Sustainability ActivitiesThese activities have been submitted by faculty from a range of disciplines. The activities use a wide array of pedagogic approaches to address various aspects of sustainability, science and societal issues.
Grade Levelshowing only College Lower (13-14) Show all Grade Level
Subject: Environmental Science
- Water Quality and Quantity including water resource management, water quality and water treatment
- Energy sources, supply, reserves, uses
- Mineral Resources includes precious metals, base metals, industrial minerals, aggregate
- Soils and Agriculture
- Oceans and Coastal Resources
- Land Use and Planning planning, zoning, sprawl issues, urban heat island
- Human Population
- Global Change and Climate
Results 1 - 20 of 27 matches
The Ecological Footprint Dilemma
Bruno Borsari, Winona State University
How big is your ecological footprint? This case will assist students in quantifying this construct and allow them to reflect on life styles and alternative approaches that can help them reduce their ecological impacts.
Sustainability Buffet -- What's in a Definition?
Laura Webb, University of Vermont and State Agricultural College
This is an introductory activity to generate student discussion and provoke thought on the definition of sustainability.
Financial Incentives of Open Access Resource Overuse
Chris McIntosh, University of Minnesota-Duluth
In this activiy when property rights are absent participants have financial incentive to take what they can get immediatly as opposed to waiting until the resource is more valuable. Adding strong property rights provides the proper finanacial incentives for students to wait to extract the resource when it is most valuable.
Exploring Easter Island Economics with Excel
Morris Coats, Nicholls State University
Using concept mapping to experientially introduce systems thinking
Meghann Jarchow, University of South Dakota
This activity uses concept mapping as a tool for students to experience the complexity that is inherent in many sustainability-related issues.
Service-Learning to explore Sustainability
Tracy Lai, Seattle Community College-Central Campus
Service-Learning is a means of exploring sustainability and connecting experiential learning with academic study of the topic.
Seminar on Sustainability in Europe: What are the Limits of Possibility?
Mary Ann Cunningham, Vassar College
This field trip presents a model of an experiential exploration of sustainability systems and the limits of possible transfer of ideas from Europe to the US. In addition to experiential learning, our aim was to have in-depth, ongoing conversations in which to examine our assumptions and observations.
Game Assignment for Environmental Economics
Nelson Altamirano, National University
Game Assigment for Environmental Economics and Sustainability
Pablo Toral, Beloit College
The students develop, implement and assess a project that will make our campus more sustainable.
Sustainable Urban Adventure
Thomas Beery, University of Minnesota-Duluth
In this field based activity students explore their new home in an effort to get acquainted with the community beyond the campus and to experience accessible recreation on a nationally recognized hiking trail. During the nature-based outdoor recreation experience, students explore a variety of natural and cultural history topics.
How Much Oil Leaked from Deepwater Horizon?
Stephen Boss, University of Arkansas Main Campus
Students develop an estimate of the total quantity of petroleum discharged from the Deepwater Horizon from 20 April to 15 July 2010 using only two known facts, the diameter of the riser and the flow rate of the oil/gas mixture emanating from the riser.
Analysis of trends in global oil reserves, production, and consumption
Scott Cummings, Kenyon College
An exercise to analyze trends in global oil reserves, production, and consumption.
Earth Resources in the Classroom
Maureen Muldoon, University of Wisconsin-Oshkosh
This is a brief, in-class exercise designed to get introductory students in a large-lecture class to appreciate that many of the things in their life are made from earth resources. I have the students break into small groups and then list five items in the classroom that contain earth resources and five things that do not contain earth resources.
Back of the Envelope Calculations: Renewable Energy
Laura Rademacher, University of the Pacific
This is an example of a back of the envelope calculation of the payback period for a renewable energy installation.
Using Lab Measurements to Determine the Feasibility of a Photovoltaic Panel
Tom Termes, Black Hills State University
Using Lab Measurements to determine the power output of a solar module and the economic feasibility of photovoltaic panels
Introduction to Global Climate Change Through Classroom Discussion
Becca Edwards, Southwestern University
A classroom discussion about global climate change designed for a general undergraduate classroom. Discussion is facilitated by a 10-15 minute brainstorming session or gallery walk.
Stabilization Wedges Game
David Kobilka, Central Lakes College-Brainerd
Learning about complexities carbon stabilization firsthand with the Princeton University Carbon Mitigation Initiave's Sabilization Wedges Game
Offshore wind or offshore oil?
Noah Snyder, Boston College
An introductory environmental science project tasking students with comparing offshore oil and wind power development.
Action to Enhance Sustainability
Bill Stigliani, University of Northern Iowa
This assignment is a 10-hour, out-of-class project where each student designs and carries out an action plan to enhance sustainability. Students select from a large suite of alternative actions, most of which can be quantified for reductions in CO2 and energy consumption, as well as in dollar savings.
Exploring sustainability through water cycle connections
Tim Lutz, West Chester University of Pennsylvania
During this module students use multiple experiences (reading, video, the outdoors, a survey of their water footprints, writing, and lots of discussion) to examine how life today, in comparison to pre-industrial times, makes our connections to water virtually invisible. Students use the class's water footprint results to find out how agricultural and industrial water uses link us to people distant in both place and time. They weigh the consequences of these invisible connections in creating the lost sense of dependence and responsibility that typifies unsustainability. Students study the variability of water footprints within our class to help identify more sustainable personal choices. They consider the activity of a local watershed association to educate and involve people in improving the quality of local streams as a model of how community action can accomplish what individuals cannot.