Add to ORKGSound transmisslon through straight circular duels with a uniform (inviscid) mean flow and a constant acoustic lining (impedance wall) is classicaIly described by a modal expansion. A natural extansion for ducts with, in axial direction. slowly varying properties (Iike diameter. wall impedance, and mean flow) is a muttiple-scales solution. It is shown in the present paper that a consistent approximation ol boundary condition and mean flow allows the multiple-scales problem to have an exact soIution. Tuming points and other singularities of this soIulion are discussed
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
In this paper we consider the propagation of acoustic waves along a curved hollow or annular duct wi...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
Sound transmisslon through straight circular duels with a uniform (inviscid) mean flow and a constan...
Sound transmisslon through straight circular duels with a uniform (inviscid) mean flow and a constan...
Sound transmission through ducts of constant cross-section with a uniform inviscid mean flow and a c...
Sound transmission through ducts of constant cross-section with a uniform inviscid mean flow and a c...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
In this paper we consider the propagation of acoustic waves along a curved hollow or annular duct wi...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
Sound transmisslon through straight circular duels with a uniform (inviscid) mean flow and a constan...
Sound transmisslon through straight circular duels with a uniform (inviscid) mean flow and a constan...
Sound transmission through ducts of constant cross-section with a uniform inviscid mean flow and a c...
Sound transmission through ducts of constant cross-section with a uniform inviscid mean flow and a c...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
Sound transmission through straight circular ducts with a uniform inviscid mean flow and a constant ...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...
In this paper we consider the propagation of acoustic waves along a curved hollow or annular duct wi...
A slowly varying modes solution of Wentzel-Kramers-Brillouin type is derived for the problem of soun...