Gyrons & extracting energy from aether

Jerry Wayne Decker ( )
Mon, 27 Sep 1999 13:09:17 -0700 (PDT)

Hi Folks!

....Found this interesting view of the aether as
'gyroscopic particles' which struck me as similar to
Joe Newmans Gyroscopic theory, I am including a
synopsis of his theory for comparison since he
indicates how to extract power from this gyroscopic
motion (though to my knowledge no one has been able to
verify Newman's claims);

As an alternative to the current unsatisfactory
situation in physics and philosophy, I am introducing
a new kind of aether. (Yes, aether, but this one is
Lorentz invariant, and therefore the Michelson-Morley
experiment does not invalidate its existence; on the
contrary, it yields a correct model for the photon.)

Also, there is no ether drag on matter, because matter
does not fly through the aether, it is a rotational
dynamic state in the aether.

In this model the known extent of the physical
universe is filled with the aether, which is a very
hot gas (gyron kinetic temperature on the order of
1032 K). The particles that make up this fluid are
called gyrons because the necessary physical
properties of the aether emerge from the gyroscopic
behavior of these fundamental particles that have a
special identical oblong form.

The rms speed of gyrons corresponds to the speed of
light; individual gyrons, however, can move slower or
faster. The local fluctuation in speed and density of
gyrons comprising the aether, produces the Heisenberg
uncertainties, and causes radioactivity; while the
tendency of this gas to assume a minimum in the phase
space, accounts for the principle of least action and,
hence, Hamiltonian mechanics. Physical reality is then
just dynamics of the aether.

In radically oversimplified terms, this is what
happens when Joe Newman throws the switch on the
Revolutionary Energy Machine:

1) An electrical current is sent through a long
(miles long) coil of copper wire, magnetizing it and
creating a strong magnetic field.

2) Newman describes the mechanics of the magnetic
field as "shells of force" composed of gyroscopic
particles that move in a spiral pattern around the

Originally IN the wire, the particles expand outward
and thus create the magnetic field.

3) When the particles form a magnetic field, Newman
says, they are traveling at the speed of light in two
directions - in the spiral pattern around the wire,
and in their own normal gyroscopic spin.

This gives him the right side of the E=mc2 equation;
the particles (mass) multiplied by the speed of light

4) The machine operates in pulses; that is, the
electrical current is continually turned on and off.
This causes the magnetic field - in other words, the
gyroscopic particles - to expand and collapse.

5) When the trillions of gyroscopic particles that
have been released collapse back into the wire, some
of them collide with other gyroscopic particles.

Because of the nature of the gyroscopic spin, the
collisions cause the loose particles to bounce off
at right angles; those particles emerge at one end of
the wire as electrical energy.

Newman attributes the production of current when a
wire is passed through the field at right angles to
the flow of magnetic flux, but does not produce
current if the wire is passed in parallel through the
field, to the spin of these gyroscopic particles.

Since the field consists of gyroscopic particles all
rotating in the same plane, a current is produced in a
wire when it is passed through the field lines at
right angles because the wire hits the gyroscopic
particles as it passes through their line of orbit.

When the gyroscopic particles hit electrons in the
wire, the electrons are knocked down the wire in the
direction of the gyroscopic particle spin thus
producing an electric current.

However, if the wire is passed through the magnetic
field parallel to the magnetic flux, the gyroscopic
particles in the magnetic field lines are spinning at
right angles to the wire and so cannot knock electrons
down the wire, and so no current is produced.

To get current, the wire has to be passed through the
magnetic field lines at right angles to the magnetic
flux so the spinning gyroscopic particles when hitting
electrons in the wire will knock them down the wire in
the direction of the gyroscopic particle spin.


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