4 Sound Noise Acoustics Basics

In this blog post, I will just define a few terms that will help with future blogs.

Sound Pressure Level
Sound, or noise, is the term given to variations in air pressure that are capable of being detected by the human ear. Small fluctuations in atmospheric pressure (sound pressure) constitute the physical property measured with a sound pressure level meter. Because the human ear can detect variations in atmospheric pressure over such a large range of magnitudes, sound pressure is expressed on a logarithmic scale in units called decibels (dB). Noise is defined as “unwanted” sound.

Technically, sound pressure level (SPL) is defined as:

SPL = 20 log (P/Pref) dB

where P is the sound pressure fluctuation (above or below atmospheric pressure) and Pref is the reference pressure, 20 μPa, which is approximately the lowest sound pressure that can be detected by the human ear.

The sound pressure level that results from a combination of noise sources is not the arithmetic sum of the individual sound sources, but rather the logarithmic sum. For example, two sound levels of 50 dB produce a combined sound level of 53 dB, not 100 dB. Two sound levels of 40 and 50 dB produce a combined level of 50.4 dB.

A-Weighted Sound Level
Studies have shown conclusively that at equal sound pressure levels, people are generally more sensitive to certain higher frequency sounds (such as made by speech, horns, and whistles) than most lower frequency sounds (such as made by motors and engines) at the same level. To address this preferential response to frequency, the A-weighted scale was developed. The A-weighted scale adjusts the sound level in each frequency band in much the same manner that the human auditory system does. Thus the A-weighted sound level (read as “dBA”) becomes a single number that defines the level of a sound and has some correlation with the sensitivity of the human ear to that sound. Different sounds with the same A-weighted sound level are perceived as being equally loud. The A-weighted noise level is commonly used today in environmental noise analysis and in noise regulations. Typical values of the A-weighted sound level of various noise sources are shown in Table 1.

Table 1
Common Sound Levels in dBA

Common Outdoor Sounds Sound Pressure Level (dBA) Common Indoor Sounds Subjective Evaluation
Auto horn at 10’Jackhammer at 50’ 100  Newspaper pressTextile mill Deafening
Gas lawn mower at 4’Pneumatic drill at 50’ 90  Auditorium during applauseFood blender at 3’ Very Loud
Concrete mixer at 50’Jet flyover at 5000’ 80  Telephone ringing at 8’Vacuum cleaner at 5’
Large dog barking at 50’Large transformer at 50’ 70  Electric shaver at 1’Clothes washer at 2′ Loud
Automobile at 55 mph at 150’Urban residential 60  Normal conversation at 3’Window air conditioning unit
Birds at 25’Small town residence 50  Office noiseConference room background Moderate
Wind in trees (5 mph)Farm valley 40  Soft stereo music in residenceLibrary
Rustling leaves 30  Average bedroom at nightSoft whisper at 3’ Faint
Quiet rural nighttime 20  Broadcast and recording studio
10  Human breathing Very Faint
0 Threshold of hearing (audibility)

 

Sensitivity to Changes in Sound Level
Human sensitivity to changes in sound pressure level is highly individualized. Sensitivity to sound depends on frequency content, background noise, time of occurrence, duration, and psychological factors such as emotions and expectations. However, in general, an approximation of human sensitivity to changes in sound level can be expressed as shown in Table 2. Noise is measured in decibels (dBA). Because people respond differently to sound at different frequencies, a weighted scale (dBA) is used to approximate the sensitivity of the human ear. Note that a 6 dBA change is required for the sound level change to be clearly noticeable.

Table 2
Human Sensitivity to Changes in Sound Level

Change in Sound Levels (dBA) Change in Apparent Loudness
1 Imperceptible
3 Just barely perceptible
6 Clearly noticeable
10 About twice (or half) as loud
20 About four times (or 1/4 as loud)

 

Equivalent Sound Level
The Equivalent Sound Level (Leq) is a type of average which represents the steady level that, integrated over a time period, would produce the same energy as the actual signal. The actual instantaneous noise levels typically fluctuate above and below the measured Leq during the measurement period. The A-weighted Leq is a common index for measuring environmental noise.

Day-Night Average Sound Level
The day-night average sound level (DNL) descriptor is a 24-hour descriptor computed by averaging (on an energy basis) the hourly equivalent sound level (Leq) measured in each hour during a 24-hour period after 10 dB is added to the levels measured between 10 PM and 7 AM.

Frequency
Frequency (measured in Hz) is a measure of the cycles per second of a sound. With a sound level meter (or app on a smart phone) you can measure the sound level (in dBA). You can also look at the spectrum by taking that microphone signal and performing an FFT (Fast Fourier Transform). The spectrum will show you the amplitude versus frequency. This is helpful to know to determine how best to mitigate a noise source and for identifying noise sources.

There are other terms that I will describe as we go – as they pertain to certain projects such as:
noise exposure (for OSHA noise limits)
Sound Transmission Class or STC
Impact Insulation Class or IIC
NC and RC that are used for mechanical equipment noise.
Statistical noise levels
Reverberation time

 

Thank you for visiting our site.  Please let us know if you have any questions or suggestions. 520-979-2213, bill@ssacoustical.com, www.ssacoustical.com.

Sound Solutions is an acoustical consulting firm that works throughout the US conducting noise measurements, analysis, and reporting for environmental and architectural noise issues.  Please contact us for a free proposal.

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