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1 Presenters: Peter Wasko, Mn/DOT Metro District Mel Roseen, Mn/DOT Environmental Services Anne...
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Transcript of 1 Presenters: Peter Wasko, Mn/DOT Metro District Mel Roseen, Mn/DOT Environmental Services Anne...
![Page 1: 1 Presenters: Peter Wasko, Mn/DOT Metro District Mel Roseen, Mn/DOT Environmental Services Anne Claflin, Minnesota Pollution Control Agency FHWAMn/DOT.](https://reader035.fdocuments.in/reader035/viewer/2022062417/551571cb550346486b8b4f38/html5/thumbnails/1.jpg)
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Presenters: Peter Wasko, Mn/DOT Metro District
Mel Roseen, Mn/DOT Environmental Services
Anne Claflin, Minnesota Pollution Control Agency
FHWAMn/DOT MPCA
Basics of AcousticsBasics of Acoustics
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What is Noise?What is Noise?
Noise is any unwanted sound that a person hears
![Page 3: 1 Presenters: Peter Wasko, Mn/DOT Metro District Mel Roseen, Mn/DOT Environmental Services Anne Claflin, Minnesota Pollution Control Agency FHWAMn/DOT.](https://reader035.fdocuments.in/reader035/viewer/2022062417/551571cb550346486b8b4f38/html5/thumbnails/3.jpg)
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What is sound then?What is sound then?
• Sound is vibrations transmitted through an elastic solid or a liquid or gas, with frequencies in the approximate range of 20 to 20,000 hertz, capable of being heard by the average human ear.
• Sound pressure levels are used to measure the intensity of sounds and are described in terms of decibels.
![Page 4: 1 Presenters: Peter Wasko, Mn/DOT Metro District Mel Roseen, Mn/DOT Environmental Services Anne Claflin, Minnesota Pollution Control Agency FHWAMn/DOT.](https://reader035.fdocuments.in/reader035/viewer/2022062417/551571cb550346486b8b4f38/html5/thumbnails/4.jpg)
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Common noise sourcesCommon noise sources
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Source-Path-Receiver ConceptSource-Path-Receiver Concept
Source
PathReceiver
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FrequencyFrequency
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FrequencyFrequency
• Frequency is the number of pressure cycles that pass a point per second
• Frequency=cycles per second=Hertz (Hz)
• Human hearing is in the range of 20 to 20,000 Hz
![Page 8: 1 Presenters: Peter Wasko, Mn/DOT Metro District Mel Roseen, Mn/DOT Environmental Services Anne Claflin, Minnesota Pollution Control Agency FHWAMn/DOT.](https://reader035.fdocuments.in/reader035/viewer/2022062417/551571cb550346486b8b4f38/html5/thumbnails/8.jpg)
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Speed of soundSpeed of sound
• Sounds travels at a rate of 1,126 feet per second in air of 58 degrees F
• Which corresponds to about 1 mile every 5 seconds
• The speed of sound is proportional to the square root of the temperature
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ExampleExample
• What is the wavelength of a sound with a frequency of 5,000 Hz? (assume speed of sound is 1,126 feet per second)
• 1,126 feet per second / 5,000 cycles per second =.23 feet or 2.7 inches
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Sound PressureSound Pressure
• Sound pressure amplitude determines the loudness of the sound.
• Sound pressure in air can be measured in units of micro Newtons per square meter (N/M2) or micro-Pascals (Pa).
• The human ear can detect a wide range of sound pressure. Usually from a range of
20 Pa to 200,000,000 Pa.
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Sound PressureSound Pressure
200,000,000 Pa = 2 X 108 Pa20,000,000 Pa = 2 X 107 Pa 2,000,000 Pa = 2 X 106 Pa 200,000 Pa = 2 X 105 Pa20,000 Pa = 2 X 104 Pa 2,000 Pa = 2 X 103 Pa 200 Pa = 2 X 102 Pa 20 Pa = 2 X 101 Pa
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Sound Pressure Levels and Sound Pressure Levels and DecibelsDecibels
• The square of sound pressure is proportional to sound power or sound energy.
• A measure of Sound Pressure Level (SPL) is the decibel; defined as
dB = 10 log10 (P1/P0)2
where: P1 = pressure value of interest P0 = a standard reference value of 20 Pa RMS
• The quantity (P1/P0)2 is called the “relative energy.”
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Sound Pressure Levels and Sound Pressure Levels and DecibelsDecibels
Relative Pressure Relative Energy Decibel, dB
(P1/P0) (P1/P0)2 10 Log (P1/P0)
2
100 = 1 100 = 1 0
100.5 = 3 101 = 10 10
101 = 10 102 = 100 20
101.5 = 32 103 = 1,000 30
102 = 100 104 = 10,000 40
102.5 = 316 105 = 100,000 50
103 = 1,000 106 = 1,000,000 60
103.5 = 3,162 107 = 10,000,000 70
104 = 10,000 108 = 100,000,000 80
104.5 = 31,623 109 = 1,000,000,000 90
105 = 100,000 1010 = 10,000,000,000 100
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Addition and Subtraction of Addition and Subtraction of Sound Pressure Levels (SPL)Sound Pressure Levels (SPL)
• dB levels may not be added or subtracted directly
• Relative energy values may be added or subtracted directly
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Addition and Subtraction of Addition and Subtraction of Sound Pressure Levels (SPL)Sound Pressure Levels (SPL)
Example: A source produces a sound pressure level of 70 dB. A second 70 dB source is added next to the first source.
What is the combined sound level of the 2 sources?• 70 dB + 70 dB does not equal 140 dB. Relative energy
values must be added.• Relative energy for each source =10(70/10)=10,000,000• Relative energy for both sources is 20,000,000• SPL for both sources=10 Log (20,000,000)=73 dB
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Addition and Subtraction of Addition and Subtraction of Sound Pressure Levels (SPL)Sound Pressure Levels (SPL)
Doubling sound energy increases sound levels by 3 decibels
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Addition and Subtraction of Addition and Subtraction of Sound Pressure Levels (SPL)Sound Pressure Levels (SPL)
When Two Values Differ By: Add to Higher Value 0 to 1 dB 3 dB 2 to 3 dB 2 dB 4 to 9 dB 1 dB 10 or more dB 0 dB
Example: 65 dB+ 70 dB = 71 dB
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It’s movie time!!It’s movie time!!
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What are A-weighted decibels (dBA)?What are A-weighted decibels (dBA)?
The sensitivity of the human ear to sound depends on the frequency or pitch of the sound. People hear some frequencies better than others. If a person hears two sounds of the same sound pressure but different frequencies, one sound may appear louder than the other. This occurs because people hear high frequency noise much better than low frequency noise.
A-weighting serves two important purposes:
1. gives a single number measure of noise level by integrating sound levels at all frequencies
2. gives a scale for noise level as experienced or perceived by the human ear
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A, B,A, B, & C Weighting Network Filters& C Weighting Network Filters
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Changes in noise levels in Changes in noise levels in an outdoor environmentan outdoor environment
• 3 dBA (increase or decrease) is barely perceptible
• 5 dBA (increase or decrease) is clearly noticeable
• 10 dBA (increase or decrease) is perceived as twice as loud (or half as loud)
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Refraction and Wind Refraction and Wind GradientsGradients
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Refraction and Temperature Refraction and Temperature GradientsGradients
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Noise Path without a BarrierNoise Path without a Barrier
Direct
Source
Receiver
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Noise Path with a BarrierNoise Path with a Barrier
Source
Receiver
Barrier
DiffractedTransmitted
Reflected
Direct
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Geometric Relationship Between Traffic and Receiver
Less loud by 3 dBA
dBA change = 10 log(D1/D2)
Hard reflective ground surface
Hard reflective ground surface
D
2D
70 dBA
67 dBA
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Geometric Relationship Between Traffic and Receiver
Attenuation increases by an additional 1.5 dBA for a total of 4.5 dB
dBA change = 15 log(D1/D2)
Soft absorptive ground surface
Soft absorptive ground surface
70 dBA
D
2D
65.5 dBA
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Importance of Breaking Line of SightImportance of Breaking Line of Sight
Source
Receiver
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Importance of Breaking Line of SightImportance of Breaking Line of Sight
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Effect of Barrier on Attenuation Over Distance
- 4.5 dBA/DD
-3 dBA/DD
100’
L (h)= 72 dBAEQ
L (h)= 63.5 dBAEQ
Field Insertion Loss = “Before” – “After” = 8.5 dBA
Wall Attenuation = 10 dBA
Line Source
Line Source
Wall Attenuation
10 dBA
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Parallel Barrier Reflections
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Questions?Questions?