graphic is similar to alternate current but 250-600 times slower.
Also, the graphic shows interruption in electric current caused by a
period between the generator’s full
stop and resuming its movement
in another direction; depending on
apparatus design, this interruption
can last from a ’fraction of a heartbeat’ or, like in the pendulum’s
case, up to 3 seconds.
ing back the figure skater’s taking
away.
Consider this. A fully loaded generator makes one full rotation in 5-10
seconds. More load less speed
less figure skater and centrifugal
effects. Both of the forces supposedly impeding the Gravity Powered
Generator are compensating for
each other bringing their combined
result to zero. Combined zero hindering is exactly what is needed.
We can easily flip the low part of
the graphic upwards using a rectifier and generator brushes, etc.
Then by interconnecting several
generators on a different rotation
period, we will get a direct current,
see picture #5b. It sounds complicated, but your computer like
most electrical devices around you
takes AC and transforms it into DC;
there is no alternate current inside
it. Chemical plants, smelters, steel
mills, railways, and subways consume mostly DC.
What kind of
electricity
are we getting?
In aiming to reduce the friction,
the conventional generator cannot be used; a linear DC generator is an obvious choice. Full rotation of the machine takes between
5 and 10 seconds to complete.
During this time the generator*
performs one complete back-andforth movement. On picture #5a
is a displayed electric current produced by such movement. The
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