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Noise Exposure Level

Reference data and engineering information about noise exposure level for acoustics applications.

noiseexposurelevel

Overview

Engineering reference data for Noise Exposure Level in acoustics.

Key Formulas

Speed of Sound

c=γRTc = \sqrt{\gamma R T}

Speed of sound in an ideal gas.

Sound Level

L=10log10(I/I0)L = 10 \log_{10}(I/I_0)

Decibel level.

Wavelength

λ=c/f\lambda = c / f

Wavelength = speed / frequency.

Variables

SymbolDescriptionUnit
ccSpeed of soundm/s
LLSound leveldB
λ\lambdaWavelengthm
ffFrequencyHz

Example Calculation

Consider a worker exposed to 100 dB for 5 minutes and 94 dB for 30 minutes during an 8-hour workday. The maximum allowed exposure times are 15 minutes for 100 dB and 60 minutes for 94 dB.

The daily noise dose DD is calculated as:

D=(5 min15 min+30 min60 min)×100%=83%D = \left( \frac{5 \text{ min}}{15 \text{ min}} + \frac{30 \text{ min}}{60 \text{ min}} \right) \times 100\% = 83\%

The 8-hour Time-Weighted Average (TWA) is then:

\text{TWA} = 10 \log ## References - [Original Source](https://www.engineeringtoolbox.com/noise-exposure-level-d_718.html)