Micron Technology Foundation
Electricity
Conduct four electrifying electricity experiments that challenge young scientists to explore positive and negative charges and magnetic fields without the shock.
Institute of Electrical and Electronics Engineers
Get Connected with Ohm's Law
Ideal for your electricity unit, especially with middle schoolers, this lesson plan gets engineers using multimeters in electrical circuits to explore the relationships among voltage, current, and resistance. Older learners may even plot...
Institute of Electrical and Electronics Engineers
Working with Watermills
In collaborative groups, emerging engineers or environmental scientists plan and construct a water wheel or watermill that rotates for a total of three minutes. Everything you need to carry out this instructional activity is included:...
Scholastic
Study Jams! Energy & Matter
After Sam knocks a glass off the lunchroom table, he uses it as a springboard for explaining kinetic and potential energy. He mentions that sound is a type of kinetic energy and introduces the different forms of energy: thermal,...
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
Wind Power: A Hands on Experience
Turn a learning experience into a fun lesson. Future engineers create blades for a wind turbine using card stock. Using a fan, they test how well the blades help the wind turbine turn. The goal is to build blades that are effective...
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...
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 lesson 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...
PBS
Locker Lights
Light up a locker for a more festive hallway! Scholars learn about electric currents, LEDs, and switches, then experiment with their own circuits. They use the circuits to design and build locker decorations that light up when turned on...
Bonneville
Solar Tracker Challenge
Follow the light—not with one's eyes—but with a special solar tracker. Future engineers design and build a device that tracks light. They must build circuits in which solar cells rotate to receive equal amounts of light.
Museum of Science
Sound Sandwich
Not all sandwiches are tasty. Scholars use basic materials to build an instrument called a sound sandwich. They see how blowing on the instrument causes rubber bands to vibrate, which produces sound waves.
Museum of Science
Solar Cooker
A warm, sunny day is perfect for eating great food and learning about science at the same time. Future engineers build solar cookers to prepare food using the Sun's rays. They learn how energy converts from solar energy to thermal energy.
Museum of Science
Paddle Boat
Harness the power of rubber bands of all things. A hands-on activity has scholars design and build paddle boats. They learn how the elastic potential energy of rubber bands can be converted to the kinetic energy associated with motion.
Museum of Science
Egg Bungee
Think bungee jumping looks scary? Knowing the science behind bungee jumping might make it less so. Using an egg and rubber bands, young engineers model bungee jumping. They test the distances that the egg falls for different numbers of...
NASA
Moon Power - Energy and Power
Be over the moon about finding a resource on lunar power stations. An interesting unit composed of 10 lessons has pupils first learn about the energy and power needs of a futuristic lunar colony. They design and build a lunar power...
Museum of Science
Wind Turbine
Let the energy blow. Using mostly easily found material such as PVC pipe and fans, pupils build wind turbines. Scholars connect a multimeter to an electric motor to determine the amount of energy generated by their designs. Learners then...
NASA
Providing Light for Your Plants
Using a guided lesson, pupils learn about what it takes to make a circuit along with a switch. They build a complete circuit under the direction from the teacher and identify each of the elements of the circuit. Scholars then learn to...
Rube Goldberg
Rube Goldberg's Simple Normal Humdrum School Day
If you're going to build a machine, you might as well make it interesting and amusing. A set of eight lessons and activities introduces simple machines using Rube Goldberg machines. A culminating project challenges techies to create and...
Purdue University
Light – Just Right!
What does it mean to be resistant to electricity? Scholars answer the question in a six-part STEM lesson on electricity. They begin by assessing the conductivity of several different materials and progress to designing their own circuits...