Model of sound waves traveling through air molecules
This scientific model represents the vibration of air molecules created by a sound wave. Using tethered ping pong balls and a 256 Hz tuning fork (sound source), the model shows how air molecules respond to a sound wave by vibrating back and forth, each hitting the one next to it. The model also shows that individual air molecules don’t actually ‘travel’ the length of the wave.
This scientific model represents the vibration of air molecules created by a sound wave. Using tethered ping pong balls and a 256 Hz tuning fork (sound source), the model shows how air molecules respond to a sound wave by vibrating back and forth, each hitting the one next to it. The model also shows that individual air molecules don’t actually ‘travel’ the length of the wave.