Add to List

Grades 6–8. In this unit students answer the question, "How can a sound make something move?" The observation of an interesting phenomenon—a truck playing loud music and nearby windows shaking in response—leads students to investigate how sounds are produced, how they travel through matter, and how they affect other objects. Kit includes basic teacher access to instructional materials on CarolinaScienceOnline.com, plus materials to teach 5 classes of 32 students per day (160 students).

For additional program information and pricing, complete this form or contact your sales representative.

Grades 6—8. In Unit 8.2 Sound Waves, Carolina Certified Version*, students work to answer the Unit Driving Question: "How can a sound make something move?"

Students begin the sound unit by considering an interesting phenomenon: a truck is playing loud music in a parking lot and the windows of a building across the parking lot visibly shake in response to the music. Students then generate questions about three aspects of sound phenomena:
1) What makes sound?
2) How does sound get from the truck to the window?
3) Why does the window shake?

Students engage in model-based reasoning, argumentation, and computational and mathematical reasoning to develop models to explain these three aspects of the mystery:

• By investigating factors including loudness and pitch, students develop a model of vibration that captures important ideas about how changes in the frequency and amplitude of the vibrations can explain these different characteristics of sounds. Students use this model of vibration to answer their initial questions about what causes different sounds.
• By testing various types of materials and using interactive computer models, students figure out how sound travels from one location to another by causing sequences of vibrations through matter. What they figure out helps students answer their initial questions about how sound is traveling from a sound source to our ears.
• By reasoning with the models they have developed, students also figure out how sounds can be absorbed and transmitted. In particular, they figure out how the energy transferred by the sound wave depends on both frequency and amplitude of a sound wave, and is more affected by its amplitude than the frequency. What students figure out helps them answer their initial questions about how objects that are not touching a sound source can shake in response to sound.

This 5-Class Unit Kit includes basic teacher access to instructional materials on CarolinaScienceOnline.com, plus the materials needed to teach 5 classes of 32 students per day (160 students).

Building Toward NGSS Performance Expectations

• MS-PS4-1: Use mathematical representations to describe a simple model for waves that includes how the amplitude of a wave is related to the energy in a wave.
• MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

Science and Engineering Practices

• Developing and Using Models
• Using Mathematics and Computational Thinking
• Engaging in Argument from Evidence

Focal Disciplinary Core Ideas

• PS4.A

Focal Crosscutting Concepts

• Patterns
• Scale
• Proportion
• Quantity

*All enhancements to materials and instruction for this Carolina Certified Version of the unit are approved by OpenSciEd to preserve the integrity of the storyline and the instructional model.