Calculating Sound Intensity at a Distance from a Speaker

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To calculate sound intensity 2 meters from a speaker producing 100 watts of power, the correct formula is I = P/A, where A represents the area over which the sound spreads. The area can be determined using the formula for the surface area of a sphere, A = 4πr², or for a hemisphere if sound only travels forward. At a distance of 2 meters, the area would be 4π(2)² for a full sphere or 2π(2)² for a hemisphere. Understanding that intensity is the power per unit area helps clarify the calculation. This approach allows for accurate sound intensity determination based on the speaker's output.
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I have been given this question: What is the sound intensity 2 metres from a speaker which is producing a sound at 100 watts of power?

I know the equation is I=P/A but i don't know if "A" stands for amplitude or area. Some books/sites say amplitude and some say area. But if it is area...I don't actually have an area...just a distance. So...what do I do??

Thanks everyone for your help in advanced!

-tash
 
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Sometimes one assumes the speaker is a source for sound waves that travel radially outward *in all directions*. Then you can visualize a spherical shell of the advancing sound waves moving outward; the distance from the speaker is the radius of this sphere, whose area you can now determine (see your texts). If you instead consider the speaker as a source of sound that only moves in a hemisphere outward, then you'll want half the previous area (pretending that no sound goes behind the speaker, only in front). Intensity is a "density" of sound, as the finite amount of energy in the waves spreads out over a larger and larger area...I=Power/Area.
 
ohhhhh so I would use Pie X R^2 with r as 2m to find the area!
omg thank you soooo much!

tash
 
actually, not quite... that's the formula for the area of a circle, yes??
Bear in mind that what you actually have is a hemisphere/sphere.
 
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