Abstract :
Summary form only given. It is shown that since its inception magnetohydrodynamics theory, MHD, has paid insufficient attention to that Maxwell equation which relates the electric field to excess charge. With reference to a recent review article on magnetic astrophysical plasmas the diffusive character and the validity region of the MHD theory are presented. The information contained in the missing Maxwell equation is exploited in an analysis of the distribution between plasma ions and electrons of angular momentum transferred by the total electromechanical torque tensor. In case of Hall effect, i.e. when the plasma electrons are free to gyrate magnetically, a strongly differing, whirlforming plasma description the Hall effect MHD replaces MHD. The poor results of magnetic confinement fusion research are explained, and arguments given for the existence of long-lived plasma structures, plasmoids or ball lightnings, in atmospheric air.
Keywords :
Maxwell equations; astrophysical plasma; magnetohydrodynamics; plasma magnetohydrodynamics; Hall effect; Maxwell equation; angular momentum; atmospheric air; ball lightnings; diffusive character; electric field; excess charge; long-lived plasma structures; magnetic astrophysical plasmas; magnetic confinement fusion research; magnetic gyration; magnetohydrodynamics; plasma electrons; plasma ions; plasmoids; total electromechanical torque tensor; validity region; whirlforming plasma; Electrons; Hall effect; Information analysis; Magnetic analysis; Magnetic confinement; Magnetohydrodynamics; Maxwell equations; Plasma confinement; Tensile stress; Torque;
