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04-21-2011, 02:07 AM

several exciting difficulties in acoustics involve the propagation of sound in ducts. in addition,Microsoft Office 2007 Pro Plus, numerous applications of acoustics to ventilation / exhaust systems in buildings and automobiles use mufflers and acoustic filters to reduce the level of sound propagating down a duct or radiating in the end of a duct. within this laboratory workout you'll investigate the behavior of acoustic waves in a duct with changes in cross-sectional place,Office 2007 Keygen, facet branches, and resonators. from the procedure you'll observe the behavior of acoustic low-pass, high-pass, and band-stop filters because they are used in a very duct method. ii. the theory of acoustic transmission lines
a rather full theoretical growth of acoustic waveguides,Microsoft Office 2007 Product Key, transmission lines, and filters could be found in chapters nine & 10 of fundamentals of acoustics, 3rd ed., kinsler, frey, coppens,Office Home And Student, and sanders, (j. wiley & sons, 1982). a. waveguides and transmission lines
a waveguide is a structure which forces wave propagation along a path parallel to its longest dimension. acoustic wavequides are structures with constant cross-sectional area and shape. simple examples of such structures include hoses, tubes, and pipes, referred to hereafter as ducts. if a duct is excited by a pressure disturbance with a wavelength larger than twice the duct's largest cross-sectional dimension, then only plane waves will propagate down the duct. for a circular duct containing air at room temperature, the highest frequency at which only plane waves will propagate is given by f = 100/a where a is the radius of the duct cross-section. once plane waves are generated inside the duct, they will propagate down the duct, even if the duct has bends or turns in it. a propagating plane wave might encounter a change from the acoustic impedance of the duct when the duct (i) opens into free space, (ii) is connected to another section of duct with a different cross-section,Windows 7 Pro, (iii) branches off into two ducts, or (iv) is terminated in some other way. this impedance change causes partial reflection and partial transmission of the incident plane waves.

04-21-2011, 02:07 AM	#1
please23001 Posts: n/a	Microsoft Office 2007 Product Key acoustic filters several exciting difficulties in acoustics involve the propagation of sound in ducts. in addition,Microsoft Office 2007 Pro Plus, numerous applications of acoustics to ventilation / exhaust systems in buildings and automobiles use mufflers and acoustic filters to reduce the level of sound propagating down a duct or radiating in the end of a duct. within this laboratory workout you'll investigate the behavior of acoustic waves in a duct with changes in cross-sectional place,Office 2007 Keygen, facet branches, and resonators. from the procedure you'll observe the behavior of acoustic low-pass, high-pass, and band-stop filters because they are used in a very duct method. ii. the theory of acoustic transmission lines a rather full theoretical growth of acoustic waveguides,Microsoft Office 2007 Product Key, transmission lines, and filters could be found in chapters nine & 10 of fundamentals of acoustics, 3rd ed., kinsler, frey, coppens,Office Home And Student, and sanders, (j. wiley & sons, 1982). a. waveguides and transmission lines a waveguide is a structure which forces wave propagation along a path parallel to its longest dimension. acoustic wavequides are structures with constant cross-sectional area and shape. simple examples of such structures include hoses, tubes, and pipes, referred to hereafter as ducts. if a duct is excited by a pressure disturbance with a wavelength larger than twice the duct's largest cross-sectional dimension, then only plane waves will propagate down the duct. for a circular duct containing air at room temperature, the highest frequency at which only plane waves will propagate is given by f = 100/a where a is the radius of the duct cross-section. once plane waves are generated inside the duct, they will propagate down the duct, even if the duct has bends or turns in it. a propagating plane wave might encounter a change from the acoustic impedance of the duct when the duct (i) opens into free space, (ii) is connected to another section of duct with a different cross-section,Windows 7 Pro, (iii) branches off into two ducts, or (iv) is terminated in some other way. this impedance change causes partial reflection and partial transmission of the incident plane waves.

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