Deriving a formula for calculating dB based on distance

AI Thread Summary
The discussion focuses on deriving a formula to calculate decibel (dB) levels based on distance from a sound source. The initial dB level at 1 meter is given as 60 dB, and the goal is to find the dB level at 2 meters. The intensity of sound decreases with distance, following the principle that sound spreads over the surface area of a sphere. The formula dB = dBi - 20 log10 (r2/r1) is used to find the dB level at the new distance, leading to a calculated value of 54 dB at 2 meters. The conversation emphasizes understanding the relationship between intensity, power, and distance in sound propagation.
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Homework Statement



Decibel level from source at 1.0 m is 60.0 dB

Find dB level at distance 2.0 m.


Homework Equations



dB = 10 log10 (I/I0) <- this one I know but couldn't see an application.

Forgot to add that I0 is equal to 1.0 x 10^-12 W/m^2

dB = dBi - 20 log10 (r2/r1), where r2 is the farther sound source and r1 is the closer one.



The Attempt at a Solution



I arrived at the correct answer of 54.0 dB by using the looked up formula. But I'd rather know how to derive that formula that relates the source distances myself. I tried for a while but am unable to do it. Anyone able to give me some insight on how to arrive at the second formula?
 
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The intensity of sound diminishes with distance from the source in the same way as light or strength of gravity - because it spreads out in space. The source has a certain power in watts. You can find out the intensity (watts per meter squared) at a distance r by realizing that the power spreads out over the surface area of a sphere with radius r:
I = P/(4πr²)
You can use this once to find the P since you know I at distance 1 meter. After you know P, use it again to find the I at distance 2 meters.

The decibel level is really just a comparison of two sounds as you see from dB1 = 10 log10 (I/I0). Put in the values of I and I0 to see what it is. It will, of course, be negative because the I is lower than I0. The sound at 2 m is so many decibels lower than the sound level at 1 m.

Decibel level from source at 1.0 m is 60.0 dB
This is a whole other definition of dB. Some intensity has been defined as being 1 dB and the formula has been used to find that the intensity of this sound at distance 1 m is 60 dB louder than the defined value. Take the 60 dB and subtract the dB1 value you calculated earlier to get this relative db value at 2 m. Say it is 6 dB lower than the 60 dB sound; then it is 54 dB relative to the original defined value.
 
Appreciate the help Delphi. I can see the relationship now.
 

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