A wireless transmitting microphone is mounted on a small platform that can roll down an incline, directly away from a loudspeaker that is mounted at the top of the incline. The loudspeaker broadcasts a tone that has a frequency of 1.000 × 104 Hz, and the speed of sound is 343 m/s. At a time of 1.5 s following the release of the platform, the microphone detects a frequency of 9733 Hz. At a time of 3.5 s following the release of the platform, the microphone detects a frequency of 9378 Hz. What is the acceleration a (assumed constant) of the platform? = a i

A wireless transmitting microphone is mounted on a small platform that can roll down an incline, directly away from a loudspeaker that is mounted at the top of the incline. The loudspeaker broadcasts a tone that has a frequency of 1.000 × 104 Hz, and the speed of sound is 343 m/s. At a time of 1.5 s following the release of the platform, the microphone detects a frequency of 9733 Hz. At a time of 3.5 s following the release of the platform, the microphone detects a frequency of 9378 Hz. What is the acceleration a (assumed constant) of the platform? = a i

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter16: Electromagnetic Waves

Section: Chapter Questions

Problem 32CQ: When a television news anchor in a studio speaks to a reporter in a distant country, there is...

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A wireless transmitting microphone is mounted on a
small platform that can roll down an incline, directly
away from a loudspeaker that is mounted at the top
of the incline. The loudspeaker broadcasts a tone
that has a frequency of 1.000 × 104 Hz, and the
speed of sound is 343 m/s. At a time of 1.5 s
following the release of the platform, the
microphone detects a frequency of 9733 Hz. At a
time of 3.5 s following the release of the platform,
the microphone detects a frequency of 9378 Hz.
What is the acceleration a (assumed constant) of the
platform?
=
i

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