Add to ORKGStationary velocity distribution functions are determined for a particle in a gravitational field driven by a vibrating surface in the limit of small dissipation. It is found that the form of the distribution function is sensitive to the mechanism of energy dissipation, inelastic collisions or viscous drag, and also to the form of the amplitude function of the vibrating surface. The velocity distributions obtained analytically are found to be in excellent agreement with the results of computer simulations in the limit of low dissipation. [S0031-9007(99)08898-5]
We construct the theory of dissipative hydrodynamics of uncharged fluids living on embedded space-ti...
We report observations on very low density limit of one and two balls, vibrated in a box, showing a ...
The present work is concerned with the mathematical modelling of a bed of granular material in a gra...
Stationary velocity distribution functions are determined for a particle in a gravitational field dr...
The velocity distribution for a vibrated granular material is determined in the dilute limit where t...
To gain an understanding of the factors affecting the interaction of one grain with its environment ...
Based on Einstein's theory of gravitation, we discuss the influence of a spherically symmetric gravi...
We study the stationary nonequilibrium states of N-point particles moving under the influence of an ...
Texto completo: acesso restrito. p. 392–416In this work we study the dissipative dynamics of a syste...
The velocity distribution function for a two-dimensional vibro-fluidized bed of particles of radius ...
An exactly solvable, Hamiltonian-based model of many massive particles that are coupled by harmonic ...
We investigate the fluctuation dynamics of a probe around a deterministic motion induced by interact...
We study a model of Brownian particles which are pumped with energy by means of a non-linear frictio...
Theory and simulations are used to study collisionless relaxation of a gravitational N-body system. ...
The mechanism of gravitation processes is analyzed using the condition of stationary state in corpus...
We construct the theory of dissipative hydrodynamics of uncharged fluids living on embedded space-ti...
We report observations on very low density limit of one and two balls, vibrated in a box, showing a ...
The present work is concerned with the mathematical modelling of a bed of granular material in a gra...
Stationary velocity distribution functions are determined for a particle in a gravitational field dr...
The velocity distribution for a vibrated granular material is determined in the dilute limit where t...
To gain an understanding of the factors affecting the interaction of one grain with its environment ...
Based on Einstein's theory of gravitation, we discuss the influence of a spherically symmetric gravi...
We study the stationary nonequilibrium states of N-point particles moving under the influence of an ...
Texto completo: acesso restrito. p. 392–416In this work we study the dissipative dynamics of a syste...
The velocity distribution function for a two-dimensional vibro-fluidized bed of particles of radius ...
An exactly solvable, Hamiltonian-based model of many massive particles that are coupled by harmonic ...
We investigate the fluctuation dynamics of a probe around a deterministic motion induced by interact...
We study a model of Brownian particles which are pumped with energy by means of a non-linear frictio...
Theory and simulations are used to study collisionless relaxation of a gravitational N-body system. ...
The mechanism of gravitation processes is analyzed using the condition of stationary state in corpus...
We construct the theory of dissipative hydrodynamics of uncharged fluids living on embedded space-ti...
We report observations on very low density limit of one and two balls, vibrated in a box, showing a ...
The present work is concerned with the mathematical modelling of a bed of granular material in a gra...