Curated OER
Solar Kit Lesson # 12 - Calibration Curve for a Radiation Meter
Scientists need to have mastered algebraic slope-intercept concepts in order for this lesson to be effective. They will measure and graph solar panel output as a function of the amount of radiation striking it, discovering that there is...
Curated OER
Solar Kit Lesson #7 - Positioning Solar Panels I: Explorations with Tracking
In this first part of a two-part lesson, learners track and record the sun's azimuth using a solar panel. They graph and analyze the data to identify relationships among the time of day, the altitude and azimuth of the sun, and the...
Curated OER
Solar Kit Lesson #3 Parts of a Solar Panel - Part I
A solar cell is similar to a rechargeable battery in many ways. Science lab groups connect each in a series circuit to run a mini motor and then compare and contrast them by answering questions and completing a Venn diagram. This is an...
Curated OER
Solar Kit Lesson #9 - Properties of Solar Radiation: Reflection, Transmission, and Absorption
Middle school science stars observe and record data on the solar radiation reflected off or transmitted through various materials. They predict properties for various materials, and test their predictions by touch. This lesson becomes...
Curated OER
An Environmental Puzzle: The Carbon Cycle
Middle school science stars examine fuels and energy with a variety of activities. They begin with a KWL chart, read an informative passage, and then complete a puzzle. The puzzle itself is included. Cleverly, each piece corresponds to a...
Curated OER
Solar-Powered Prints
Combine art and science with this fabulous lesson plan where your class will create solar-powered artwork! They will create a cyanotype, using photo-sensitive paper, sun, and water. A list of necessary materials is provided.
Curated OER
Cooking with the Sun
Young scholars explore using energy from the sun for heating and cooking as they build and compare the performance of four solar cooker designs. This excellent two-day instructional activity has groups of students build and test a...
NASA
Cloudy vs. Clear - Maps
Find out the science of how clouds keep Earth cooler on hot days. Using guided discussions, investigators analyze and interpret maps of how much solar energy Earth receives at different times of the year. Participants draw conclusions...
NASA
Cloudy vs. Clear - Graphs
Explore the link between solar energy and cloud cover using real data from NASA from China! Future climatologists analyze and interpret graphs of solar energy on clear and cloudy days using a literacy cube. Investigators draw conclusions...
Bonneville
Learning About Solar Updraft Towers
Give it up for updraft towers. Pupils learn about solar updraft towers by first watching a video. They then research these structures on their own and think about how the toys they made in the previous lesson use the same scientific...
Bonneville
Let's Build Our Wind and Solar Energy Toy
Who says toys can't be educational? The fourth of five parts in the Solar Updraft Towers unit has scholars create toys that run on solar and wind energy. The devices need to be solar updraft towers that can be placed on a warm surface...
Bonneville
Where Does Energy Go?
Convection currents aren't just a bunch of hot air. The second of five lessons in the Solar Updraft Towers unit focuses on energy transfer and convection currents. Young scientists watch six demonstrations that illustrate how warm air...
Bonneville
Informative Writing: Where Does Energy Come From?
Get energized about all the different sources of energy. A research project has scholars investigate a renewable or non-renewable energy type of their choice. They write a report on their findings and decide on a way to publish their work.
Bonneville
Solar Powered Water Pumping
Here's the perfect lesson for those who think the world needs faster pumps. Building on the previous activity, scholars work to make the pumps function faster in transferring water between containers. They try adding an additional solar...
NASA
Measuring Solar Energy During an Eclipse
Don't leave your classes in the dark! An inquiry-based lesson has young researchers analyze the light intensity before, during, and after a solar eclipse. They use their data to make inferences about the solar energy available during...
NASA
Comet on a Stick
Since you can't go to the comet, bring the comet to you. Young scientists build models of comets using everyday materials and then participate in a simulation of the interaction between the comet and other bodies in the solar system....
Bonneville
Designing a Faster Water Pump
Things can always be made better. The culminating installment in the seven-part Understanding Science and Engineering unit has pupils design their own water pumps. In groups, they build a prototype of a design of their choice, then test...
Bonneville
Making Observations and Recording Data for Solar Powered Water Pumping
Get pumped about an activity with water pumps. The fifth of seven installments in the Understanding Science and Engineering unit has pupils learn how to make observations, record data, and create data displays. Each group measures the...
Bonneville
A Simple Circuit
Heat up a activity on solar energy by building a circuit for a cooling fan. Given a solar module and a DC motor, scholars develop hypotheses for how to make the fan turn. They test out their hypotheses, and then draw a circuit diagram to...
Bonneville
Solar Powered Calculator
The perfect place to do one's math homework? Outside, of course. The third of seven lessons in the Understanding Science and Engineering unit focuses on solar energy. Learners investigate solar-powered calculators and discover how solar...
Bonneville
Setting Expectations for Science and Engineering Projects
What is science? Sitting in a whole group discussion, scholars first share their ideas on science and how to conduct investigations. They learn about the steps for scientific inquiry and experimentation. Once finished, individuals then...
NASA
Feel the Heat
Heat water up like a NASA engineer. Using the engineering design process, investigators create a system to trap and move heat through a water-filled tube. Designers participate in a post-activity discussion that highlights the role of...
Bonneville
Passive Solar Water Heating
Put empty milk jugs to good use. Scholars consider the characteristics they might change about a milk jug to improve light absorption. They design a passive solar water heater using the milk jug and then measure the temperature change in...
Bonneville
Creating the Most Effective Solar Heater
If changing one variable can improve a design, why not try changing more? Using the results from the previous activity, scholars decide on the variables that caused the most improvement in the effectiveness of the solar heater. They take...