Sound travellingwaves in wind instruments as solutions to non linear homogeneous gas dynamics equations

The sound propagation is usually described by a linear homogeneous wave equation, though the air flow in a duct is described by the gas dynamics equations, using a variable cross section, which corresponds to a non linear non homogneous system. The aim of this paper is to exhibit a common periodic s...

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Veröffentlicht in:	arXiv.org 2009-05
1. Verfasser:	Alain-Yves Le Roux
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Sprache:	eng
Schlagworte:	Air flow Cross-sections Gas dynamics Linearity Sound propagation Wave equations Wave propagation Wind instruments
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description	The sound propagation is usually described by a linear homogeneous wave equation, though the air flow in a duct is described by the gas dynamics equations, using a variable cross section, which corresponds to a non linear non homogneous system. The aim of this paper is to exhibit a common periodic solution to both models, with several free parameters such as frequency or amplitude, able to represent any sound. By taking in account a friction term linked to the material (wood or brass for instance) of the duct, it is possible to build an analytic such solution when the cross section fullfills some condition which corresponds exactly to the general shape of the wind instruments. The conclusion is that in the wind intruments, the shape brings the linearity.
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subjects	Air flow Cross-sections Gas dynamics Linearity Sound propagation Wave equations Wave propagation Wind instruments
title	Sound travellingwaves in wind instruments as solutions to non linear homogeneous gas dynamics equations
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