What is the intensity of sound at the pain level of 120 dB?

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The intensity of sound at the pain level of 120 dB is calculated to be 10^12 W/m^2, while a whisper at 20 dB has an intensity of 10^2 W/m^2, making it 10^10 times less intense. The discussion clarifies that the reference intensity (I0) used in calculations should be the threshold of hearing, which is 1.0 x 10^-12 W/m^2, not 1 W/m^2. Misunderstandings about the equations and values used led to confusion regarding the sound intensity calculations. Correcting these values is crucial for accurate sound intensity assessments. Understanding these calculations is essential for comprehending sound levels and their effects on human perception.
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What is the intensity of sound at the pain level of 120 dB? Compare this to that of a whisper at 20 dB?

b=10 log (I/ I0)
120 dB=10 log (I/1)
10^12=(I/ 1)
I= 10^12 W/m^2


b=10 log (I/I0)
20 dB=10 log (I/1)
10^2=(I/1)
I=10^2 W/m^2


The intensity of 120 dB would be 10^12 W/m^2 compared to the whisper with the intensity at 10^2 W/m^2 which equals 10^10 more intense.

Sound good?
 
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How did I0 become 1? Where did you get that from?
 
This is the pain threshold
 
This should look better:

SL=10 log(Sl/10)
I=Io10^(sl/10) = (1.0*10-12 W/m^2) = 1 W/m^2


SL=10 log(Sl/10)
I=Io10^(sl/10) = (1.0*10-12 W/m^2) = 1.0*10^-10 W/m^2
 
needhelp83 said:
This should look better:

SL=10 log(Sl/10)
I=Io10^(sl/10) = (1.0*10-12 W/m^2) = 1 W/m^2


SL=10 log(Sl/10)
I=Io10^(sl/10) = (1.0*10-12 W/m^2) = 1.0*10^-10 W/m^2
It sounds to me like you are trying to use the answer to find the answer. The things I highlighted in red in your quote are not equalities. I think your first equation was OK, but I_o is not the pain threshold; it is the threshoold of hearing, the 1.0*10-12 W/m^2. If you had used that instead of 1 in your original equation, you would have found the correct value for I. The value you got initially would knock your head off.

http://hyperphysics.phy-astr.gsu.edu/hbase/sound/intens.html
 
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