Resolution of XRay Intensifying Screens
Abstract
In the investigation reported attention is given to the effects which are observed if the fluid is electrically conducting and subject to a uniformly applied magnetic field. It is assumed that fluid velocity and magnetic field are aligned at large distances. In the investigation the steady state solution is calculated directly with the aid of finite differences and a numerical procedure similar to that employed by Kawaguti (1953).
 Publication:

Journal of the Electrochemical Society
 Pub Date:
 August 1975
 DOI:
 10.1149/1.2134401
 Bibcode:
 1974IJNME...8..771I
 Keywords:

 Circular Cylinders;
 Conducting Fluids;
 Finite Difference Theory;
 Magnetohydrodynamic Flow;
 Steady Flow;
 Boundary Value Problems;
 Electrical Resistivity;
 Equations Of Motion;
 Flow Velocity;
 Magnetic Fields;
 Two Dimensional Flow;
 Uniform Flow;
 Viscous Flow;
 Vortices;
 Plasma Physics