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{{Sound measurements}} | |||
'''Acoustic impedance''' indicates how much sound pressure is generated by the vibration of molecules of a particular acoustic medium at a given frequency. Acoustic impedance ''Z'' (or '''sound impedance''') is frequency (''f'') dependent. It is very useful, for example, for describing the behaviour of musical wind instruments. Mathematically, it is the [[sound pressure]] ''p'' divided by the [[particle velocity]] ''v'' and the surface area ''S'', through which an acoustic wave of frequency ''f'' propagates. If the impedance is calculated for a range of excitation frequencies the result is an '''impedance curve'''. Planar, single-frequency [[traveling wave]]s have acoustic impedances equal to the '''characteristic impedance''' divided by the surface area, where the characteristic impedance is the product of [[longitudinal wave]] velocity and [[density]] of the medium. Acoustic impedance can be expressed in either its constituent units (pressure per velocity per area) or in [[rayl]]s per square meter. | |||
:<math> | |||
Z = \frac{p}{vS} \, | |||
</math> | |||
Note that sometimes ''vS'' is referred to as the '''volume velocity'''. | |||
The '''specific acoustic impedance''' ''z'' (also called '''shock impedance''') is the ratio of [[sound pressure]] ''p'' to [[particle velocity]] ''v'' at a single frequency and is expressed in [[rayl]]s. Therefore | |||
:<math> | |||
z = \frac{p}{v} = ZS =\rho D \, | |||
</math> | |||
where D is the sound wave velocity. | |||
Distinction has to be made between: | |||
*the '''characteristic acoustic impedance <math>Z_0</math>''' of a medium, usually air (compare with [[characteristic impedance]] in [[transmission line]]s). | |||
*the impedance <math>Z</math> of an acoustic component, like a wave conductor, a resonance chamber, a muffler or an organ pipe. | |||
== Characteristic acoustic impedance == | |||
The ''characteristic (acoustic) impedance'' of a medium is an inherent property of a medium:<ref name=Cobbold/> | |||
:<math>{Z_0= \rho_0 c_0}</math> | |||
Here <math>{Z_0}</math> is the characteristic impedance, measured in [[Rayl]]s, and <math>{\rho_0}</math> and <math>{c_0}</math> are the density and speed of sound in the unperturbed medium (i.e. when there are no sound waves travelling in it). | |||
In a viscous medium, there will be a phase difference between the pressure and velocity, so the specific acoustic impedance <math>\underline{Z}</math> will be different from the characteristic acoustic impedance <math>{Z_0}</math>. | |||
The characteristic impedance of air at room temperature is about 415 Pa·s/m or N·s/m³. By comparison the sound speed and density of water are much higher, resulting in an impedance of 1.5 MPa·s/m, about 3400 times higher. This differences leads to important differences between [[room acoustics]] or [[atmospheric acoustics]] on the one hand, and [[underwater acoustics]] on the other. | |||
{{Temperature_effect}} | |||
== Specific impedance of acoustic components == | |||
The specific acoustic impedance <math>Z</math> of an acoustic component (in [[Rayl]]s, i.e. Pa·s/m or N·s/m<sup>3</sup>) is the ratio of [[sound pressure]] <math>p</math> to [[particle velocity]] <math>v</math> at its connection point. ''Specific acoustic impedance'' is defined as:<ref name=Cobbold>{{cite book |title= Foundations of Biomedical Ultrasound |last= Cobbold |first= Richard S. C. |authorlink= |year= 2007 |publisher= Oxford University Press |location= New York |isbn= 978-0-19-516831-0|page= |pages= 41–42 |accessdate=|url=}}</ref> | |||
:<math>{\underline{Z}(\mathbf{r},\omega) = \frac{\underline{p}(\mathbf{r},\omega)}{\underline{v}(\mathbf{r},\omega)}}</math> | |||
where <math>\underline{Z}, \underline{p}</math> and <math>\underline{v}</math> are the specific acoustic impedance, pressure and [[particle velocity]] [[phasor]]s, <math>\mathbf{r}</math> is the position and <math>\omega</math> is the frequency. The phasors are used because, in general, the different terms will not be in phase. | |||
If they are in phase, the following equations hold: | |||
:<math> | |||
Z = \frac{p}{v} = \frac{I}{v^2} = \frac{p^2}{I} \, | |||
</math> | |||
where <math>I</math> is the [[sound intensity]] (W/m²). | |||
== Complex impedance == | |||
In general, a phase relation exists between the pressure and the matter velocity. The complex impedance is defined as | |||
:<math> | |||
Z = R + iX | |||
</math> | |||
where | |||
:''R'' is the resistive part, and | |||
:''X'' is the reactive part of the impedance | |||
The resistive part represents the energy transfer of an acoustic wave. The pressure and motion are in phase, so work is done on the medium ahead of the wave. | |||
The reactive part represents pressure that is out of phase with the motion and causes no average energy transfer. For example, a closed bulb connected to an organ pipe will have air moving into it and pressure, but they are out of phase so no net energy is transmitted into it. While the pressure rises, air moves in, and while it falls, it moves out, but the average pressure when the air moves in is the same as that when it moves out, so the power flows back and forth but with no time averaged energy transfer. The electrical analogy for this is a capacitor connected across a power line. Current flows through the capacitor but it is out of phase with the voltage, so no net power is transmitted into it. | |||
The phase of the impedance is then given by | |||
:<math>\angle Z = \tan^{-1} \left(\frac{X}{R}\right)</math> | |||
== See also == | |||
*[[Acoustic attenuation]] | |||
*[[Electrical impedance]] | |||
*[[Acoustic ohm]] | |||
*[[Earthquake bomb]] | |||
==References== | |||
{{reflist}} | |||
== External links == | |||
*[http://www.sengpielaudio.com/calculator-ak-ohm.htm Ohm's law as acoustic equivalent - calculation of specific acoustic impedance ''Z'', sound pressure, particle velocity, and sound intensity] | |||
*[http://www.sengpielaudio.com/RelationshipsOfAcousticQuantities.pdf Relationships of acoustic quantities associated with a plane progressive acoustic sound wave - pdf] | |||
*[http://www.phys.unsw.edu.au/jw/z.html What is acoustic impedance and why is it important?] | |||
{{DEFAULTSORT:Acoustic Impedance}} | |||
[[Category:Seismology measurement]] | |||
[[Category:Sound measurements]] |
Revision as of 09:19, 30 January 2014
Leather Items Maker Truman from Manotick, likes to spend some time caravaning, property developers in Singapore Property New and church/church activities. Had been especially enthused after visiting Vallée de Mai Nature Reserve. Acoustic impedance indicates how much sound pressure is generated by the vibration of molecules of a particular acoustic medium at a given frequency. Acoustic impedance Z (or sound impedance) is frequency (f) dependent. It is very useful, for example, for describing the behaviour of musical wind instruments. Mathematically, it is the sound pressure p divided by the particle velocity v and the surface area S, through which an acoustic wave of frequency f propagates. If the impedance is calculated for a range of excitation frequencies the result is an impedance curve. Planar, single-frequency traveling waves have acoustic impedances equal to the characteristic impedance divided by the surface area, where the characteristic impedance is the product of longitudinal wave velocity and density of the medium. Acoustic impedance can be expressed in either its constituent units (pressure per velocity per area) or in rayls per square meter.
Note that sometimes vS is referred to as the volume velocity.
The specific acoustic impedance z (also called shock impedance) is the ratio of sound pressure p to particle velocity v at a single frequency and is expressed in rayls. Therefore
where D is the sound wave velocity.
Distinction has to be made between:
- the characteristic acoustic impedance of a medium, usually air (compare with characteristic impedance in transmission lines).
- the impedance of an acoustic component, like a wave conductor, a resonance chamber, a muffler or an organ pipe.
Characteristic acoustic impedance
The characteristic (acoustic) impedance of a medium is an inherent property of a medium:[1]
Here is the characteristic impedance, measured in Rayls, and and are the density and speed of sound in the unperturbed medium (i.e. when there are no sound waves travelling in it).
In a viscous medium, there will be a phase difference between the pressure and velocity, so the specific acoustic impedance will be different from the characteristic acoustic impedance .
The characteristic impedance of air at room temperature is about 415 Pa·s/m or N·s/m³. By comparison the sound speed and density of water are much higher, resulting in an impedance of 1.5 MPa·s/m, about 3400 times higher. This differences leads to important differences between room acoustics or atmospheric acoustics on the one hand, and underwater acoustics on the other.
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Specific impedance of acoustic components
The specific acoustic impedance of an acoustic component (in Rayls, i.e. Pa·s/m or N·s/m3) is the ratio of sound pressure to particle velocity at its connection point. Specific acoustic impedance is defined as:[1]
where and are the specific acoustic impedance, pressure and particle velocity phasors, is the position and is the frequency. The phasors are used because, in general, the different terms will not be in phase.
If they are in phase, the following equations hold:
where is the sound intensity (W/m²).
Complex impedance
In general, a phase relation exists between the pressure and the matter velocity. The complex impedance is defined as
where
- R is the resistive part, and
- X is the reactive part of the impedance
The resistive part represents the energy transfer of an acoustic wave. The pressure and motion are in phase, so work is done on the medium ahead of the wave.
The reactive part represents pressure that is out of phase with the motion and causes no average energy transfer. For example, a closed bulb connected to an organ pipe will have air moving into it and pressure, but they are out of phase so no net energy is transmitted into it. While the pressure rises, air moves in, and while it falls, it moves out, but the average pressure when the air moves in is the same as that when it moves out, so the power flows back and forth but with no time averaged energy transfer. The electrical analogy for this is a capacitor connected across a power line. Current flows through the capacitor but it is out of phase with the voltage, so no net power is transmitted into it.
The phase of the impedance is then given by
See also
References
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External links
- Ohm's law as acoustic equivalent - calculation of specific acoustic impedance Z, sound pressure, particle velocity, and sound intensity
- Relationships of acoustic quantities associated with a plane progressive acoustic sound wave - pdf
- What is acoustic impedance and why is it important?
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