TeachEngineering
Teach Engineering: Making Music
In this instructional activity, learners learn about sound. Girls and boys are introduced to the concept of frequency and how it applies to musical sounds.
TeachEngineering
Teach Engineering: To Absorb or Reflect, That Is the Question
This is the last of five sound lessons, and it introduces acoustics as the science of studying and controlling sound. Learners learn how different materials reflect and absorb sound.
TeachEngineering
Teach Engineering: Sounds Like Music
Music can loosely be defined as organized sound. The instructional activity objectives, understanding sound is a form of energy, understanding pitch, understanding sound traveling through a medium, and being able to separate music from...
Other
Deafness Research Uk: How the Ear Works
A collection of several images explains how the ear makes us hear sound.
Science Buddies
Science Buddies: Project Ideas: Make a Phonograph From Everyday Items
In this physics science fair project, the student will use common materials to play back sound from a vinyl record album. The student will investigate what kinds of materials produce the best sound. The Science Buddies project ideas are...
Georgia Department of Education
Ga Virtual Learning: Ap Physics 1: Waves and Sound
Students will understand and predict wave phenomena, and investigate the energy contained in waves. They will gain a deeper understanding of waves and wave interference that will enable characterization and engineering of matter from the...
Other
Transverse and Longitudinal Wave Propagation in an Elastic Medium
Extensive information about how waves behave in an elastic medium. Covers different types of waves, their characteristics and behavior, the anatomy of the ear, the speed of sound in different media, the parts of a wave, and wave phenomena.
Better Lesson
Better Lesson: Jam Jam Jam With a Rubber Band Band
In this very detailed lesson plan, students explore and create a stringed instrument that demonstrates their understanding of sound waves and how energy is transferred. Multiple videos are included showing this lesson in action in a...
Better Lesson
Better Lesson: Properties of Waves
In this direct instruction lesson plan, students draw sketches in their science notebooks in order to make sense of wave properties. Resources include a slideshow presentation on the properties of waves and multiple examples of student...
Other
Marconi Corporation: Marconi Calling
Read about Guglielmo Marconi's life and his scientific achievements in the realm of radio and communications. Hear wireless transmissions, and use the interactive timeline to see the development and use of Marconi's achievements.
Texas Education Agency
Texas Gateway: Sound Interference and Resonance: Standing Waves in Air Columns
By the end of this section, you will be able to define antinode, node, fundamental, overtones, and harmonics; identify instances of sound interference in everyday situations; describe how sound interference occurring inside open and...
Texas Education Agency
Texas Gateway: Physics of Hearing: Sound Intensity and Sound Level
By the end of this section, you will be able to define intensity, sound intensity, and sound pressure level and to calculate sound intensity levels in decibels (dB).
Technovation
Curiosity Machine: Challenges: Make a Signal Horn
Build a signal horn to make low-frequency sounds that can be heard from far away in this STEM lesson. Use this interactive site to document your design process. Included on the site is a video explaining a possible solution to the problem.
Better Lesson
Better Lesson: Communicating With Light and Sound: Fire!
Sound the alarm! Fire alarms and fire trucks are perfect examples of communicating with light and sound. Students will begin to understand the engineering principles behind why fire alarms and fire engines use both light and sound to...
PBS
Pbs Nova: Wild Wolves
What's in a wolf's howl -- a calling card, a warning, or an invitation? Hear the call of the wild, find out how wolves are making a comeback, and discover the ancient connection between dogs and wolves in this feature exhibit.
OpenSciEd
Open Sci Ed: 8.2 Sound Waves Teacher Professional Development Overview
This four-day professional development session introduces teachers to the OpenSciEd materials generally in addition to the 8.2 Sound Waves unit.
OpenSciEd
Open Sci Ed: Unit 8.2 Sound Waves
In this unit, 8th graders develop ideas related to how sounds are produced, how they travel through media, and how they affect objects at a distance.
OpenSciEd
Open Sci Ed: Visualizing Sound in a Medium
This simulation is a slow motion version of what you might actually see if you could see particles in a medium vibrating.
Utah State Office of Education
Utah Science: Properties and Behaviors of Heat, Light and Sound
How can scientists lump heat, light and sound together when investigating properties and behaviors? This learning module will address that question through a series of activities.
CK-12 Foundation
Ck 12: Transmission of Sound
[Free Registration/Login may be required to access all resource tools.] Students explore how mechanical waves are transmitted., and find out what is meant by interference and intensity of sound waves.
PBS
Pbs Learning Media: Mechanical Waves: Interactive Lesson
Learn about mechanical waves, which transfers energy from one place to another through liquids, gases and solids, with this interactive lesson.
PBS
Pbs Learning Media: Sound Waves: Interactive Lesson
Learn about sound waves, which move vibrations from one place to another through liquids, gases and solids, with this interactive lesson.
OpenSciEd
Open Sci Ed: 8.2 Sound Waves
Eighth graders develop ideas related to how sounds are produced, how they travel through media, and how they affect objects at a distance.
Other
Bscs: Content Background for Sound
This document will give you "extra" information and opportunities to build your understanding of sound so that you can be better prepared to facilitate the sound lessons with your students.