• Views 565
  • Favorites
Photo by Andy Barbour via Pexels

Database Provider

Topic

Design Thinking

Grades

9th, 10th, 11th, 12th

Subjects

Science, Social Studies, Engineering

Duration

105 minutes

Regional Focus

Global

Format

Google Docs, Google Slides

Share

This lesson plan is licensed under Creative Commons.

Creative Commons License

Climate Solutions Scenarios with En-ROADS

Created By Teacher:
Last Updated:
Feb 29, 2024
|
Ask a Question

SubjectToClimate

Synopsis
In this lesson, students explore the effectiveness, co-benefits, and equity of climate solutions and create a climate action scenario to limit global warming to 1.5°C using Climate Interactive’s En-ROADS simulator.

Step 1 - Inquire: Students wonder about the composition of the atmosphere and analyze the relationship between global temperature and atmospheric CO2.

Step 2 - Investigate: Students become familiar with the En-ROADS simulator and explore the real-world impact of different climate actions, including the co-benefits, equity considerations, and effect on global temperature.

Step 3 - Inspire: Students create an En-ROADS scenario of effective and equitable climate actions that limits the rise in global temperature to 1.5°C by the year 2100.
Accompanying Teaching Materials
Teaching Tips

Positives

  • This lesson can be integrated into a science class studying climate change, a social studies class studying civics, an economics class, or a world languages class, as En-ROADS is available in several languages.

  • This lesson provides students with step-by-step entry-level access to the internationally recognized En-ROADS (Energy-Rapid Overview and Decision-Support) simulator developed by Climate Interactive, MIT Sloan Sustainability Initiative, and Ventana Systems.

  • En-ROADS uses the most current climate science from the International Energy Agency (IEA), the United States Energy Information Administration (EIA), Share Socioeconomic Pathways projected scenarios (SSP), and the Intergovernmental Panel on Climate Change (IPCC). The equations are calibrated against past and current scientific and economic data and updated monthly.

Additional Prerequisites

  • Teachers should follow the prompts in this lesson to design their own En-ROADS scenario before guiding students. Prior experience with the En-ROADS simulator will allow teachers to more easily demonstrate how to use the control panel, graphs, data, and supporting explanations of slider actions.

  • This lesson assumes that students have a basic understanding of the causes and impacts of climate change. If students need a refresher, the following Climate Interactive resources can be reviewed prior to the lesson:

  • Students should be comfortable using appropriate terms for climate data: parts per million (ppm) and temperature in degrees Celsius (°C).

  • Students will need access to devices and the Internet to use Climate Interactive’s En-ROADS simulator.

Differentiation

  • Students can design a campaign advocating for a particular climate solution using the data from their En-ROADS scenario to support their ideas.

  • Students could create scenarios based on the best solutions for different priorities, such as cheapest, fastest, most equitable, or most realistic, and then participate in a debate about the solutions.

  • Instead of the jigsaw activity, students can read the multisolving resource and complete the table as homework.

Scientist Notes

Students can learn about climate equity in this lesson as well as how to utilize the En-ROADS simulator to predict various climate scenarios. Through the simulation exercise, they will gain knowledge on strategies that could cut or eliminate GHG emissions to stop climate change. The lesson passed our science assessment after the simulator and other lesson resources were rigorously fact-checked.

Standards

This resource addresses the listed standards. To fully meet standards, search for more related resources.

Supporting Standards

  • Science
    • ESS3: Earth and Human Activity
      • HS-ESS3-4. Evaluate or refine a technological solution that reduces impacts of human activities on natural systems.
    • ETS1: Engineering Design
      • HS-ETS1-3. Evaluate a solution to a complex real-world problem based on prioritized criteria and trade-offs that account for a range of constraints, including cost, safety, reliability, and aesthetics, as well as possible social, cultural, and environmental impacts.
      • HS-ETS1-4. Use a computer simulation to model the impact of proposed solutions to a complex real-world problem with numerous criteria and constraints on interactions within and between systems relevant to the problem.

Note On Standards:

This lesson is aligned to SubjectToClimate standards. Review the aligned standards directly in the lesson plan document and teacher slideshow.

Discover more on SubjectToClimate.
Related Resources

Reviews

Login to leave a review