A magnetic monopole can emerge from a quasiparticle alignment of photon spin as experiment shows
Half-solitons in a polariton quantum fluid behave like magnetic monopoles http://arxiv.org/ftp/arxiv/papers/1204/1204.3564.pdf On Wed, Mar 22, 2017 at 1:11 PM, Frank Znidarsic <fznidar...@aol.com> wrote: > All static forces are conservative. An electrical dielectric of contains > forces of opposite charge which only reduces the strength of the static > electrical force. > > There is no opposite polarity for gravity so the static gravitational > force cannot be reduced. Static forces diverge, changing them, effects the > entire universe and requires enormous energies. Ref the previous > discussion, A magnetic mono pole would diverge and would require enormous > energies to produce. No possible with any technology but it is possible > that a few may be left over from the formation the universe. > > All magnetic forces are di-polar, curl, and have a limited range. They do > not effect the energy of the universe, and they are not conserved. The > magentic, gravitomagnetic ,and nuclear spin orbit forces are not > conserved. They come and go as need to conserve the momentum of a system > when the original static force fields cannot. > > > From my book. > > > "The arguments based on time and distances are not valid. For the sake > of argument let's first assume that forces propagate instantaneously. The > resulting forces are equal and opposite. The movement of local matter, > in such a system, immediately affects the distant regions of the universe. > No additional forces, other than the original exchange forces, are > required. These static fields would, conserve momentum through their own > actions. In the real universe forces do not propagate instantaneously. It > takes time for the gravitational field of matter to establish itself > throughout space. Moving matter immediately experiences the force of the > established gravitational field of distant matter. The fields of moving > matter require a finite amount of time to propagate outward. For a > period of time, distant matter will continue to be attracted to the moved > matter's old position. During this period, the original static forces > are not capable of conserving the system’s momentum. Additional forces > are required. Michael Faraday discovered that a moving electrical charge > induces a magnetic field. A magnetic field is produced by the dynamic > movement of an electrical charge. Its magnitude is proportional to the > charge's speed. When a moving electron passes through a changing > electrical field, a second magnetic field is produced. The magnitude of > this second field is proportional to the rate of change of the external > electrical field. A local force is produced by the interaction of these > two magnetic fields. The action of this local electro-magnetic force > balances the momentum of the moving electrical charges. " > > > Frank > > > > >