In this paper the theory of the stability of viscous flow between two rotating coaxial cylinders which has been developed by Taylor, Jeffreys and Meksyn is extended to the case when the fluid considered is an electrical conductor and a magnetic field along the axis of the cylinders is present. A differential equation of order eight is derived which governs the situation in marginal stability; and a significant set of boundary conditions for the problem is formulated. The case when the two cylinders are rotating in the same direction and the difference (d) in their radii is small compared to their mean (R0) is investigated in detail. A variational procedure for solving the underlying characteristic value problem and determining the critical ...
The linear stability of two axially superposed immiscible fluids between two rotating coaxial cylind...
This paper is devoted to an examination of the stability of a horizontal layer of fluid heated below...
We consider the flow of an electrically conducting fluid between differentially rotating cylinders, ...
In this paper the theory of the stability of viscous flow between two rotating coaxial cylinders whi...
The theory developed in an earlier paper (Chandrasekhar 1953) is extended to allow for counter-rotat...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid, perfect ...
The stability of viscous flow between two coaxial cylinders maintained by a constant transverse pres...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid and condu...
344-350The effect of a radial magnetic field on the stability of an electrically conducting incompre...
The stability of an electrically conducting fluid flow in a cylinder driven by a multi-pole rotating...
In this paper a new method is described for solving the characteristic value problem underlying the ...
A method of solving the exact characteristic value problem to which a study of the hydro-dynamic sta...
AbstractHydromagnetic flow between two coaxial circular cylinders is discussed when the inner cylind...
This paper relates to the steady flow of an electrically incompressible viscous fluid between two p...
The stability of dissipative Couette flow in the presence of an axial volume current superposed by a...
The linear stability of two axially superposed immiscible fluids between two rotating coaxial cylind...
This paper is devoted to an examination of the stability of a horizontal layer of fluid heated below...
We consider the flow of an electrically conducting fluid between differentially rotating cylinders, ...
In this paper the theory of the stability of viscous flow between two rotating coaxial cylinders whi...
The theory developed in an earlier paper (Chandrasekhar 1953) is extended to allow for counter-rotat...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid, perfect ...
The stability of viscous flow between two coaxial cylinders maintained by a constant transverse pres...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid and condu...
344-350The effect of a radial magnetic field on the stability of an electrically conducting incompre...
The stability of an electrically conducting fluid flow in a cylinder driven by a multi-pole rotating...
In this paper a new method is described for solving the characteristic value problem underlying the ...
A method of solving the exact characteristic value problem to which a study of the hydro-dynamic sta...
AbstractHydromagnetic flow between two coaxial circular cylinders is discussed when the inner cylind...
This paper relates to the steady flow of an electrically incompressible viscous fluid between two p...
The stability of dissipative Couette flow in the presence of an axial volume current superposed by a...
The linear stability of two axially superposed immiscible fluids between two rotating coaxial cylind...
This paper is devoted to an examination of the stability of a horizontal layer of fluid heated below...
We consider the flow of an electrically conducting fluid between differentially rotating cylinders, ...