QuestionMay 3, 2025

2. Explain how to determine the actual NRR pro- vided by foam plugs with an NRR of 30 in an exposure situation where the 8-hour TWA is 102 dB(A). Do the same for a measured exposure of 102 dB(C).

2. Explain how to determine the actual NRR pro- vided by foam plugs with an NRR of 30 in an exposure situation where the 8-hour TWA is 102 dB(A). Do the same for a measured exposure of 102 dB(C).
2. Explain how to determine the actual NRR pro- vided by foam plugs with an NRR of 30 in an exposure situation where the 8-hour TWA is 102 dB(A). Do the same for a measured exposure of 102 dB(C).

Solution
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Answer

79 dB(A) and 72 dB(C) Explanation 1. Calculate the Adjusted NRR for dB(A) Subtract 7 from the NRR to adjust for A-weighting: 30 - 7 = 23. 2. Determine the Effective Protection for dB(A) Subtract the adjusted NRR from the TWA: 102 - 23 = 79 \text{ dB(A)}. 3. Calculate the Adjusted NRR for dB(C) No adjustment needed for C-weighting, so use the original NRR: 30. 4. Determine the Effective Protection for dB(C) Subtract the NRR from the measured exposure: 102 - 30 = 72 \text{ dB(C)}.

Explanation

1. Calculate the Adjusted NRR for dB(A)<br /> Subtract 7 from the NRR to adjust for A-weighting: $30 - 7 = 23$.<br /><br />2. Determine the Effective Protection for dB(A)<br /> Subtract the adjusted NRR from the TWA: $102 - 23 = 79 \text{ dB(A)}$.<br /><br />3. Calculate the Adjusted NRR for dB(C)<br /> No adjustment needed for C-weighting, so use the original NRR: $30$.<br /><br />4. Determine the Effective Protection for dB(C)<br /> Subtract the NRR from the measured exposure: $102 - 30 = 72 \text{ dB(C)}$.
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