Activities for teaching about the Early Earth
This collection of activities contains materials used to teach about earth's history, evolution and extinction, geologic timelines, and methods used to date geologic events. We are seeking teaching materials that address early earth topics. Do you have a favorite teaching activity you'd like to share? Please help us expand this collection by sharing your own teaching materials.
You may also find useful information about references and resources for teaching about the early earth and ideas for creating early earth teaching activities.
Results 1 - 19 of 19 matches
Physical Geology: Idaho Field Trip part of Cutting Edge:Introductory Courses:Activities
Optional field trip to local sites of geologic interest/relevance.
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Fossil Identification Board Game part of Starting Point-Teaching Entry Level Geoscience:Games:Examples
The instructor uses a series of games to help students identify and answer questions about fossils. The game grows more complex over time as the instructors add rules and phyla to identify. -
Ordering Geologic Events and Interpreting Geologic History: The Grand Canyon part of Cutting Edge:Introductory Courses:Activities
This activity is designed to have students re-examine rocks they looked at earlier in the semester and use them to interpret some of the geologic history of the Grand Canyon.
Rock-Tectonics synthesis lab part of Cutting Edge:Introductory Courses:Activities
This lab aims to draw together rock identification and plate tectonics as well as relative age relationships. It gets students to "be" geologists...looking at rock suites and trying to see how they fit ...
Hometown Geology part of Cutting Edge:Introductory Courses:Activities
This is an extra credit assignment for students to learn details about the geology of their hometown.
Observations and Measurements in Geology part of Cutting Edge:Introductory Courses:Activities
This exercise gives students an introduction to topics they will encounter throughout the semester, and future course work. It covers plate tectonics, weathering, and basic rock descriptions.
Relative Time Application and Synthesis Exercise part of Cutting Edge:Introductory Courses:Activities
This classroom activity is a formative assessment that explores the degree to which students can apply relative time principles and synthesize that information with concepts related to the rock cycle.
Relative Age-dating -- Discovery of Important Stratigraphic Principles part of Cutting Edge:Introductory Courses:Activities
Students don't have to be passively taught the important principles geologists use to do relative age-dating of rocks and geologic events. By careful analysis and critical thinking about photos and ...
Jurassic Park Debate part of Starting Point-Teaching Entry Level Geoscience:Role Playing:Examples
This role-playing exercise casts students as scientific specialists, assigned to a group either supporting or opposing the cloning of dinosaurs. Each group researches and presents its argument. -
Tapestry of Time: the Evolution of the North American Continent part of Cutting Edge:Introductory Courses:Activities
In this lecture activity, groups of students use the Tapestry of Time map printed by the USGS to create cross sections that illustrate the growth of the North American continent.
Help a geochronologist part of Geoscience in Two-year Colleges:Activities
This activity allows students to better understand radiometric dating and absolute dating techniques by calculating radiometric ages of zircon crystals. Their calculated ages then serve as tools to practice creating graphs, interpret analytic data, and reconstruct geologic events.
Modeling U-Series Concordia/Discordia Using STELLA part of Rates and Time:GSA Activity Posters
U-Series dating techniques are widely used to determine the absolute ages of some of Earth's oldest rocks, but the concordia/discordia diagram can be quite difficult for students to grasp. I have produced a STELLA-based lab exercise to develop students' understanding of this important chronologic technique. Students create models of the two isotopic decay systems and run these models to create the concordia diagram. They then carry out experiments in which they "add" or "remove" varying amounts of lead or uranium in simulation of metamorphism. In the course of the lab, students are introduced to the concepts of exponential decay and secular equilibrium as well as modeling concepts such as the creation of if-then statements.
Rates of Change and Deep Time in the Middle Grades Classroom part of Rates and Time:GSA Activity Posters
The nature and scientific measurement of geological and cosmological time are among the most misunderstood and difficult to teach concepts in all of K-12 science education. To address this issue, a multi-disciplinary team of geologists, astronomers and education professionals at Western Kentucky University developed a series of professional development workshops for pre- and in-service middle grades teachers. The participants clearly advanced their content understanding of geological and cosmological time and the implementation plans received clearly show a desire to apply many of the activities learned in the workshop.
Learning Landscapes: RIVERS part of Rates and Time:GSA Activity Posters
Learning Landscapes provides historic "geo-images" of Rivers and Slopes. Students work at their own pace through a series of on-line images with directed questions and expert answers for each image. Images stem in most part from the University of Vermont's Landscape Change Program archive. Preliminarily, we have found that students relate to local images of New England, use the site as a resource, relate image content to course field laboratories, and relate images to their previous knowledge.
How much is a million? How big is a billion? part of Rates and Time:GSA Activity Posters
We constructed a geologic timeline along a 5K road-race route across the MSU campus at a scale of 1 meter = 1 million years, using signage to mark important events in the history of life. In addition to over 1500 race participants, numerous casual observers were exposed to the timeline. This project works well in the classroom at a scale of 1 mm = 1 million years, and as a manageable one-day outdoor sidewalk chalk activity at a scale of 1" = 1 million years. Timelines drawn to scale lead the observer to the inescapable conclusions that "simple" life appeared early in Earth history; that it took the bulk of Earth history to achieve the next, multi-cellular stage of development; and that once the metazoan threshold was crossed, subsequent biological diversification-and the resulting fossil record-followed in rapid succession.
Diverse: Field, role play, storytelling, puzzle, cooperative, information systems part of Rates and Time:GSA Activity Posters
Multiple activities--see the poster
Exploring the nature of geoscience using cartoon cards part of Integrate:Workshops:Teaching the Methods of Geoscience:Activities
In this activity, students work in groups to put a set of cartoon cards in order, much in the way that we might assemble a geologic history. The primary goal of the activity is to explore the nature of science in general and the nature of geoscience or historical science specifically, without requiring any content knowledge.
Learning Assessment #8 - Concept Map (2011) part of Cutting Edge:Introductory Courses:Activities
An end of the term, in-class activity that challenges students to synthesize their understanding of the fundamental concepts taught over the course of the semester - plate tectonics, the rock cycle, geologic time ...
Learning Assessment #6 - Geologic Time (2010) part of Cutting Edge:Introductory Courses:Activities
An in-class activity that tests students' understanding of the principles of relative age, absolute age and numerical age dating.