Spherical Harmonic Excitation on a Sphere
Spherical Harmonic Excitation on a Sphere
Spherical Harmonic Excitation on a Sphere
Spherical Harmonic Excitation on a Sphere
伸缩球
A spherical harmonic excitation is
applied on a sphere and the corresponding acoustic radiation problem is solved
using Coustyx indirect BE model. The complicated velocity boundary condition is
defined using a script. Non-Uniqueness problem at cavity resonances are effectively
dealt by applying discontinuous boundary conditions. Coustyx solution is then validated
against analytical solution.
A spherical harmonic excitation is
applied on a sphere and the corresponding acoustic radiation problem is solved
using Coustyx indirect BE model. The complicated velocity boundary condition is
defined using a script. Non-Uniqueness problem at cavity resonances are effectively
dealt by applying discontinuous boundary conditions. Coustyx solution is then validated
against analytical solution.
A spherical harmonic excitation is
applied on a sphere and the corresponding acoustic radiation problem is solved
using Coustyx indirect BE model. The complicated velocity boundary condition is
defined using a script. Non-Uniqueness problem at cavity resonances are effectively
dealt by applying discontinuous boundary conditions. Coustyx solution is then validated
against analytical solution.
A spherical harmonic excitation is
applied on a sphere and the corresponding acoustic radiation problem is solved
using Coustyx indirect BE model. The complicated velocity boundary condition is
defined using a script. Non-Uniqueness problem at cavity resonances are effectively
dealt by applying discontinuous boundary conditions. Coustyx solution is then validated
against analytical solution.
A spherical harmonic excitation is
applied on a sphere and the corresponding acoustic radiation problem is solved
using Coustyx indirect BE model. The complicated velocity boundary condition is
defined using a script. Non-Uniqueness problem at cavity resonances are effectively
dealt by applying discontinuous boundary conditions. Coustyx solution is then validated
against analytical solution.
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.
- DemoModel (.zip,0.3MB)
- Model Description (.pdf,0.2MB)
- Coustyx