AP/IB/Honors Geoscience Activity Browse
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Oil Demand and Consumption part of Process of Science:Examples
Data modeling activity using oil reserve and consumption data. Students predict when oil reserves meet or exceed reserves.
The Pet Rock Project - Developing Professional Communication in a Petrology Course part of Pedagogy in Action:Library:Professional Communications Projects:Examples
Magma Viscosity Demos part of Pedagogy in Action:Library:Interactive Lectures:Examples
This is an interactive lecture where students answer questions about demonstrations shown in several movie files. They learn to connect what they have learned about molecules, phases of matter, silicate crystal structures, and igneous rock classification with magma viscosity, and to connect magma viscosity with volcano explosiveness and morphology.
Mapping Coastal Vulnerability to Sea-Level Rise at Point Reyes National Seashore part of Pedagogy in Action:Partners:Spreadsheets Across the Curriculum:Geology of National Parks:Examples
Spreadsheets Across the Curriculum/Geology of National Parks module. Students work with a color-coded conditional-formatted spreadsheet map to work through a USGS report applying a coastal vulnerability index.
Shaking Ground - Linking Earthquake Magnitude and Intensity part of Spreadsheets Across the Curriculum:General Collection:Examples
An in-class activity for connecting earthquake magnitude, shaking, and intensity.
Deciviews from Look Rock, Great Smoky Mountains National Park: How Hazy is it? part of Pedagogy in Action:Partners:Spreadsheets Across the Curriculum:Geology of National Parks:Examples
Spreadsheets Across the Curriculum/Geology of National Parks module. Students calculate the haze index and standard visual range from concentrations of particulate matter.
Flood Days and Good Canoeing Days at Congaree National Park part of Pedagogy in Action:Partners:Spreadsheets Across the Curriculum:Geology of National Parks:Examples
SSAC Geology of National Parks module/Geology of National Parks course. Students calculate probabilities using USGS hydrograph data, a spreadsheet of daily stage heights, and the COUNTIF function.
Mined-Over Matter: Remembering Copper Mining at Keweenaw National Historic Park, Upper Peninsula Michigan part of Pedagogy in Action:Partners:Spreadsheets Across the Curriculum:Geology of National Parks:Examples
Spreadsheets Across the Curriculum/Geology of National Parks module. Students calculate the amount of rock removed and the value of copper produced at the great Keweenaw District up to 1925.
Using a Groundwater Pollution Problem to Develop Professional Communication Skills part of Pedagogy in Action:Library:Professional Communications Projects:Examples
Using an Observatory Project to Develop Professional Communication in Astronomy part of Pedagogy in Action:Library:Professional Communications Projects:Examples
This is a comprehensive project using the Highland Road Park Observatory camera. This project encompasses the formal portions for both written and spoken communication, and carries 55% of the course credit.
Our Place in the World (Long Island Series) part of Pedagogy in Action:Library:Teaching with Google Earth:Examples
Our Place in the World is a hands-on Google Earth activity designed to establish a local, regional, and global geographic context in connection with a course, workshop, or field trip.
HydroViz virtual hydrologic observatory part of Pedagogy in Action:Library:Teaching with Google Earth:Examples
HydroViz is an educational "virtual" hydrologic observatory developed for a "real" watershed and is based on integration of field data, remote sensing observations and computer simulations of hydrologic variables and processes. The main purpose of HydroViz is to support hydrology education in engineering and earth science courses.
Using Learning Assistants to Support Peer Instruction with Classroom Response Systems ("Clickers") part of Pedagogy in Action:Library:Teaching with Learning Assistants:Examples
Learning Assistants are used to facilitate student discussion in peer instruction during clicker questions (i.e., classroom response systems), by asking Socratic questions, emphasizing reasoning, and probing student thinking.
The Activity Model for Inquiry: Reflective Writing Prompts part of Process of Science:Examples
Reflective writing is be a valuable communication tool between instructor and student that fosters critical thinking. When combined with a better model of the scientific method (the AMI) than the "standard" linear model, learners gain a better understanding of the process of science.
Video Presentation Sessions part of MnSCU Partnership:PKAL-MnSCU Activities
Provide opportunities to experience historic and/or current scientific information through audio/visual media. Further, these sessions allow students to express and discuss their understanding of the science content and its relevance prior to writing a summary.
Written Assignment Sessions part of MnSCU Partnership:PKAL-MnSCU Activities
Provide students an opportunity to read scientific literature, express understanding of scientific content and write a summary of the written work.
Mineral Cleavage: a practical experiment part of Process of Science:Examples
In this geology activity, students investigate the physical property of mineral cleavage by physically trying to break down a block of halite and describing the results. This lab addresses many misunderstandings non-majors have about the physical properties of minerals and includes a brief write up of their conclusions.
Scientific logic: An application to meteorological observations part of Process of Science:Examples
A sample question/problem in which students are asked to apply the logic of scientific evidence to statements about weather patterns, based on observations on a typical surface weather map.
Unraveling Geological History: Glaciers and Faults at Discovery Park, Seattle part of Process of Science:Examples
This introductory geology field exercise asks students to make individual observations about parts of an outcrop, then combine their observations in larger teams to interpret the overall geological history of the exposure. Content learning includes stratigraphy, faulting, and local geologic history; process learning includes data gathering and recording, hypothesis formation, and outlining helpful evidence that could be gathered in the future.
Density, Isostasy, and Topography part of Process of Science:Examples
Anne Egger, Stanford University The original activity Density, Isostasy, and Topography already exists within the SERC website. This page describes how this activity can be used to teach about the process of ...