Echoes and sonar - CCEAHigher tier: using microphones and data logger

Sound is caused by the vibration of particles but not all vibrations can be heard as sound. Common ideas about sound come from the limited range of vibrations that human ears can detect.

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Higher tier: using microphones and data logger

A data logger can measure and record the time taken for sound to reach two microphones. Unlike the clap-echo method, these can be quite close together.

A ringing bell emits sound waves from left to right, towards two spaced microphones. The distance between them is labelled 'Measured distance (d)' and they are connected to a laptop computer with '0.010 Sec' on the screen, next to the formua: 'speed of sound = measured distance/time on computer'
Using a data logger and microphones to measure the speed of sound

For example, two microphones are 3.4 m apart.

The data logger switches on when the sound from the bell reaches the first microphone, and off again when the sound reaches the second microphone.

The data logger recorded a time of 0.01 s for the sound to travel between the microphones.

Speed = \(\frac{\text{distance}}{\text{time}}\)

Speed = \(\frac{3.4}{0.001}\)

Speed of sound = 340 m/s.

This method works because there is no human reaction time involved starting and stopping the clock and because the microphones are more sensitive than human ears.

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