A sound propagation through a rarefied gas inside a two-dimensional cavity is investigated on the basis of the linearized Boltzmann equation, where one of the cavity wall oscillates harmonically in the normal direction to its own surface and is considered as a sound source. An analytical solution at high oscillation frequencies is obtained, and detailed numerical results for a wide range of gas rarefaction are presented. The influence of both the aspect ratio of the cavity and the oscillation frequency on the average gas pressure exerted on the oscillating plate is studied. It is found that, at large values of the aspect ratio, the average pressure oscillates when the sound frequency varies, due to the sound resonance and anti-resonance alo...
Some acoustic devices make use of closed cavities, filled with gas, the dimensions of which are of t...
This paper is concerned with forced oscillations of fluid in a rectangular container. From the linea...
The distribution of perturbations of pressure and velocity in a rectangular resonator is considered....
A sound propagation through a rarefied gas inside a two-dimensional cavity is investigated on the ba...
Two-dimensional oscillatory lid-driven cavity flow of a rarefied gas at arbitrary oscillation freque...
We study the effect of gas rarefaction on the propagation of vibroacoustic sound in a two-dimensiona...
We study the effect of gas rarefaction and wall confinement on the propagation of vibroacoustic dist...
The oscillatory rarefied gas flow in a three-dimensional (3D) rectangular cavity, which is frequentl...
Sound wave propagation in rarefied monatomic gases is simulated using a newly developed unified gask...
The nonlinear oscillation of rarefied gas flow inside a two-dimensional rectangular cavity is invest...
Major: PhysicsFaculty Mentor: Dr. Erich Gust, Engineering and Physics We have measured the resonant ...
An investigation is conducted on the acoustic resonance that develops in rectangular and cylindrical...
The behaviour investigation of single spherical holes in hariable fields of pressure is the aim of t...
Basic properties of the incompressible fluid motion in a rectangular cavity located along one wall o...
In this paper, we experimentally verify a new model of the acoustic oscillation that is observed in ...
Some acoustic devices make use of closed cavities, filled with gas, the dimensions of which are of t...
This paper is concerned with forced oscillations of fluid in a rectangular container. From the linea...
The distribution of perturbations of pressure and velocity in a rectangular resonator is considered....
A sound propagation through a rarefied gas inside a two-dimensional cavity is investigated on the ba...
Two-dimensional oscillatory lid-driven cavity flow of a rarefied gas at arbitrary oscillation freque...
We study the effect of gas rarefaction on the propagation of vibroacoustic sound in a two-dimensiona...
We study the effect of gas rarefaction and wall confinement on the propagation of vibroacoustic dist...
The oscillatory rarefied gas flow in a three-dimensional (3D) rectangular cavity, which is frequentl...
Sound wave propagation in rarefied monatomic gases is simulated using a newly developed unified gask...
The nonlinear oscillation of rarefied gas flow inside a two-dimensional rectangular cavity is invest...
Major: PhysicsFaculty Mentor: Dr. Erich Gust, Engineering and Physics We have measured the resonant ...
An investigation is conducted on the acoustic resonance that develops in rectangular and cylindrical...
The behaviour investigation of single spherical holes in hariable fields of pressure is the aim of t...
Basic properties of the incompressible fluid motion in a rectangular cavity located along one wall o...
In this paper, we experimentally verify a new model of the acoustic oscillation that is observed in ...
Some acoustic devices make use of closed cavities, filled with gas, the dimensions of which are of t...
This paper is concerned with forced oscillations of fluid in a rectangular container. From the linea...
The distribution of perturbations of pressure and velocity in a rectangular resonator is considered....