Doppler Reed, 3B40.25

Topic and Concept:

• Wave Motion, [:WaveMotion#Doppler: 3B40. Doppler Effect]

Location:

• Cabinet: [:WavesSoundCabinet: Waves and Sound (WS)]

• Bay: [:WSCabinetRtBayA1:(?)]

• Shelf: #?

attachment:DopplerReed01-400.jpg

Abstract:

An adjustable speed motor rotates an arm with a reed at the end.

Important Setup Notes:

• N/A

Setup and Procedure:

1. List steps for setup then procedure.
2. ...

Cautions, Warnings, or Safety Concerns:

• N/A

Discussion:

As the reed spins around in a circle, the direction of the relative velocity with respect to the observer (the audience) is constantly changing. In terms of the component of tangential velocity in the direction of the audience, the reed has relative velocity toward the audience half of the time and away from the audience the other half. This allows us to experience "both sides" of the Doppler effect. When the reed moves toward us, the frequency appears higher than the actual frequency. Likewise, when the reed moves away, the frequency appears lower. We hear the actual frequency produced by the reed at only two points: where the tangential velocity of the reed is perpendicular to the observer's line of sight. The overall magnitude of the frequency shift depends on the speed of rotation. The higher the speed is, the larger the shift will be. The functional form of this is given by

f_observed = (c + u_observer) / (c + u_source) * f_source

where u is the relative velocity of the object or person with respect to some common point of reference.

Videos:

• [https://www.youtube.com/user/LectureDemostrations/videos?view=1 Lecture Demonstration's Youtube Channel]

References:

• [https://en.wikipedia.org/wiki/Doppler_effect Wikipedia - Doppler Effect]

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