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From: Axil Axil <janap...@gmail.com>
Sent: Sunday, March 26, 2017 12:52 PM
To: vortex-l
Subject: Re: [Vo]:Feynman on conservative vs non-conservative forces
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<mailto: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