THE BIVORTEX FIELD
Copyright 2004 George William Kelly

Subparticles of a bivortex body flow along the field lines of the bivortex body. These flowing subparticles constitute the entirety of the bivortex body.  The motion of the subparticles along their bivortex-forming pathways creates the magnetic, electromagnetic, and gravitational field lines of the bivortex body.

Magnetic and electromagnetic field lines are generally described as bipolar. The familiar bar-magnet-with-iron-filings demonstration shows that iron filings align in arches between the north and south poles of the magnet. Hence, the field lines are considered to be bipolar.

Bivortex field lines, on the other hand, are quadrupolar. They flow inward at each polar vortex; radiate outward at the equatorial plane; arch oppositely northward and southward toward the pole from which they came; and return into the respective polar vortexes. Thus, bivortex field lines are less like the dipole of William Gilbert and Michael Faraday and more like the quadrupole of Hermann von Helmholtz.   Since the overall bivortex particle is itself rotating, the bivortex field lines take a spiral path from the equator toward the two poles, a spiral and three-dimensional path that the iron filings experiment cannot show.

Altogether the bivortex field lines form a toroidal sphere, which may be "solid" at the core and extremely "thin" at the outermost extension of the field lines. The moving particles that make up the field lines are constituent particles of a dynamic composite body. 



- posted by George William Kelly @ 9:22 PM