Cornell Lab of Ornithology
Amazing Birds
What's so amazing about birds? Find out just how amazing birds are with a physics of animal behavior unit created by Cornell Lab of Ornithology. Have learners explore and tap into their observational skills and notice how birds fly, what...
Virginia Department of Education
Sound
Add a little music to your next physics class. Pupils discuss how frequency determines pitch and take part in several activities designed to teach them more about sound, melody, resonance, and vibrations. They use materials to construct...
Scholastic
Study Jams! Renewable Fuels
A single slide introduces each of the following renewable energy sources: hydroelectric, wind, geothermal, solar, tidal, and biomass. This provides a succinct overview that you can use as a visual aid when you first introduce alternative...
DiscoverE
Slinky® Science
Toys are great for learning about physics. Scholars use Slinky® toys to study Newton's laws of motion and types of energy. After a little play, they then model longitudinal and transverse waves with the Slinky® toys.
Curated OER
Mission Possible: Energy Trade-offs
Teams of electrical engineers work together to develop plans for increasing electricity to a fictitious, but growing community. They consider different sources of electricity, both renewable and nonrenewable, the cost of building and...
Curated OER
Sound Busters
Fourth graders engage in a study of sound pollution at their school. After a class discussion on what noise pollution is, learners are asked if they think there are areas of their school or community where noise pollution is a problem....
Curated OER
Sound
Third graders explore sound. They describe sounds in terms of their properties and explain how sounds are made. Students discuss how various sounds sound to their ears and how sound travels in waves.
Curated OER
Telecommunication: Sound Waves
Some interesting diagrams here will pique your students' interest as they discover what is actually inside the telephone that they use every day! The frequency and amplitude labels then lead to further details about sound and waves of...
Cornell University
Sound Waves
How does sound travel through different mediums? Scholars explore this question by creating and observing sound waves as they learn the difference between transverse and longitudinal wave motion. Using their new knowledge, class members...
PBS
Volume and Amplitude | UNC-TV Science
Future physicists pump up the volume while discovering the world of sound waves. Group members learn about the qualities of sound waves, the relationship between energy and sound volume, and the definition of amplitude while viewing an...
Curated OER
Energy At Play
If you can find Tinker Toys™, then this may be a fun assignment for your physical science class. Using the construction set and a few other toys, they examine the forces involved when it they are being played with. For each, they...
National Wildlife Federation
An Energy Mix: Renewable and Nonrenewable Resources
What did the windmill say about renewable energy? I'm a BIG fan! Lesson three in the series of 12 has classes discuss potential and kinetic energy and then, in pairs, they complete a web quest over the different types of energy...
Curated OER
Sources of Energy
Fifth graders take a close look at how energy changes from one form to another within their surroundings. They also study the ten different sources of energy and determine which are renewable and which are non-renewable. This seven-page...
Curated OER
Listening Devices
Students design and construct a listening device that will allow them to listen to the sound generated by specific object inside a box.
K12 Reader
Converting Energy to Motion
Combine science and reading skills with a reading comprehension exercise. Kids read four paragraphs about energy conversion and answer some reading comprehension questions about the information they have read.
CK-12 Foundation
Pan Flute
How can a pan flute sound one note while we hear a chord? The simulation explores sound waves, vibrations, and harmonics at the molecular level. Scholars control the pipe into which air is being blown, the length of the pipe, and which...
Teach Engineering
Exploring Energy: Energy Conversion
The energy is not really lost, it is just converted to a different form. Pupils learn about the conversion of energy in the fifth segment of an energy unit with six parts. Learners develop an understanding of the conservation of energy...
Curated OER
The Phenomenon of Sound: Waves
Students explore sound waves. In this sound waves lesson plan, students brainstorm different sounds and how sounds move or travel. Students then create a KWL chart and work through six different lab activities to examine how sound waves...
Curated OER
Energy Transformation with Balance Toys
Students explore and identify the concepts of potential and kinetic energy. They define kinetic and potential energy and discuss examples of each. Students then play a game involving balance toys, demonstrating both kinetic and potential...
Curated OER
Energy Transformation with a Top
Second graders examine both potential and kinetic energy. After discussing the difference and examples of potential and kinetic energy, they participate in a game of "Show Me Potential Energy/Show Me Kinetic Energy" using toy tops.
Curated OER
Energy Transformation with Simple Machines
First graders identify both potential and kinetic energy in a game they play in the classroom. They listen as the teacher explains the difference between potential and kinetic energy when observing a simple machine. Using simple...
Curated OER
Animal Challenge 4
In this sound energy instructional activity, students predict what happens when bats bounce sounds off of walls to communicate. Students complete 2 questions.
Exploratorium
Vocal Visualizer
Make sound visible with an activity that provides directions for how to build a vocal visualizer meant to create light patterns. Making noise into the visualizer causes a mirror to vibrate, reflecting a laser beam, and creating the...
Savvas Learning
Let's Get Moving
Scholars examine, cut, paste, and sort 12 images featuring different types of movement in order to show what they know about energy—potential and kinetic.