From the principle of least action the equation of motion for viscous compressible and charged fluid is derived. The viscosity effect is described by the 4-potential of the energy dissipation field, dissipation tensor and dissipation stress-energy tensor. In the weak field limit it is shown that the obtained equation is equivalent to the Navier-Stokes equation. The equation for the power of the kinetic energy loss is provided, the equation of motion is integrated, and the dependence of the velocity magnitude is determined. A complete set of equations is presented, which suffices to solve the problem of motion of viscous compressible and charged fluid in the gravitational and electromagnetic fields
Vectorial mechanics and analytical mechanics are two time-honored forms of classical mechanics. Vec...
Two constitutive equations for viscoelastic fluids are examined in linearized hydrodynamic stability...
AbstractWe investigate the ratios βη≡η/τπ and βζ≡ζ/τΠ, i.e., the ratios of shear, η, and bulk, ζ, vi...
The paper suggests a relativistic model of fluids motion combining the conventional formulation of t...
International audienceWe present a complete set of the equations and matching conditions required fo...
The paper examines the possibility of interpreting the energy-stress tensor of an electromagnetic fi...
Explicit formulae for the viscosity stress tensor, equations of motion and kinetic energy dissipatio...
Discrete mechanics is presented as an alternative to the equations of fluid mechanics, in particular...
The interaction of shock waves with viscosity is one of the central problems in the supersonic regim...
summary:We consider the problem of motion of several rigid bodies in a viscous fluid. Both compressi...
summary:The global existence of weak solution is proved for the problem of the motion of several rig...
The linear equations between the elements of the viscous pressure tensor and the rates of deformatio...
In this paper we obtain the conservation equations of momentum-energy of a relativistic fluid in the...
Space-times with perfect charged fluids as sources, that admit groups Gr of isometric motions, are i...
Linear equation of motion consists of mass, stiffness and viscosity, and is deduced from the energy ...
Vectorial mechanics and analytical mechanics are two time-honored forms of classical mechanics. Vec...
Two constitutive equations for viscoelastic fluids are examined in linearized hydrodynamic stability...
AbstractWe investigate the ratios βη≡η/τπ and βζ≡ζ/τΠ, i.e., the ratios of shear, η, and bulk, ζ, vi...
The paper suggests a relativistic model of fluids motion combining the conventional formulation of t...
International audienceWe present a complete set of the equations and matching conditions required fo...
The paper examines the possibility of interpreting the energy-stress tensor of an electromagnetic fi...
Explicit formulae for the viscosity stress tensor, equations of motion and kinetic energy dissipatio...
Discrete mechanics is presented as an alternative to the equations of fluid mechanics, in particular...
The interaction of shock waves with viscosity is one of the central problems in the supersonic regim...
summary:We consider the problem of motion of several rigid bodies in a viscous fluid. Both compressi...
summary:The global existence of weak solution is proved for the problem of the motion of several rig...
The linear equations between the elements of the viscous pressure tensor and the rates of deformatio...
In this paper we obtain the conservation equations of momentum-energy of a relativistic fluid in the...
Space-times with perfect charged fluids as sources, that admit groups Gr of isometric motions, are i...
Linear equation of motion consists of mass, stiffness and viscosity, and is deduced from the energy ...
Vectorial mechanics and analytical mechanics are two time-honored forms of classical mechanics. Vec...
Two constitutive equations for viscoelastic fluids are examined in linearized hydrodynamic stability...
AbstractWe investigate the ratios βη≡η/τπ and βζ≡ζ/τΠ, i.e., the ratios of shear, η, and bulk, ζ, vi...