Woops, I made an error, too late to be posting after a long
day.
> That if all the electron gyros were moving AGAINST the flow
> of gravity to speed them up and produce more energy in each
> electron, then the wire coil or circuit carrying those
> electrons would be heavier and the weight of the mass would
> INCREASE proportional to the power extracted from the
> circuit.
It should read like this;
If all the electron gyros were moving AGAINST the flow of
gravity to SLOW THEM DOWN and REDUCE the electron energy,
then the wire coil or circuit carrying those electrons
must be heavier due to the increased resistance to the
gravity flow so that the weight of the mass would INCREASE.
But that doesn't make sense either, because if the electrons
are losing energy, then the mass should become lighter, yet
the gravity if fighting and pushing against the gyro
rotation
which should cause more weight.
I think Newmans theory presumes that gravity or aether
influx
must move faster than the electron gyroscope rotations so
that
ENTRAINMENT by association with a faster moving flow would
cause
the electron gyro to speed up when in the presence of
gravity
and thus add more energy to each electron.
So gravity/aether influx is either moving WITH and speeding
UP
electron gyros to ADD energy
or moving AGAINST and slowing DOWN electron gyros to REMOVE
energy.
When speeding it up, the excess energy could be extracted to
drive a load.
I remain puzzled about the cold current aspect as reported
by
Bearden and Sweet and something about Newmans electron gyro
concept seems to hold a key to understanding the difference
between 'hot'/pressure/contraction and
'cold'/vacuum/expansion
currents.
Perhaps it lies purely with resistance, high frequency or
resonance, but something about this gyro thing teases me as
a solution.
-- Jerry Wayne Decker - jdecker@keelynet.com http://www.keelynet.com from an Art to a Science Voice : (214)324-8741 - FAX : (214)324-3501 KeelyNet - PO BOX 870716 Mesquite - Republic of Texas - 75187------------------------------------------------------------- To leave this list, email <listserver@keelynet.com> with the body text: leave Interact list archives and on line subscription forms are at http://keelynet.com/interact/ -------------------------------------------------------------