Molecular Dynamics Study on Wave Equation of Liquid
スポンサーリンク
概要
- 論文の詳細を見る
The equation of wave propagating in fluid is described as a differential equation of the velocity or small element density from the Navier-Stokes (NS) equation. On the other hand, the molecular dynamics (MD) equation expresses the motion of a particle constituting the fluid and shows that the particle is always in motion regardless of the existence of the wave. In this study, we discuss in what way meanings of the velocity and density in the wave equation can be adopted in the MD system. What are the differentials with respect to time and space in the NS equation for the system of MD particles? Ordinarily, the physical quantities in the NS equation are obtained as the ensemble and time averages over the MD system. We investigate the number of particles and duration of time that are sufficient for the averages and simultaneously confirm whether the averaged values satisfy the differential equation. The two-dimensional MD method is used for the qualitative understanding. The fluid is assumed to consist of particles connected by the Lennard-Jones potential. The satisfaction of the differential equation by the MD averaged values is shown by the propagation velocity in the wave equation. The propagation velocity can be also obtained in another way i.e. by the ‘observation’ of the wave fronts motion of velocity, density or total energy wave in the fluid. The propagation velocity that has resulted from the wave equation is strongly affected by the ensemble and time averages. On the other hand, when it is obtained from the wave front, it is independent of the ensemble and time averages. We can have the former propagation velocity close to the latter one when a long time average is used for a large ensemble and a short time average for a small ensemble, i.e. the product of both averages can be considered changed at same rate as if by a scaling coefficient.
- 社団法人 日本伝熱学会の論文
- 2007-07-01
著者
-
Zolotoukhina Tatiana
富山大
-
Zolotoukhina Tatiana
Department Of Mechanical Engineering The University Of Tokyo
-
IWAKI Toshihiro
Department of Mechanical and Intellectual System Engineering, Faculty of Engineering, Toyama Univers
-
Iwaki Toshihiro
Department Of Mechanical And Intellectual System Engineering Faculty Of Engineering Toyama Universit
-
Zolotoukhina Tatiana
Department of Mechanical and Intellectual System Engineering, Faculty of Engineering, Toyama University
関連論文
- Quantum Molecular Dynamics Study of Energy Transfer of Diatomic Molecules to Solid Surfaces
- Molecular Dynamics Study on Wave Equation of Liquid
- Molecular Dynamics Mechanism of Diffusion
- Molecular Dynamics Study of Mass Diffusion
- Molecular Dynamics Study on Wave Equation of Solid
- Molecular Dynamics Simulation of Coherent Phonon Generation and Its Spectral Characterization in a Nanoribbon upon Localized Pulse Heating
- Molecular Dynamics Simulation of Heat Transport in a Nanoribbon by the Thermal Wave at Different Durations of Pulse Heating
- Quantum Molecular Dynamics Study of Energy Transfer of Diatomic Molecules to Solid Surfaces
- Molecular Diffusion through Nano-porous Thin Film