The horn in your car produces sound with a frequency of 80 Hz. While sitting at rest, you honk your horn. At thesame time, a car moving toward you at 28 m/s honks an identical horn (80 Hz, just like your car horn). What is thebeat frequency that you hear as a result?O 7.1 Hz24 HzYou don't hear any beats.O 13 Hz40 Hz In an effort to protect your belongings from burglars, you put them in a pile next to your new 900-Watt speaker.You then turn the speak on at its maximum setting, so that its power output is 900 W. An unprotected human earcan tolerate a sound intensity level up to 120 dB before experiencing pain. How close can a burglar get to thisspeaker before experiencing pain if the burglar has no ear protection?8.5 mO 7.3 m9.8 m4.6 mO 3.2 m

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The horn in your car produces sound with a frequency of 80 Hz. While sitting at rest, you honk your horn. At the same time, a car moving toward you at 28 m/s honks an identical horn (80 Hz. just like your car horn). What is the beat frequency that you hear as a result? O 7.1 Hz 24 Hz You don't hear any beats. 13 Hz 40 Hz

The horn in your car produces sound with a frequency of 80 Hz. While sitting at rest, you honk your horn. At the same time, a car moving toward you at 28 m/s honks an identical horn (80 Hz. just like your car horn). What is the beat frequency that you hear as a result? O 7.1 Hz 24 Hz You don't hear any beats. 13 Hz 40 Hz

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter17: Physics Of Hearing

Section: Chapter Questions

Problem 29PE: Loudspeakers can produce intense sounds with surprisingly small energy input in spite of their low...

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