[Soundwaves] Energy and decibel

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The discussion revolves around calculating the energy transmitted through an open window from a classroom with a sound level of 101 dB over 40 minutes. The key equations used include intensity (I = P / 4πr²) and the decibel formula (β = 10log(I/I0)). The calculated results indicate a power output of 0.069 W, energy transmission of 166 J, and a decibel rating of 46.4 dB at a distance of 1 km from the classroom. Participants express confusion regarding the significance of the window dimensions in the calculations. Overall, the thread focuses on solving the energy and decibel rating problem related to sound transmission.
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Homework Statement


The sound level in a noisy classroom is 101 dB. How much energy in J is transmitted to the outside through an open window of height 2 m and width 2.75 m, if the class is 40 minutes long?. What is the decibel rating 1 km from the classroom, assuming sound is distributed equally in all directions?

Homework Equations



I = P / 4(pi)r2
\beta = 10log(I/I0)

The Attempt at a Solution


the answers are [P = 0.069 W; E = 166 J; 46.4 dB]

I tried finding v, but I don't know what the dimensions of the window are for.
 
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Hi hiuting,

hiuting said:

Homework Statement


The sound level in a noisy classroom is 101 dB. How much energy in J is transmitted to the outside through an open window of height 2 m and width 2.75 m, if the class is 40 minutes long?. What is the decibel rating 1 km from the classroom, assuming sound is distributed equally in all directions?

Homework Equations



I = P / 4(pi)r2

This is the intensity in some cases, but what is the definition of intensity?
\beta = 10log(I/I0)

The Attempt at a Solution


the answers are [P = 0.069 W; E = 166 J; 46.4 dB]

I tried finding v,

What v are you trying to find, and how did you use the above equations to find it?

but I don't know what the dimensions of the window are for.
 
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