1. Begin the lesson with a lively discussion that investigates students’ conceptions about radiant energy. Describe what a solar cooker is and spend several minutes eliciting students predictions about what types of materials will be best for use in constructing a solar cooker.

2. Allow students to investigate the virtual solar cooker (Virtual Solar Cooker interactive simulation) and prompt them to try to figure out which combination of materials performs the best as a solar cooker. Remind students to make notes about their virtual solar cooker’s performance in Part 1 (Virtual Solar Cooker Wrap-up) of the PDF below.

Solar Cooking Student Handout PDF Document

3. Discuss the results of investigating the virtual solar cooker with the students. Define transmission, reflection and absorption for the students and introduce the expression, I= T + R + A. Depending upon the level of your students, this may be more of a lecturing activity rather than discussion. Having sample materials to cite examples from the list for Part 2 is suggested.

A suggested demonstration is to throw crumpled pieces of paper at students to illustrate how this is an example of what happens when light strikes a surface (the pieces of paper caught are absorbed, those falling to the floor are transmitted and those bouncing off are reflected.)

4. Have students work in small groups to rank the materials included in Data Table 1 on page 2 of the PDF below.

Solar Cooking Student Handout PDF Document

5. Share physical models of each of the three types of solar cookers (box, panel, parabolic.) If presenting physical examples is not possible, digital images will work well and the Solarcooking.org website referenced in the Multimedia Resources section of this lesson is a great source. Give a short lecture describing the function of each component of a solar cooker (cover or glazing, insulation, reflector). Instructions for constructing each type are included in the Additional References section of the PDF below.

Solar Cooking Teacher's Notes PDF Document

A short movie link available from The Solar Cooking Archive may also be of interest.

6. Divide the class or allow students to sort themselves into teams of 2 to 3 and set them to work on Part 2 (Select a Solar Cooker and Test Your Predictions) of the PDF below.

Solar Cooking Student Handout PDF Document

While working through Part 2 each student team needs to decide what type of solar energy collector will best cook the food that they choose. Students may not realize that the cooker cannot reach temperatures much higher than about 300º F, so they may need some coaching away from cooking things like raw meat. They will also need to generate their list of materials based upon their relative properties of transmittance, reflectance and absorbance. An extensive sample materials list is provided in the materials section and the Frequently Asked Questions document from The Solar Cooking Archive embedded in the PDF below. (This may be a useful document to share with students.)

Solar Cooking Teacher's Notes PDF Document

7. Assist students in making connections to the mathematical expression, I = T + R + A in question #3 (Part 2) on page 4 of the PDF below.

Solar Cooking Student Handout PDF Document

8. Students will then sketch their solar cooker (question #4 of Part 2 of the PDF below.

Solar Cooking Student Handout PDF Document

Question #5 prompts them to figure out how to measure the temperatures reached by the solar cooker. If necessary, interject a short lecture on how to collect temperature data, otherwise, allow students to devise their plan and make a data table.

9. Allow students to proceed with construction and testing of their cookers.

10. Once all teams have had an opportunity to test the cookers, allow students to investigate others’ designs and debrief the experience by sharing the data collected for each cooker and analyzing the success of each type of cooker. Students may do questions 6-10 (Solar Cooking Thought Questions) in the PDF below as part of the in-class wrap-up or for homework.

Solar Cooking Student Handout PDF Document

11. Allow students to explore some of their ideas from question 10 in the PDF below.

Solar Cooking Student Handout PDF Document

Visit the Solar Oregon’s site for resources on the topics of why solar energy, solar for schools, and types of solar energy systems Resources for Teachers and Kids.

12. A sun path chart can be made for your town/school at the University of Oregon’s Solar Radiation Monitoring Laboratory using “Sun Chart.”