Plane Wave Scattered by a Rigid Sphere
Plane Wave Scattered by a Rigid Sphere
Plane Wave Scattered by a Rigid Sphere
Plane Wave Scattered by a Rigid Sphere
Plane Wave Scattered by a Rigid Sphere

Sound field due to a plane wave scattered by a rigid sphere is solved using Coustyx MultiDomain model. The Coustyx results are validated against the analytical solutions. Low frequency waves are scattered much less than high frequency waves. This phenomena is verified by computing sound fields at various values of ka, where k is the wave number and a is the radius of the sphere.
Sound field due to a plane wave scattered by a rigid sphere is solved using Coustyx MultiDomain model. The Coustyx results are validated against the analytical solutions. Low frequency waves are scattered much less than high frequency waves. This phenomena is verified by computing sound fields at various values of ka, where k is the wave number and a is the radius of the sphere.
Sound field due to a plane wave scattered by a rigid sphere is solved using Coustyx MultiDomain model. The Coustyx results are validated against the analytical solutions. Low frequency waves are scattered much less than high frequency waves. This phenomena is verified by computing sound fields at various values of ka, where k is the wave number and a is the radius of the sphere.
Sound field due to a plane wave scattered by a rigid sphere is solved using Coustyx MultiDomain model. The Coustyx results are validated against the analytical solutions. Low frequency waves are scattered much less than high frequency waves. This phenomena is verified by computing sound fields at various values of ka, where k is the wave number and a is the radius of the sphere.
Sound field due to a plane wave scattered by a rigid sphere is solved using Coustyx MultiDomain model. The Coustyx results are validated against the analytical solutions. Low frequency waves are scattered much less than high frequency waves. This phenomena is verified by computing sound fields at various values of ka, where k is the wave number and a is the radius of the sphere.

Downloads:

Download the latest version of Coustyx along with the Demo Model below. The Demo Model contains an embedded trial license valid only for this model. Install Coustyx first to run the Demo Model.
Download the latest version of Coustyx along with the Demo Model below. The Demo Model contains an embedded trial license valid only for this model. Install Coustyx first to run the Demo Model.
Download the latest version of Coustyx along with the Demo Model below. The Demo Model contains an embedded trial license valid only for this model. Install Coustyx first to run the Demo Model.
Download the latest version of Coustyx along with the Demo Model below. The Demo Model contains an embedded trial license valid only for this model. Install Coustyx first to run the Demo Model.
下载Coustyx试用版,附入门模型实例。试用版仅对该模型有效。首先安装Coustyx以启动该模型。