that's not true (have the students estimates the odds using the Gutenberg Richter relation if you doubt it). If needed, you can load specific earthquake signals (say from the night before) to talk about it at the beginning of a class period. Activity that occurs during class often leads to interesting discussions of earthquakes and tectonics. This activity uses online and/or real-time data, has minimal/no quantitative component, and can be used to address student misconceptions.
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Earth Observation is an activity where students observe and patterns in datasets …
Earth Observation is an activity where students observe and patterns in datasets of the different Earth spheres. Correlations between datasets are examined to stimulate student thinking of the interrelations in the Earth system. This activity is connect to process and concepts covered later in the class.
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The Eemian age was the last time the Earth is believed to …
The Eemian age was the last time the Earth is believed to have been warmer than today. However, this warm period occurred with Greenhouse gas concentrations in the atmosphere that were similar to those during the pre-industrial era. Students will use a simplified climate model and with Eemian orbital conditions to try and reproduce this previous warm period. Students will then use modern orbital forcing but elevated greenhouse gas concentrations to look at the modern and future climates. Students will try and understand the differences between these two contrasting warm climates. Eemian and modern warm climates (Acrobat (PDF) 241kB Nov10 16)
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This multimodal text set is designed to help middle school learners work …
This multimodal text set is designed to help middle school learners work toward mastering the grade-level moderately complex Anchor Text “Heat Waves in Missouri (Is it getting hotter, or is it just me?)”, adapted from a published study that models summer heat stress in the St. Louis region during future climates (Steinweg and Gutowski, 2015).
In this activity students manipulate materials in order to better understand the …
In this activity students manipulate materials in order to better understand the concepts of core sampling using candy bars and straws. They work individually and then in groups in order to compare their results. Next they research the websites www.jpl.nasa.gov (more info) or www.mars.asu.edu to find more information about missions to Mars and what we have gathered from sampling rocks on Mars. They also will search the website for examples of core sampling used by geologists when drilling or digging (engineering and geology).
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To focus their research, students are presented with the following hypothetical situation: …
To focus their research, students are presented with the following hypothetical situation: Suppose you and your classmates are members of an organization that is looking for a site to build a new headquarters. As the Society for Earthquake Enthusiasts (SEE), you plan to put your headquarters at the site of a historically significant earthquake. You are not looking to put yourselves at risk, however, and are therefore looking for a safe location. You have decided that a safe site is one that will not produce a deadly earthquake in your lifetime (i.e., in the next 80 years).
Students complete a series of assignments throughout the semester to demonstrate their understanding of structural geology by writing papers and giving an oral presentation. First, a letter proposing a site is due early in the semester, next a historical background paper is due mid-semester, and finally a persuasive report and oral presentation are due at the end of the semester. Has minimal/no quantitative component
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Students work in a jigsaw format, they start in an expert group …
Students work in a jigsaw format, they start in an expert group analyzing one particular aspect of the earthquake that occurred (e.g., tsunami, geologic maps, damage assessment). After analyzing the data/information provided, students get into their new groups, which are a "consulting team" to make recommendations to key governmental officials about the earthquake they studied and implications for future development. These are presented in a poster session style event, which then leads to individual papers that are written about the same topic, which are peer reviewed and revised. Students are asked to reflect on their strengths and weaknesses in the process and to consider changes for future opportunities, as well as connect the curriculum to the overall process of science.
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Students will write a research paper comparing the Sumatran (2004) and Tohoku …
Students will write a research paper comparing the Sumatran (2004) and Tohoku (2011) tsunami generating earthquakes.
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This demonstration uses an "earthquake machine" constructed from bricks, sand paper, and …
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 during an earthquake.
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This hands-on demonstration illustrates how GPS instruments can be used in earthquake …
This hands-on demonstration illustrates how GPS instruments can be used in earthquake early warning systems to alert people of impending shaking. The same principles can be applied to other types of early warning systems (such as tsunami) or to early warning systems using a different type of geophysical sensor (such as a seismometer instead of a GPS).This demo is essentially a game that works best with a large audience (ideally over 30 people) in an auditorium. A few people are selected to be either surgeons, GPS stations, or a warning siren, with everyone else forming an earthquake "wave."
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Students in groups of two are giving access to 3 component seismograms …
Students in groups of two are giving access to 3 component seismograms from four locations through Google Earth. They are then asked to pick the P-wave and S-wave arrivals using OneNote and convert the time lag into a distance to epicenter. A circle drawing application in Google Earth then allows them to plot possible locations for the earthquake epicenter. This activity gives students practice in interpreting data, analyzing uncertainty and error in data or data analysis, and peer teaching Uses online and/or real-time data
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Ground shaking is the primary cause of earthquake damage to man-made structures. …
Ground shaking is the primary cause of earthquake damage to man-made structures. This exercise combines three related activities on the topic of shaking-induced ground instability: a ground shaking amplification demonstration, a seismic landslides demonstration, and a liquefaction experiment. The amplitude of ground shaking is affected by the type of near-surface rocks and soil. Earthquake ground shaking can cause even gently sloping areas to slide when those same areas would be stable under normal conditions. Liquefaction is a phenomenon where water-saturated sand and silt take on the characteristics of a dense liquid during the intense ground shaking of an earthquake and deform. Includes Alaska and San Francisco examples.
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In this activity, students explore of the concept of probability and the …
In this activity, students explore of the concept of probability and the distribution of earthquake sizes, and then work to understand how earthquake hazards are described by probabilities. Students then work in small groups to collect and analyze data from a simple physical earthquake model and use online data to investigate and compare the earthquake hazards in California and Missouri. The activity concludes with a reflection where they students are asked to consider how, in the role of a city planner or emergency manager, they would use what they have learned to mitigate the earthquake hazard in California and Missouri.
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Introductory lesson that compares ShakeMaps between earthquakes in the same location but …
Introductory lesson that compares ShakeMaps between earthquakes in the same location but different magnitudes, and earthquakes of the same magnitude but different depths, to acquaint learners to the fundamental controls on intensity of shaking felt during an event: magnitude and distance from the earthquake source.
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Students will make "earthquakes" using a simple model, the earthquake machine. It …
Students will make "earthquakes" using a simple model, the earthquake machine. It is patterned on the EQ machine described by Ross Stein, Michelle Hall-Wallace, and others. References are given below. We have added force and distance sensors to the machine, and linked them (via GOLINKS) to new new software, that allows students to graph and analyze their data. All SW will be freely available. Students will evaluate the hypothesis that although earthquake patterns can be observed, the exact time and size of an earthquake cannot be predicted. Students then apply these insights to predicting earthquakes on the San Andreas fault, and estimating the magnitude of earthquakes on ancient faults in the region.
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Earthquake location is an interesting and significant aspect of seismology. Locating earthquakes …
Earthquake location is an interesting and significant aspect of seismology. Locating earthquakes is necessary for compiling useful seismicity information, calculating magnitudes, and study of fault zones, Earth structure and the earthquake process. Methods of earthquake location involve understanding of seismic waves, wave propagation, interpretation of seismograms, Earth velocity structure, triangulation, and the concepts (and mathematics) of inverse problems. Because earthquake location can be approached with relatively simple to very complex methods, it can be included in various levels of educational curricula and for "in-depth" study. Progressively developing a deep understanding of concepts, computational techniques and applications (and the capabilities, limitations and uncertainties of these applications) is a characteristic of science and an -- opportunity to "learn science by doing science." A number of methods that vary from simple to complex are available for learning about earthquake location. The methods also allow connections to other important concepts in seismology and provide a variety of approaches that address different learning styles and can be used for reinforcement and assessment. Uses online and/or real-time data Has minimal/no quantitative component
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In this activity, learners work collaboratively in small groups to explore the …
In this activity, learners work collaboratively in small groups to explore the earthquake cycle by using a physical model. Attention is captured through several short video clips illustrating the awe-inspiring power of ground shaking resulting from earthquakes. To make students' prior knowledge explicit and activate their thinking about the topic of earthquakes, each student writes their definition of an earthquake on a sticky note. Next, through a collaborative process, small groups of students combine their individual definitions to create a consensus definition for an earthquake.
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Students are expected to complete readings related to the mechanics of earthquakes …
Students are expected to complete readings related to the mechanics of earthquakes (most don't do it). This activity allows them to apply the rules and extend their knowledge by making predictions.
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