Sound intensity and ocean microphone

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SUMMARY

The forum discussion centers on calculating the distance a porpoise can be from an ocean microphone while still being heard, given a sound intensity threshold of 10.6 dB and a sound power output of 0.0502 W. The correct intensity calculation yields 1.148E-11 W/m², leading to a distance of 1.87E+4 meters. The initial miscalculation arose from an incorrect intensity value, which was ten times larger than the correct figure. The final resolution confirms the accurate distance using the formula r = √(P/(4πI)).

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  • Understanding of sound intensity and decibel calculations
  • Familiarity with the formula for sound propagation: I = P/(4πr²)
  • Basic knowledge of logarithmic functions and their applications in physics
  • Concept of sound power and its relationship to distance in a medium
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  • Study the principles of sound intensity and its measurement in different mediums
  • Learn about the effects of distance on sound propagation in water
  • Explore advanced applications of logarithmic calculations in acoustics
  • Investigate the impact of environmental factors on sound transmission underwater
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Acoustics researchers, marine biologists, and anyone involved in underwater sound monitoring and analysis will benefit from this discussion.

Corky
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The problem states:
A microphone in the ocean is sensitive to sounds emitted by popoises. To produce a usable signal , sound waves striking the microphone must have an intesity of 10.6 dB. If porpoises emit sound waves with a power of 0.0502 W, how far can a porpoise be from the microphone and still be heard? Disregard ansorbtion of sound waves by water.

I tried putting 10.6 decibels in the equation dB=10Log(I/Io)
and I solved for intensity to be 1.148E-10W/m^2

I then used that number in the I = P/4pi r^2 formula.
Solving for r I got 5.89E+3m.

But the right answer it the book is 1.87E+4
Can anyone tell me where I went wrong??
 
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Originally posted by Corky
A microphone in the ocean is sensitive to sounds emitted by popoises. To produce a usable signal , sound waves striking the microphone must have an intesity of 10.6 dB. If porpoises emit sound waves with a power of 0.0502 W, how far can a porpoise be from the microphone and still be heard? Disregard ansorbtion of sound waves by water.

10log(I/(10^-12)) = 10.6
log(I/(10^-12)) = 1.06
I/(10^-12) = 10^1.06
I = 1.148e-11

I = P/(4pi r^2)
r^2 = P/(4pi I)
r^2 = 0.0502/(4pi 1.148e-11)
r^2 = 3.4797e8
r = 18654m
r = 1.87e4

I think the error was in what you thought the value for I was. Your I is 10x as big as mine.
 
Nice thanks
 

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