I did as John said. And I made a small animated gif in which you can
see.

http://home.arcor.de/fallenangel3k/bd.gif

Right LED = Coil ON
Left LED = Coil OFF / "Radiant-Spike"

Nice to see in solide state, that BOTH LEDs are glowing brighter
than when the wheel is in motion. That's of the higher frequency,
almost 3 times higher than the highest pulses per second when in
motion...


BTW: My Digicam is not very fast (Coolpix 3100) but when I take a
movie with it, then I have some kind of ghost-relfection, where the
LEDs are reflected, but many times at the same time. This has the
effect, that you have a movie with ONSCREEN OSCILLOSCOPE... ;c) Nice
to SEE the difference between the different Transistors and Mosfets
which I have used. I can post pictures, if someone want to see..


Best Greets,

Marcus



--- In Bedini_SG@yahoogroups.com, "john_bedini" <john_bedini@y...>
wrote:
>
> Answer to some questions,
> The magnets around the wheel are only used for a trigger signal.
What
> is driving the wheel is hidden from your view, what is hidden from
> your view is also the charging signal. The driving force of the
wheel
> is scalar or magnetic south poles between the north poles. Make
> yourself a timing light by taking a green or red led with a 330
ohm
> resistor in series with it. Place skinny white strips down the
center
> of the magnets around the wheel, connect the led across the coil
and
> then tell me where the coil pulse is and what is driving the
wheel.
> The force that is driving the wheel is the same force charging the
> battery. Do the test take one fully charged battery and one
> discharged battery, hook them up and see if you get one to one if
you
> do you have just seen a unity machine, but please do not leave out
> the wheel rotation in you calculation, mechanical power is equal
to
> work done, its a figure of 29% so what kind of machine have you
built?
> You will find that the scalar south is driving the wheel and not
the
> north pole.
> John